Hallinto-osaston julkaisuja 2008/9
STUDY PROGRAMME ECTS GUIDE 2008-2009
Teknillinen korkeakoulu Opintoasiat
Edited by The International Student Services The planning officers, study secretaries and faculty secretaries have edited the parts concerning the courses.
ISBN 978-951-22-9486-2 ISSN 1456-601X This publication was published with the assistance of the Commission of the European Communities within the framework of the SOCRATES Programme.
Photo: Kimmo Brandt Edita 2008
TO THE READER ........................................................................................................................................................................... 3 MAP OF OTANIEMI ....................................................................................................................................................................... 4 1 FINLAND, ESPOO ....................................................................................................................................................................... 6 2 HELSINKI UNIVERSITY OF TECHNOLOGY ........................................................................................................................ 6 2.1 General Description ................................................................................................................................................................ 6 2.2 International Student Services ................................................................................................................................................ 6 2.3 Faculties ................................................................................................................................................................................... 7 3 STUDYING AT TKK..................................................................................................................................................................... 7 3.1. European Credit Transfer System ECTS at TKK ................................................................................................................. 7 3.2 Degree Structure...................................................................................................................................................................... 7 3.2.1 Regulations for the Transition Period .............................................................................................................................. 7 3.2.2 Degrees.............................................................................................................................................................................. 8 3.2.3 Structure of Bachelor's Degree ........................................................................................................................................ 8 3.2.4 Structure of Master's Degree............................................................................................................................................ 8 3.2.5 Structure of Doctoral (Licentiate) Studies....................................................................................................................... 8 3.2.6 Degree Programmes ......................................................................................................................................................... 9 3.2.7 Degree Programmes, Majors and Minors........................................................................................................................ 9 3.2.8 Recommendation and Limitation of the Study Time..................................................................................................... 9 3.3 General Information................................................................................................................................................................ 9 3.3.1 Options for International Students................................................................................................................................... 9 3.3.2 Coming to Finland: Necessary Documents .................................................................................................................... 9 3.3.3 Arriving in Otaniemi ........................................................................................................................................................ 9 3.3.4 Fees ................................................................................................................................................................................. 10 3.3.5 Financing Your Studies .................................................................................................................................................. 10 3.3.6 Living Costs .................................................................................................................................................................... 10 3.4 Academic Issues ..................................................................................................................................................................... 10 3.4.1 Academic Year at TKK ................................................................................................................................................... 10 3.4.2 Registration ..................................................................................................................................................................... 10 3.4.3 Orientation Days for New International Students......................................................................................................... 10 3.4.4 Study Counselling .......................................................................................................................................................... 11 3.4.5 Study Plans...................................................................................................................................................................... 11 3.4.6 Language of Instruction.................................................................................................................................................. 11 3.4.7 Registration for a Course; Course Materials .................................................................................................................. 11 3.4.8 Examinations: Registration and Grading....................................................................................................................... 11 3.4.9 Credit System.................................................................................................................................................................. 12 3.4.10 Approval of Studies ....................................................................................................................................................... 12 3.4.11 Continuing Education ................................................................................................................................................. 12 3.5 Additional Services ................................................................................................................................................................ 12 3.5.1 Housing........................................................................................................................................................................... 12 3.5.2 Health Care..................................................................................................................................................................... 12 3.5.3 Computer Facilities........................................................................................................................................................ 12 3.5.4 Library Services............................................................................................................................................................... 12 3.5.5 Sports Facilities............................................................................................................................................................... 13 3.5.6 Career Services ............................................................................................................................................................... 13 3.5.7 Practical Training ........................................................................................................................................................... 13 3.5.8 PoliAlumni - the Alumni Society at TKK ...................................................................................................................... 13 4 TEACHING AT TKK .................................................................................................................................................................. 14 4.1 Programmes in English ......................................................................................................................................................... 14 4.1.1 Master’s Degree Programmes......................................................................................................................................... 14 Master’s Programme in Communications Engineering .................................................................................................... 14 Master’s Programme in Electrical Engineering ................................................................................................................. 14 Master’s Programme in Micro- and Nanotechnology ........................................................................................................ 14 SpaceMaster - Erasmus Mundus Master’s Degree Programme in Space Science and Technology................................ 14 Master’s Programme in Bioinformatics............................................................................................................................... 15 Master's Programme in Foundations of Advanced Computing......................................................................................... 15 Master’s Programme in Machine Learning and Data Mining .......................................................................................... 15 Master’s Programme in Mobile Computing - Services and Security................................................................................. 15 Master’s Programme in Service Design and Engineering ................................................................................................. 15 Master’s Programme in Service Management and Engineering ....................................................................................... 16 NordSecMob-Master’s Programme in Security and Mobile Computing ......................................................................... 16 Master’s Programme in Geoinformatics ............................................................................................................................. 16
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Master’s Programme in Real Estate Investment and Finance............................................................................................ 17 Master’s Programme in Forest Products Technology......................................................................................................... 17 Master’s Programme in Process Systems Engineering ....................................................................................................... 17 Erasmus Mundus Minerals and Environmental Programme ............................................................................................ 17 4.1.2 Doctorate Degree Programmes...................................................................................................................................... 17 Doctoral Programme in Electrical Engineering ................................................................................................................ 17 4.1.3 Non-Degree Programmes............................................................................................................................................... 18 International Architecture Program (IAP) .......................................................................................................................... 18 International Business Linkage Program ............................................................................................................................ 18 Linkage Program 1: Modern Technology in the Pulp and Paper Industry ....................................................................... 18 European Mining Course ................................................................................................................................................... 18 European Mineral Engineering Course ............................................................................................................................. 19 4.2 Majors and Minors for the Academic Year 2008-2009......................................................................................................... 20 Faculty of Electronics, Communications and Automation ................................................................................................... 20 Faculty of Information and Natural Sciences......................................................................................................................... 22 Faculty of Engineering and Architecture ............................................................................................................................... 25 Faculty of Chemistry and Materials Sciences ........................................................................................................................ 27 4.3 COURSES LECTURED IN 2008-2009.............................................................................................................................. 29 4.3.1 Courses lectured in English ........................................................................................................................................... 29 FACULTY OF ELECTRONICS, COMMUNICATIONS AND AUTOMATION .................................................................. 39 Department of Automation and Systems Technology................................................................................................................ 39 Department of Electronics .......................................................................................................................................................... 47 Department of Micro and Nanosciences.................................................................................................................................... 50 Department of Radio Science and Engineering......................................................................................................................... 57 Department of Signal Processing and Acoustics......................................................................................................................... 61 Department of Electrical Engineering ....................................................................................................................................... 66 Department of Communications and Networking..................................................................................................................... 72 FACULTY OF INFORMATION AND NATURAL SCINCES .................................................................................................. 83 Department of Biomedical Engineering and Computational Science ..................................................................................... 83 Department of Mathematics and Systems Analysis .................................................................................................................... 87 Department of Media Technology.............................................................................................................................................. 93 Department of Engineering Physics ........................................................................................................................................... 98 Department of Information and Computer Science................................................................................................................ 105 Department of Computer Science and Engineering ............................................................................................................... 113 Department of Industrial Engineering and Management........................................................................................................ 134 Language Centre ....................................................................................................................................................................... 150 FACULTY OF ENGINEERING AND ARCHITECTURE...................................................................................................... 156 Department of Architecture ...................................................................................................................................................... 156 Department of Energy Technology .......................................................................................................................................... 163 Department of Engineering Design and Production ............................................................................................................... 170 Department of Surveying .......................................................................................................................................................... 184 Department of Structural Engineering and Building Technology.......................................................................................... 199 Department of Applied Mechanics........................................................................................................................................... 206 Department of Civil and Environmental Engineering ............................................................................................................ 215 FACULTY OF CHEMISTRY AND MATERIALS SCIENCES............................................................................................... 227 Department of Biotechnology and Chemical Technology...................................................................................................... 227 Department of Chemistry.......................................................................................................................................................... 233 Department of Materials Science and Engineering................................................................................................................. 236 Department of Forest Products Technology............................................................................................................................. 240 SEPARATE COURSES................................................................................................................................................................ 251 5 RESEARCH AT TKK ................................................................................................................................................................ 252 Otaniemi International Innovation Centre (OIIC).............................................................................................................. 252 5.1 Postgraduate Research Fields 2008-2009............................................................................................................................ 252 5.2 Graduate Schools................................................................................................................................................................. 257 5.3 Other units at TKK .............................................................................................................................................................. 259 Separate Units ........................................................................................................................................................................ 259 Joint units of TKK and other universities.............................................................................................................................. 259 Other units ............................................................................................................................................................................. 259 Other units of the faculties .................................................................................................................................................... 259
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TO THE READER In addition to general information about Helsinki University of Technology (TKK), the Study Programme ECTS Guide contains information on the degree programmes and the majors and minors. It also lists the courses for the academic year 2008-2009. The curricula of the degree programmes are presented in greater detail in the study guides of the various degree programmes, which are available in the faculty offices. For more information on the practical issues related to study and stay at TKK, please read the Guide for International Students or visit the websites of TKK at: http://www.tkk.fi/en/ Address Helsinki University of Technology TKK Otakaari 1 FIN-02150 ESPOO
Telephone and telefax numbers All telephone numbers are given as they are dialled from the Helsinki district. When calling from other parts of Finland, use the Helsinki dialling code 09. From outside Finland, the code for Helsinki is +358-9. The switchboard number of the university is 4511. It is open from 8 a.m. to 4.15 p.m. from Monday to Friday. Direct dialling numbers consist of 451 and the extension. These numbers can be dialled at any time. E-mail addresses The e-mail addresses of Helsinki University of Technology staff are usually formed in the following way:
[email protected] Therefore, if a person's name is Janet Brown, her e-mail address will be
[email protected].
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MAP OF OTANIEMI
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1. Main Building, Otakaari 1 1a. Architecture, Rakentajanaukio 1 2. Civil and Environmental Engineering, Rakentajanaukio 4 3. Engineering Physics and Mathematics, Rakentajanaukio 2 4. Electrical and Communications Engineering, Otakaari 5 5. Mechanical Engineering 4, Sähkömiehentie 4 6. Mechanical Engineering 3, Puumiehenkuja 5 7. Mechanical Engineering 2, Puumiehenkuja 3 8. Mechanical Engineering 1, Otakaari 4 9. Nano house, Puumiehenkuja 2 10. Facility Management and Security, Konemiehentie 4 11. Chemical Technology, Kemistintie 1 12. Materials Science and Engineering, Vuorimiehentie 2 13. Forest Products Technology 1, Vuorimiehentie 1 14. Forest Products Technology 2, Tekniikantie 3 15. Main Library, Otaniementie 9 16. Ship Laboratory, Tietotie 1 17. Maari house, Sähkömiehentie 3 18. The Water Tower, Tekniikantie 6 19. Lifelong Learning Institute Dipoli, Otakaari 24 20. Shopping Centre, Otakaari 11 21. Accounting, Otakaari 8
22. Life Science Center, Keilaranta 16 23. GTK - Geological Survey of Finland, Betonimiehenkuja 4 24. VTT The Technical Research Centre of Finland, Vuorimiehentie 5 (The Main Building) 25. KCL Finnish Pulp and Paper Research Institute, Tekniikantie 2 26. Technopolis Ventures, Tekniikantie 21 27. Architecture / Workshop, Metallimiehenkuja 4 28. Otahalli, Luolamiehentie 7 29. Electrical Engineering, Otakaari 7 30. Computer Science and Engineering, Konemiehentie 2 31. Innopoli, Tekniikantie 12 32. HTC - High Tech Centre 33. Innopoli 2, Tekniikantie 14 34. Water Laboratory, Tietotie 1 E 35. Tietoenator Oyj, Tietotie 6 36. Micronova, Tietotie 3 37. Industrial Engineering and Management, Automation and Systems Technology, Otaniementie 17 38. TKY - The Student Union, Otakaari 11 39. YTHS - Student Health Care, Otakaari 12 40. TF - The Student Union of Swedish Speaking Students, Otakaari 22
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1 FINLAND, ESPOO Finland is the seventh largest country in Europe with over 5.3 million inhabitants. Finland is the northernmost country in the world after Iceland. The neighbouring countries are Sweden, Norway, Estonia, and Russia. Finland is a member state of the European Union and traditionally co-operates closely with other Nordic countries. The majority of Finnish people speak Finnish as their mother tongue, but some six percent speak Swedish. To be precise, even a third language, Saame, spoken by a very small minority in northernmost Lapland has as an official status along with Finnish and Swedish. As a visitor you do not need to speak and understand Finnish nor Swedish, since most Finns, at least young people, speak English and often also many other foreign languages. Finland has a long coastline, and two-thirds of the country is covered by forest. Finland is a land of lakes, and there are almost 200,000 lakes in the country. Finland is also a land of four seasons, with temperate
weather and long days in the summer, cold weather and long nights in the winter. In the opinion of many Finns and especially of many foreigners, the best thing about Finland is the unspoiled natural countryside with its lakes and forests, still relatively untouched by serious pollution. The city of Espoo where Helsinki University of Technology (TKK) is located lies on the southern coast of Finland next to Helsinki, the capital of Finland. Together with Helsinki and Vantaa, Espoo forms the metropolitan area where nearly one fifth of Finland's whole population lives. There are excellent connections from Espoo to Helsinki: TKK can be reached by bus from the centre of Helsinki in 15 - 20 minutes. Espoo was built to blend in with nature which gives the town a very original look. Together with the largest concentration of technology in northern Europe, Espoo is an interesting combination of peaceful nature and modern creativity.
2 HELSINKI UNIVERSITY OF TECHNOLOGY 2.1 General Description Helsinki Technical School was founded in 1849 to offer secondary school education for young people who wished to enter industrial trades. The school developed into a Polytechnical Institute in 1879 and gained its university status in 1908. In 2008, TKK celebrates its 100 years as a university. At present, preparations are made to combine TKK, Helsinki School of Economics (HSE) and University of Art and Design Helsinki (TaiK) into a new university that will become operative by the year 2010. TKK is administered by its Council, Rector and Central Administration. The highest decision-making body at TKK is the Council, which consists of the Rector, the two Vice-Rectors, the Deans of the faculties, two members appointed by the TKK Advisory Board, as well as representatives of staff and students. Its task is the general administration of the university. The chairman of the Council is the Rector. The university is divided into four faculties, each directed by a Dean. The highest decision-making body in the faculty is the Faculty Council. The separate units that are not included in the faculties are administered by a Head or a Head and a Board. The Rector and the Vice Rectors are elected for a term of five years. The Rector is Professor Matti Pursula and the Vice Rectors are Professor Kalevi Ekman and Professor Outi Krause. The Rector is in charge of financial decisions and general matters concerning the university. The Vice
Rectors deal with issues related to studies, research and international matters. The Administration is responsible for drawing up and presenting matters that will be decided in the Council, as well as for executing the Council's decisions. The Administration is led by the Director of Administration, Mr Esa Luomala.
2.2 International Student Services The International Student Services is responsible for coordinating international student exchange and mobility, for providing international student services and for supporting faculties and the university in international academic affairs and cooperation The International Student Services is located on the second floor of the Main Building (rooms Y234, Y235, Y239, Y242 and Y249a-f). The fax number of the Services is +358 (0)9 451 5332. Head of International Student Services, Ms Mervi Rantanen, tel. 451 5473 Planning Officer, Ms Mari Dagnall, tel. 451 2064, e-mail
[email protected] (exchange programmes Erasmus, Russia, TIME, FIRST) Planning Officer, Ms Maire Koskinen, tel. 451 2045 (exchange programmes North and Latin America, Thailand, Singapore, India, ISEP, GE4) Planning Officer, Ms Pia Rydestedt, tel. 451 2048, room Y212 (Nordic affairs, Nordplus)
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Planning Officer, Ms Margita Slätis, tel. 451 5755, (exchange programmes incoming Erasmus, Japan, China, Hong Kong, Taiwan and Korea) Secretary, Ms Ulla Ahlgren, tel. 451 5757, e-mail
[email protected] (housing of exchange students) Administrative Assistant, Ms Sinikka Savolainen, tel. 451 2053 Department Secretary, Ms Katri Nokelainen, tel. 451 2110 (Info Market) Student Affairs Secretary, Ms Heidi Flinkman, tel. 451 5879, e-mail
[email protected] (enrolment of international students)
In the Student Recruitment and Admissions: Foreign Student Adviser, Ms Sinikka Tamminen, tel. 451 2104, e-mail
[email protected] (application process of international degree students)
2.3 Faculties Each faculty is administered by its Faculty Council and the Dean. The four faculties of TKK are: Faculty of Electronics, Communications and Automation Faculty of Information and Natural Sciences Faculty of Engineering and Architecture Faculty of Chemistry and Materials Sciences More information on the faculties and their teaching is given in the section 4.
3 STUDYING AT TKK 3.1. European Credit Transfer System ECTS at TKK ECTS - European Credit Transfer System is a systematic way of describing an educational programme by attaching credits to its components. ECTS is a studentcentred system based on the student workload required to achieve the objectives of a programme. The system was introduced in 1989, within the framework of Erasmus programme. ECTS is the only credit system which has been successfully tested and used across Europe. ECTS was set up initially for credit transfer. The system facilitated the recognition of periods of study abroad and thus enhanced the quality and volume of student mobility in Europe. Recently ECTS is developing into an accumulation system to be implemented at European level. This is one of the key objectives of the Bologna Declaration of June 1999. ECTS makes study programmes easy to read and compare for all students, local and foreign. ECTS facilitates mobility and academic recognition. It helps universities to organise and revise their study programmes. ECTS makes European higher education more attractive for students from other continents. ECTS is based on the principle that 60 credits measure the workload of a full-time student during one academic year. Student workload in ECTS consists of the time required to complete all planned learning activities such as attending lectures, seminars, independent and private study, preparation of projects, examinations, and so forth. More information of ECTS can be found in http://europa.eu/ At TKK the ECTS is used in the following way: - The credits (opintopiste, op) used at TKK are equivalent to ECTS credits. The old TKK credits (ocr) can be converted into ECTS by multiplying them by 1.5. For example, 2 TKK credits are converted as follows: 1.5 x 2 TKK old credits = 3 ECTS credits.
- The grading scale for the courses is: 5 = excellent, 4 = very good, 3 = good, 2 = very satisfactory, 1 = satisfactory, 0 = failed - The Study Programme ECTS Guide supplies information in English on TKK, its faculties and the instruction offered - The ECTS learning agreement is used at TKK when needed by the partner institutions or international students. In other cases the international applicants are advised to download the application form on the TKK web-sites. - TKK provides students with the transcripts of records which can be obtained in English at the faculty offices. The transcript of records lists the courses student has taken during the study period at TKK.
3.2 Degree Structure TKK has changed over to a new, two-cycle degree structure, together with other Finnish universities, on the 1st of August, 2005. Students who begin their studies after this date are to first complete a Bachelor of Science in Technology/Architecture degree, and only after that the Master of Science in Technology, Architecture or Landscape Architecture degree. A person with a Bachelor’s degree can be admitted to study only towards Master’s degree. The change in degree structure is connected to the "Bologna process", in which 40 European countries participate in order to create an internationally competitive European area of higher education by 2010. The aim is to increase student mobility and employment opportunities as well as to improve the transparency and comparability of degrees.
3.2.1 Regulations for the Transition Period Students who began their degree studies before the new regulations came into force may study under the old
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3.2.2 Degrees The Bachelor’s level, lower university degrees offered at TKK are: Tekniikan kandidaati Bachelor of Science (Technology) [B.Sc. (Tech.)] Bachelor of Science (Architecture) [B.Sc. (Archit.)] The Master's level, higher university degrees offered at TKK are: Diplomi-insinööri, arkkitehti, maisema-arkkitehti Master of Science (Technology) [M.Sc. (Tech.)] Master of Science (Architecture) [M.Sc. (Archit.)] Master of Science (Landscape Architecture) [M.Sc. (Landscape Archit.)] The postgraduate degrees offered at TKK are: Tekniikan lisensiaatti, tekniikan tohtori, filosofian tohtori Licentiate of Science (Technology) [Lic.Sc. (Tech.)] Licentiate of Science (Architecture) [Lic.Sc. (Archit.)] Doctor of Science (Technology) [D.Sc. (Tech.)] Doctor of Science (Architecture) [D.Sc. (Archit.)] Doctor of Philosophy (Ph.D.)
3.2.3 Structure of Bachelor's Degree Education shall be organised in such a way that a fulltime student can graduate in three academic years. The studies leading to the Bachelor’s degree shall consist of 1) the scientific, mathematical and other basic studies needed for the degree programme and if applicable, the necessary module of artistic studies (80 cr); 2) the general studies module for the Bachelor’s degree (20 cr); 3) three modules, at least one of which shall be an intermediate module (does not apply in the degree programmes of
Architecture/Landscape Architecture) in the student’s own degree programme (20 + 20 + 20 cr); 4) elective studies (at least 10 cr), and 5) the Bachelor’s seminar and thesis (total of 10 cr).
3.2.4 Structure of Master's Degree Education shall be organised in such a way that a fulltime student can graduate in two academic years The studies for the Master’s degree consist of 1) studies of scientific method (10 cr); 2) three modules, of which at least one shall be an advanced module in the student’s own degree programme major subject (20 + 20 + 20 cr); 3) elective studies (at least 20 cr), and 4) the Master’s thesis (30 cr). Subject and advanced studies are contained in modules.
MASTER OF SCIENCE IN TECHNOLOGY Elective studies W 20 cr
Advanced module
A3 20 cr
Methodological principles M 10 cr
degree regulations (1995) until the 31st July 2010. They may apply to transfer to study under the new regulations. Applications are handled by the relevant faculty, which also decides how the student’s previous studies are approved for the degree. The transfer to the new system of teaching will be implemented year by year so that by the academic year 2009-2010 all teaching for the lower and higher university degrees will be in the new form. The faculties may transfer to the new system of teaching more quickly than described above. As the transfer to the new system takes place, students studying under the 1995 regulations will do the discontinued courses by studying the nearest equivalent courses in the new system as decided by the faculty. If a student studying under the new regulations studies more quickly than the changeover to the new system allows for, the equivalence mentioned above between the old and new courses may be applied. In confirming the equivalence between old and new courses, the faculties shall take into account above all their scope and content. The Council may, during the changeover period, grant exceptions to these degree regulations as well as confirming other regulations for the changeover insofar as the differences between the regulations demand. More information about the transition period is available at http://www.tkk.fi/e/studies
Master´s thesis D 30 cr
Intermediate module
Special module
C 20 cr
B2 20 cr BACHELOR OF SCIENCE IN TECHNOLOGY Intermediate module
Basic module
Bachelor´s thesis and seminar K 10 cr
B1 20 cr
Elective studies V 10 cr
A2 20 cr
Basic module
General studies P 80 cr
A1 20 cr Programme studies
O 20 cr
3.2.5 Structure of Doctoral (Licentiate) Studies Postgraduate education is planned and organised as entities according to the area of research; the goal is scientific thinking and the development of new knowledge in a certain area of technical science. The Doctor’s (and Licentiate) degree is done in modules. The module Research field T covers 30-40 credits. The student may select this from thos designated for TKK doctoral studies.Studies in supplementary field S, worth 10-20 credits, supports the student’s thesis writing and research field. The degree also includes the module Scientific practices and principles Y (5-15-credits). The most important part of the doctoral degree is the research work. The licentiate degree requires a licentiate thesis; for the dorctoral degree the student is required to write
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and publish a doctoral dissertation and submit it for public examination. The TKK Guide for Doctoral Students can be found on the web page http://www.tkk.fi/en/studies/doctoral/guide/index.html
3.2.6 Degree Programmes The degree programmes which lead to Master's level degrees are as follows: Architecture Automation and Systems Technology Bioinformation Technology Chemical Technology Communications Engineering Computer Science and Engineering Electronics and Electrical Engineering: Engineering Physics and Mathematics Energy and HVAC Technology Forest Products Technology Geomatics Industrial Engineering and Management Information Networks Landscape Architecture Materials Science Mechanical Engineering Real Estate Economics Structural Engineering and Building Technology Transportation and Environmental Engineering
3.2.7 Degree Programmes, Majors and Minors The aims of the degree programmes are set down in the regulations and will be found on the internet. The complete curricula of the degree programmes are set down in the study guide of degree programme. The majors for the degree programmes are listed in this Study Programme. In addition, the study guides of the individual degree programmes contain details of the majors and minors.
3.2.8 Recommendation and Limitation of the Study Time The recommended study time is the time during which it is possible for the student to complete the degree as full time studies (University decree 556/2005). The recommended study time for the Bachelor’s degree is three years and for the Master’s degree two years. The student has the right to study for two years longer than the recommended study time. If the student fails to finish the degree within this time and wants to complete the degree, s/he must submit an application for prolongation of the study time at his/her faculty. The prolongation is allotted in terms. At the time it is possible to allot 1 -4 terms. The decision is done by the Dean of the faculty. More information is available at http://ww.tkk.fi/en/studies
3.3 General Information 3.3.1 Options for International Students A Master’s degree student is a student who has a Bachelor’s degree or equivalent in the same or closely related field as that in which he/she wishes to study when applying to TKK.. A Doctoral (postgraduate) student is a student doing research work for a Licentiate or Doctor’s degree and must have a Master's degree or equivalent when applying to TKK. Exchange students are students who arrive through a mobility programme (e.g. SOKRATES/Erasmus, NORDPLUS) or an official co-operation agreement. A non-degree student is a student or an employed person who wishes to extend her/his expertise in a certain area and wishes to take individual courses. TKK charges fees for most of these studies. For more information on the application and admission procedure, please visit the web-site of TKK or contact the Foreign Student Adviser, tel. 451 2104, e-mail
[email protected]. Exchange students who arrive through a mobility programme (e.g. SOKRATES/Erasmus, NORDPLUS) or an official co-operation agreement, should contact with an appropriate co-ordinator at their home university prior to applying.
3.3.2 Coming to Finland: Necessary Documents Before leaving your home country there are certain preparations you should undertake. All foreigners in Finland need a valid passport or an official identity card to prove their identity. Please check the requirements for the citizens of your home country beforehand. Students who arrive from certain countries need to obtain a visa to be able to enter Finland. In addition, the application for a residence permit must be submitted before departure for Finland at a Finnish Embassy or Consulate in the applicant's country of permanent residence. When applying for your student residence permit you must have a sufficient health insurance that covers the whole duration of your stay in Finland. Others than EEA nationals also need a residence permit for employed person if they are planning to work or do practical training in Finland. Please remember that it is your responsibility to acquire all the necessary documents. You are advised to begin the application process well in advance since it may take several months to obtain the permits.
3.3.3 Arriving in Otaniemi It is easy to reach TKK by using public transportation. If you arrive by plane, first take a bus from the airport to the centre of Helsinki. From there, the bus routes 102 and 103 (also 194 and 195) come from the Helsinki Bus Station (in Kamppi) to Otaniemi, where TKK is located. If you arrive by train or by boat, you just have to find the Kamppi bus station: both the railway station and the
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harbours are located in the centre of Helsinki. It takes about 15 - 20 minutes by bus to get from the centre of Helsinki to Otaniemi.
3.3.4 Fees The possible tuition fees vary according to the programme the student is attending. TKK does not charge degree student tuition fees, also SOKRATES/Erasmus, NORDPLUS and other exchange students study free of charge at TKK. However, the international non-degree programmes which are conducted entirely in English and other non-graduate studies have a separate policy regarding tuition fees. More details about these fees can be obtained from the brochures and on the websites of each programme.
3.3.5 Financing Your Studies TKK does not have any funds for financial aid for international students. If you come to Finland solely for the purpose of attending a university, is not possible to get Finnish student financial aid. However, non-citizens of Finland can get financial aid for studies in Finland if they live in Finland on a permanent basis for a purpose other than studying. This requires that they are registered as a permanent resident in the Finnish population register system. For more information please see http://www.kela.fi. The Finnish Ministry of Education and/or CIMO offers a limited number of scholarships to international postgraduate students and specialists for study and research purposes. For more information contact CIMO (http://finland.cimo.fi/).
3.3.6 Living Costs It can be estimated that the monthly living costs amount to 900 Euro per month when studying in Finland. This includes accommodation in a student dormitory (300 Euro), meals (300 Euro), miscellaneous, e.g. study material, transport, postal and telephone services and winter clothing (300 Euro). Additionally, the student union fee is 91 Euros per year for all Master’s degree and guest students. There may also be other considerable costs in the beginning of the studies, such as room deposit fee, reservation fee and a fee for the residence permit. These fees can add up to 450 Euros.
3.4 Academic Issues 3.4.1 Academic Year at TKK The academic year at TKK begins on 1st August and ends on 31st July. Autumn Term 2008 1. Examination Period 28 August – 6 September 2008 I Teaching Period 8 September – 24 October 2008 2. Examination Period 25 October – 31 October 2008 II Teaching Period 3 November – 12 December 2008 3. Examination Period 13 December – 22 December 2008 Spring Term 2009
4. Examination Period 7 January – 17 January 2009 III Teaching Period 19 January – 6 March 2009 5. Examination Period 7 March – 14 March 2009 IV Teaching Period 16 March – 5 May 2009 6. Examination Period 6 May – 16 May 2008 The Easter holiday is 9 -15 April 2009. There are also other additional examination dates. For further information on these dates, contact the faculty concerned.
3.4.2 Registration Students must register at TKK for every academic year. Only students who register their presence have a right to study. New international students may enrol upon their arrival. All new students must enrol in person at the International Student Services (Main Building, 2nd floor, room Y235) and have the acceptance letter and an official ID with them. Always, if students wish to attend lectures or examinations, they must register as present. In order to enrol as present all Bachelor’s and Master’s level students have to pay the Student Union (TKY) membership fee (91Euro/academic year or 46 Euro/term) prior to enrolment. Possible tuition fee of 420,47 Euro/term must also be paid prior to enrolment. Students, who are not first year students, must register their presence or absence during the enrolment period 13th May – 11th September 2008. Instructions can be found fromhttp://www.tkk.fi/en/studies/academic_year_and_enr olment/enrolment_for_the_academic_year_20082009/index.html. New international students will get their student cards after fee weeks of enrolment. For others, new valid student card stickers for 2008-2009 are available at the Student Union office from August onwards. Doctoral students do not get a student card but they may become members of the Student Union, if they wish to, by paying the membership fee (60Euro/academic year or 31,50 Euro/term). For more details please check the web-pages and contact
[email protected]. from August onwards from the International Student Services or from the Student Union Office. Doctoral students do not get a student card but they may become members of the Student Union, if they wish to, by paying the union fee (56 Euro/academic year or 28 Euro/term). Possible tuition fees must be paid prior to enrolment.
3.4.3 Orientation Days for New International Students TKK arranges Orientation Days for New International Students on 2 - 3 September 2008. All new international students are expected to participate in the orientation days since the programme includes useful information concerning studies at TKK and living in Finland. The spring term orientation is arranged around middle of January.
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3.4.4 Study Counselling The aim of study counselling is to help students with the practical aspects of studying as well as to improve their ability to plan and carry out their programme of study. Throughout their years of study at TKK, students can receive advice on studying from the teachers, student counsellors, planning officers and international study advisers during their office hours. Student counsellors and international study advisers are usually senior students. The student counsellors', international study advisers' and planning officers' office hours appear on the faculty of department notice boards during the autumn term. Each degree student (Bachelor’s or Master’s) shall have a tutor to guide his or her studies. This tutor will be appointed by the faculty in charge of the administration of the degree programme.
3.4.5 Study Plans Planning one’s studies is an important part of studying. Each student takes their personal road through their studies with choices from the very beginning of the studies to graduation. This road through the studies should be as sensible and systematic as possible. As a tool for planning the studies, TKK uses two types of study plans. Each Bachelor’s and Master’s degree student shall have an official personal study plan (HOPS) confirmed by the University including the content of the studies and the schedule for achieving them, and according to which the student has the right to carry out his/her studies. The official personal study plan should make clear the modules constituting the student’s studies. The study plan is completed once during the Bachelor-level and once during the Master- level. The study plan is a binding agreement on both parties: the student and TKK. It grants a student with a right to study according to the approved study plan but at the same time, the student is obliged to abide by the valid study plan. During the first autumn, the student completes his/her personal study plan. The purpose of the first personal study plan is to familiarize the student with the degree structure. Working through a personal study plan is compulsory for all students.
3.4.6 Language of Instruction The main language of instruction is Finnish but some basic courses can be taken in Swedish as well. TKK also offers a great number of courses in English. More detailed information about the instruction offered can be found in Chapters 4 of this book. Please notice that the language of instruction is mentioned in the course descriptions. All international students who wish to start their studies for a degree at TKK are required to have a certain level in English language. The students are required to show either an offical language test report (TOEFL or IELTS) or in the case of doctoral students an official statement of language skills signed by the professor at TKK of the student's field of study. More information of the
requirements can be obtained from the Foreign Student Adviser (
[email protected]).
3.4.7 Registration for a Course; Course Materials A student has to register for each course when it begins if s/he wishes to attend it. Course registration is organised through the internet. You can register for courses in WebOodi (https://oodi.tkk.fi/en/). For that, you need a student number that you get when you enrol at TKK upon your arrival. Some courses might be crowded and therefore it is not enough just to register like this. It is important that you personally attend the first lecture. Further information can be found in the guides of the various degree programmes. In WebOodi (https://oodi.tkk.fi/en/) you may also browse the study programme. In most cases, the courses also have a homepage which are located in the new study portal Noppa (https://noppa.tkk.fi). Course material is used in most of the courses. This is important to the student because the examination may be based partly on this material. The course material may also be used during the lectures. In most cases, the course material will be published at the course’s homepage in the Noppa portal (https://noppa.tkk.fi). During the lectures and/or at the course’s homepage you will find information on if there is also a printed material package available.
3.4.8 Examinations: Registration and Grading According to § 58 of the degree regulations, examinations for courses are organised according to the degree requirements in force. Examinations for courses removed from the curriculum shall be held at least during the academic year following the removal of the course. The student shall register for an examination one week beforehand, unless the teacher in charge accepts later registration. Registration is done in WebOodi (https://oodi.tkk.fi/en/). The teacher is obliged to publish the list of passes, and if possible the main criteria of assessment, at the course’s homepage in the Noppa portal (https://noppa.tkk.fi) within one month of the date of the examination. In addition, the results may also be published on the notice board. The faculties/departments shall ensure that the results and grading of examinations are entered in the students’ register promptly. Transcripts of records can be obtained from the department offices or International Student Services during the visiting hours. An unofficial transcript of records can also be ordered from WebOodi (https://oodi.tkk.fi/en/). This requires that the student has enrolled and given his e-mail address to the student register. You can change your email address yourself to the student register through WebOodi. In the lower and higher university degrees, the grades used are Excellent (5) Very good (4) Good (3)
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Very satisfactory (2) Satisfactory (1) If you receive the grade 0, you have not passed the examination. Courses that are so designated in the curriculum can also be assessed pass/fail.
3.4.9 Credit System Studies are allotted credits according to the amount of work required; the average number of hours demanded by one academic year of studies, 1600 hours, is equivalent to 60 credits. The Bachelor’s degree consists of 180 credits (ECTS) and the the Master’s degree is 120 credits (ECTS). The extent of the courses and degree programmes are given in credits equivalent to 1 ECTS credit, literal translation opintopiste if it is a course according to the new degree regulations and in credits marked as old credit (ocr) equivalent to 1.5 ECTS credit, literal translation opintoviikko if it is according to the old degree regulations.
3.4.10 Approval of Studies Individual courses as well as wider entities passed at other universities in Finland or abroad may be included in a TKK degree. However, this matter should be discussed beforehand in the faculty
3.4.11 Continuing Education The education offered by the Lifelong Learning Institute Dipoli and the Centre for Urban and Regional Planning is primarily remunerated service focusing on advanced and supplementary areas of study at TKK. The main aim of these units is to improve the professional skills of those working in technology and related fields: graduate engineers, architects and other professionals. The training programmes are usually long-term entities for learning new technology and professional expertise. They are organised using a wide variety of learning methods, such as modern e-learning environments, internet and videoconferencing. International cooperation is a vital part of the education at TKK Dipoli.
3.5 Additional Services 3.5.1 Housing The housing should be arranged before the student arrives in Finland. If you are an official exchange student, TKK will assist in finding accommodation for you. If you are participating in one of the international programmes of TKK, please contact the co-ordinator of the programme. All other students must arrange their housing themselves. HOAS (http://www.hoas.fi) and the Student Union of TKK (http://www.tky.fi) provide housing for students.
3.5.2 Health Care The basic health services for university students in Finland are provided by the Finnish Student Health Service FSHS (Ylioppilaiden Terveydenhoitosäätiö,
YTHS). All university students who are members of the Student Union can use the services of YTHS. It provides students with preventive health care, medical care, mental health care, and dental health care. Please note that the Student Health Care centres are open only on weekdays during office hours. Since YTHS does not offer any emergency or hospital services kindly make sure that you have a valid health insurance. TKK has no insurance for its students. Otaniemi YTHS service point: Otakaari 12, 02150 Espoo, tel. 4682 899. Starting 1.9.2007, the studenst who come outside the EU/EEA are are required to obtain a private health insurance. It is compulsory for the residence permit. More information is available at the Finnish Embassies or http://www.tkk.fi/en/studies/practical_information/health _care.html#health_insurance
3.5.3 Computer Facilities http://www.tkk.fi/cc/ IT Services provides: - network infrastructure administration and development - maintaining computer classrooms - user account administration and user support - IT services for the University administration and management - expert services. IT Services runs nearly five hundred workstations in the Main Building and the Maarintalo Learning Centre (open 24 h). Students may use services for studying, research and measures supporting these. Basic services are free. Other use must be separately agreed on. Using the services requires an account. Degree students receive an account and an email address in the beginning of their first academic year. Other students need a supervisor for their account - application forms are available in the support office. Anyone about to receive an account is required to verify acceptance of all current policies and instructions with the signature. User accounts and passwords are personal; they may not, under any circumstances, be handed over to anyone else. The user gets also an email address of the form
[email protected]. Additionally, a
[email protected] alias may be requested from the address
[email protected].
3.5.4 Library Services http://lib.tkk.fi/ The Library of Helsinki University of Technology TKK is the National Resource Library for Technology. Its task is to collect and make available literature and other information sources in technology and allied sciences. It offers information services to anyone in need of scientific and technological information. Its services include circulation, interlibrary lending, routing of periodicals, copying service, information retrieval and user training. The library information systems TEEMU and TENTTU are available for independent use. NELLI portal provides access to a large number of resources such as full text
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journals, reference databases, electronic books and electronic dictionaries. In the main library there are also workstations and e-mail terminals reserved for users. Library guides in English as well as other additional information can be found through library’s homepage. The department libraries and a score of smaller satellite libraries also belong to the library system.
3.5.5 Sports Facilities Physical education is an intrinsic part of TKK. Its aim is to make sure that students of engineering remain fit and improve their physical condition in addition to forming healthy attitudes to and habits of physical exercise. It is administered by a sports officer in the Office for Academic Affairs. The sports officer also plans the sports activities offered to the personnel of TKK. There is also an advisory body representing TKK, the Student Union and the student sports clubs. The students' sports activities are mostly run by different associations or clubs of the student union. There is a wide variety of different sports represented. A guide presenting the sports activities and clubs is published yearly both as a paper version and in the internet.
3.5.6 Career Services www.uraverkko.tkk.fi
[email protected] Career Services acts as a link between the university, working life and graduating students of TKK. Our costfree services are available for students and graduates of TKK. Our aim is to provide you with information on employers, job opportunities and on the job hunting process. We arrange various recruitment events throughout the year to bring together students and recruiters. Open job opportunities are posted on our website. We also offer training sessions, for instance, on how to look for a job in Finland and how to write a CV. Degree students are welcome to make a personal appointment with us to have their CV and cover letter checked. Moreover, our career planning psychologist provides individual help with career planning. Please note that these services are available for degree students only. Looking forward to see you at Innopoli 2 Building (3rd floor)! For detailed information on visiting hours, please check our website.
3.5.7 Practical Training www.uraverkko.tkk.fi
[email protected] Practical training is an integral part of studies. Completing a traineeship in Finland offers you a chance to learn about Finnish working life and gain valuable work experience. You can also complete a traineeship abroad. The study guide of your degree programme contains more detailed information on practical training included in your degree. Students are responsible for finding a training placement for themselves. However, assistance is
given by Career Services’ training coordinators as well as by your own department’s training adviser. The most extensive and updated information on available traineeship offers, traineeship programmes and scholarships is available on Career Services website.
3.5.8 PoliAlumni - the Alumni Society at TKK Keep in contact with your fellow students and TKK! PoliAlumni is an extensive friendship and professional network, where all former students and employees of TKK can join in. PoliAlumni gathers together people from TKK and aims to maintain and promote the relationship and cooperation between TKK and its alumni. PoliAlumni seeks to strengthen the image and reputation of TKK, develop the university's links with companies and decision makers, advance student recruitment and support life-long learning of graduate engineers and architects. For international students PoliAlumni provides opportunities to get to know Finnish friend-families amongst TKK alumni and possibilities to be invited by former students to visit Finnish companies. International students can also take part in the Alumni events. On leaving TKK, as a member of PoliAlumni, one will receive current information about the University and about campus life either by e-mail or post. We welcome all foreign students to become members of our alumni society. PoliAlumni has already 11 000 members. Join PoliAlumni at https://polialumni.tkk.fi. Additional information at http://alumni.tkk.fi/en/
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4 TEACHING AT TKK 4.1 Programmes in English 4.1.1 Master’s Degree Programmes Master’s Programme in Communications Engineering http://sahko.tkk.fi/en/studies/international_programmes/ In this programme the students can specialise in Radio Communications, Digital Signal Processing for Communications or Networking Technology. The first term consists of joint basic studies which are common to all tracks. Starting from the second term, the students specialise in one of the four areas. The common package gives you an understanding of communications theory, the key software technologies for telecommunications and the telecommunications architectures. In Radio Communications the focus is on radio systems for cellular networks including GSM and Wide Band Code Division Multiple Access Systems for third generation networks. Digital Signal Processing for communications provides basics of the communications channel modelling (to understand the environment), estimation theory (to understand the limits of the methodology), and transmitter-receiver algorithms and architectures (how to get the best performance with limited resources). Networking Technology major is focused on networks, transmission techniques and quality of service. The programme is targeted for students with a BSc in information technology, telecommunications or electrical engineering and who wish to pursue a Master's degree at TKK. Master’s Programme in Electrical Engineering http://sahko.tkk.fi/en/studies/international_programmes/ Helsinki University of Technology (TKK) offers a possibility for persons with a BSc in electrical engineering to join the Master’s Programme in Electrical Engineering to pursue the degree of Master of Science in Technology at TKK. The Programme offers a possibility to specialize in electric machines, drives and power electronics, or in power systems, high voltage technology and illumination engineering. The language of instruction is English. The courses start at the beginning of the academic year 2006-2007 in September 2006. The scope of the programme is 120 credits. At the end the participants write a MSc thesis counted as 30 credits. The Programme has been planned so that normally the courses can be completed in 2 years. The Programme is organised by the Electrical Engineering Group (SELA) in the Department of Electrical and Communications Engineering at TKK. The organization of the Programme has good ties to Finnish Industry. The students usually have trainee jobs in the industry during the summer after the first year. MSc theses are normally written on the job.
Master’s Programme in Micro- and Nanotechnology http://sahko.tkk.fi/en/studies/international_programmes/ Master's programme in micro- and nanotechnology gives excellent abilities for engineers to work in the rapidly developing fields of semiconductor and microsystems engineering. The programme studies include courses focusing both on fabrication methods and on materials physics as well as on the reliability of microsystems. The graduates will have capabilities to participate in demanding research and development projects at international electronics industry. The programme also gives excellent basis for students to carry out doctoral studies. The programme does not require students to have background in electronics, but good knowledge of basic university physics is a must. The programme is interdisciplinary because the advanced micro- and nanosystems are often used to monitor biological or biochemical phenomena. Applications: Yearly by the end of January. SpaceMaster - Erasmus Mundus Master’s Degree Programme in Space Science and Technology http://www.spacemaster.eu The objective of the Joint European Master in Space Science and Technology is to combine the expertise of six European universities within the field of space technology and related applications. The universities are: Luleå University of Technology (LTU) in Sweden, Cranfield University (CU) in UK, Czech Univesity of Technology (CTU), Julius-Maximilians-Universität Würzburg (JMUW) in Germany, Université Paul Sabatier Toulouse III (UPS) in France and TKK. SpaceMaster is a two-year program of full-time studies. During the two years students obtain cross-disciplinary experience from laboratory exercises, and from carrying out computer simulations such as balloons, rockets, satellite and radar controls, tele-robotics, sensor data fusion, automatic controls and multi-body dynamics. The first year of studies is same for all students, starting at JMUW, Germany and proceeding for the second semester in Sweden at LTU Kiruna campus, the centre of international space and environment science. The second year of SpaceMaster is devided into five engineering and three scientific tracks following the competence of the partner universities in six different European countries. The programme leads to two officially recognised M.Sc. degrees issued by the home and one partner university. SpaceMaster is Erasmus Mundus Programme selected by the European Commission. At TKK, the programme is offered by the Department of Automation and Systems Technology in the Faculty of Electronics, Communications and Automation.
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Master’s Programme in Bioinformatics http://www.cs.helsinki.fi/bioinformatiikka/mbi/ This programme educates high-level professionals in methodological bioinformatics. Contemporary bioinformatics relies on tools from computer science, data analysis, machine learning, and statistics. The programme has been designed to give an understanding of the underlying principles, through both theoretical and practical courses, so that the studies are useful both in applied work and in developing the methods. The graduated students will work in the field of bio- and life sciences in research and development, and they will have a good basis for post-graduate studies in methodological bioinformatics. The programme is offered jointly by the Faculty of Information and Natural Sciences at Helsinki University of Technology and several faculties from University of Helsinki. Master's Programme in Foundations of Advanced Computing http://www.tcs.tkk.fi/FAdCo/ The global computing infrastructure of the future will be founded on a complex and extensively distributed network of heterogeneous subsystems of varying degrees of autonomy. The emergence of this structure will lead to fundamentally new practices in how computing systems and services are designed, developed, implemented, and applied. Students in the master's programme will receive a solid and versatile education giving an excellent basis for doctoral studies and preparing them for a career in exploiting and advancing these exciting new computing technologies. The programme provides the students with fundamental conceptual tools for the modelling, design, and analysis of advanced computing systems, with further specialisation in one of its four focus areas: computational logic, computational complexity, cryptology, and verification. The programme is offered by the Department of Information and Computer Science. Further information
[email protected] Master’s Programme in Machine Learning and Data Mining http://www.cis.hut.fi/macadamia/ The programme gives a strong basic understanding of modern computational data analysis and modelling methodologies. It builds on the strong research of two centres of excellence in machine learning and data mining. These methods are applicable and needed in a wide variety of fields ranging from process industry to mobile communications. Recent spearhead application areas include bioinformatics, computational linguistics and natural language processing, and multimodal interfaces. The programme provides an excellent basis for doctoral studies as well as industrial research and development work. The programme is offered by the Department of Information and Computer Science. Further information
[email protected]
Master’s Programme in Mobile Computing - Services and Security http://mobilecomputing.tkk.fi/index.html The Finnish Information and Communications Technologies industry and TKK are global leaders in research and education in mobile computing technologies. This two year full-time master's programme extends the students computer science skills towards the mobile computing area. The courses in the programme address the modern data communications architecture evolution from several aspects. The students will gain practical knowledge and theoretical insights in the fields of network applications, services, information security and mobile networking. After completion of this programme the graduates have a broad knowledge basis of mobile computing and they are ready to design and develop own solutions for the mobile Internet, having both the practical skills and the capability to follow the scientific research. The Internet technologies build the technical framework of the Mobile Computing programme. Key subject areas for both the Internet and mobile networks are applications and services, including service management issues like mobility, quality of service, charging and security. The students are required to both study and create practical implementations based on the current technologies and to learn the emerging state of the art in the research community. Special attention is paid on information security, which is a critical issue when developing and deploying services on the public networks. The Mobile Computing programme's graduates are prepared to be employed internationally by both industry and academia, having acquired the necessary skills for various work opportunities including experts role, R&D, research and management positions. This programme gives a solid basis to continue academic career towards the doctoral level. The graduates have been very well and broadly employed in the job markets both in Finland and internationally. Master’s Programme in Service Design and Engineering The growing importance of services in the economy has been widely recognized. Software intensive services are seen as a tool for increasing productivity and innovation. The applications range from adding service elements to industrial products to creating new service concepts that are based on today’s interconnected and globally networked environment. The program aims at providing the students a solid basis on the key issues of Service Design and Engineering from a technical viewpoint, and also giving an understanding of relevant business, behavioural, legal and societal aspects. The programme promotes openness (e.g. open source model), open standards and service oriented computing both via lectures, design and implementation activities. The students can specialize either on technical or management oriented aspects of service design and engineering. The programme is offered by the
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Department of Computer Science and Engineering and it starts in 2009. Further information
[email protected] Master’s Programme in Service Management and Engineering In modern economies services become increasingly important. Service elements are added and service–based business models are used by manufactures, and new innovative service concepts and systems emerge and evolve rapidly. The program aims at providing the students a solid basis on the key issues of Service Management and Engineering. Focus is on how services are designed and produced involving customers and productive assets with the aid of information and communication technologies. A systemic and interactive view of services is promoted both via lectures, design and implementation activities. The programme includes the following topics: Service Operations Management, Service Business Economics, Human Resource Management and Service Innovations. The programme is offered by the Department of Industrial Engineering and Management and it starts in 2009. The main admission criterion to the programme is a high quality Bachelor’s degree encompassing a minimum of 180 ECTS, mainly from the field of technology, or equivalent, i.e., a degree of at least three years of full-time studies. Successful applicants have solid knowledge of some technical discipline and basic knowledge of management. Therefore, the preferred B.Sc. degrees are from engineering, natural sciences, mathematics or computer science. The desired amount of management studies is 20 ECTS, covering at least the basic concepts of marketing, operations management, organizational behaviour and management accounting. We especially emphasize the content, grades, language skills and the reputation of the applicant’s former university when estimating each applicant’s potential. Enrolment is limited and the application process is highly competitive. NordSecMob-Master’s Programme in Security and Mobile Computing http://nordsecmob.tkk.fi/index.html The Nordic countries are very innovative in mobile communications and an industrial and scientific cluster has formed to serve this area. The NordSecMob-Master's Programme in Security and Mobile Computing is based on the research cooperation between the participating universities and it offers in-depth knowledge in the field of data communications, mobile computing and information security. This master's programme extends the students computer science skills towards the mobile computing area. The courses in the programme address the modern data communications architecture evolution from several aspects. The students will gain practical knowledge and theoretical insights in the fields of network applications, services, information security and mobile networking. After completion of this programme the graduates have a broad knowledge basis of mobile computing and they are ready to design and develop own solutions for the mobile
Internet, having both the practical skills and the capability to follow the scientific research. The Internet technologies build the technical framework of the NordSecMob programme. Key subject areas for both the Internet and mobile networks are applications and services, including service management issues like mobility, quality of service, charging and security. The students are required to both study and create practical implementations based on the current technologies and to learn the emerging state of the art in the research community. Special attention is paid on information security, which is a critical issue when developing and deploying services on the public networks. The NordSecMob is a full-time Master of Science degree Programme with a duration of 2 years. The programme is co-ordinated by Helsinki University of Technology (TKK), Department of Computer Science and Engineering and other four Nordic partner universities are Technical University of Denmark (DTU), The Royal Institute of Technololgy (KTH) in Sweden, The Norwegian University of Science and Technology (NTNU) and the University of Tartu in Estonia. Erasmus Mundus programmes offer culturally enriching higher education opportunities for both European and Non-European students. Students from any country can apply to the NordSecMob - Master's Programme in Security and Mobile Computing. Non-European students have the opportunity to apply for the Erasmus Mundus Scholarship (42 000 Euro for a two year programme). European students selected to the NordSecMob-programme can apply for the Erasmus or Nordplus-scholarships for the duration of their studies at the host university. The NordSecMob-programme gives the students a chance to experience the cultures of two northern European countries. After completing the twoyear programme, successful students will be awarded two officially recognized M.Sc. degrees: one from each university where they studied. The NordSecMob programme's graduates are prepared to be employed internationally by both industry and academia, having acquired the necessary skills for various work opportunities including experts role, R&D, research and management positions. This programme gives a solid basis to continue academic career towards the doctoral level; it also provides experience of international R&D environments, and enables access to major international networks. Master’s Programme in Geoinformatics http://gip.tkk.fi/en/studies/mastersprogramme/ Master's Programme in Geoinformatics is a two-year programme organized by Helsinki University of Technology. The courses are offered by the Laboratory of Geoinformation and Positioning Technology (GiPLab). The Master's Programme in Geoinformatics is focused on geovisualisation, spatial data analysis, spatial data structures and algorithms and spatial programming, as well as GIS software engineering and application development.
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GIS courses have been offered at TKK since the early 80´s and GiPLab is well known for education and research both in Finland and abroad. More information about Master’s Programme in Geoinformatics from the web pages: http://gip.tkk.fi/en/studies/mastersprogramme/ or contact professor Kirsi Virrantaus, e-mail kirsi.virrantaus(at)tkk.fi or lecturer Paula Ahonen-Rainio, e-mail paula.ahonen(at)tkk.fi Master’s Programme in Real Estate Investment and Finance http://www.tkk.fi/Yksikot/Kiinteisto/opinnot/reif.htm Real Estate Investment and Finance is a two-year (120 ECTS) Master’s Degree programme organized by Helsinki University of Technology (TKK) and the Swedisch School of Economics and Business Administration (Hanken). The programme strives to provide a master’s degree of international standards and quality that give the students the required knowledge to work both in the property market field and in the field of financial intermediation. Teachers of the programme are leading international professors in real estate investments and finance. At the Helsinki University of Technology (TKK) studies are offered by Department of Surveying. Requirements for the Master’s Degree Programme in Real Estate Investment and Finance include a 3-years Bachelor’s degree of international standards, sufficient preliminary knowledge in specified subject areas, and for international applicants with English as a foreign language, a language test. More information about Master’s Degree Programme in Real Estate Investment and Finance from web pages http://www.tkk.fi/Yksikot/Kiinteisto/opinnot/reif.htm or contact professor Kauko Viitanen, e-mail kauko.viitanen(at)tkk.fi or teaching research scientist Ari Hiltunen, e-mail ari.hiltunen(at)tkk.fi Master’s Programme in Forest Products Technology http://puu.tkk.fi/en/studies/imp/ e-mail:
[email protected] The M.Sc. Programme offered by the Department of Forest Products Technology at TKK is unique because it covers almost every aspect of converting wood as a raw material to a product. With us you can get acquainted with different areas of using wood and wood technology from sawn wood and plywood to manufacturing of furniture. In the chemical forest products field, our activities cover the products and processes of both forest products chemistry and pulping and papermaking technology, and also printing technology. The Master’s Programme in Forest Products Technology includes the following majors: Wood Product Technology, Chemical Pulping Technology, and Paper and Printing Technology. The students can specialize in Wood Product Technology, Forest Products Chemistry, and Environmental Technology within Forest Industry, Chemical Pulping Technology, Paper Manufacturing Technology, Paper Converting Technology or Printing Technology.
The M.Sc. (Tech.) degree consists of 2 years of studies: courses 90 ECTS credits and the Master's Thesis 30 ECTS credits. The applicants are required to have a B.Sc. degree of a relevant subject area and adequate command of English language. Master’s Programme in Process Systems Engineering http://kepo.hut.fi/pse/ Process Systems Engineering in the Department of Chemical Technology at TKK offers a unique opportunity for students interested in an international career in leading international companies in the process industries or related areas in Finland and abroad. The program offers a high standard of teaching led by academic staff with extensive experience in the field. The M.Sc. program is directed towards the fundamental and application-specific aspects of process and systems engineering. It emphasizes the multidisciplinary character of the field, paying attention to applications in chemical product, production and plant design. The structure of the M.Sc. degree in PSE follows the new degree structure. The ECTS credits are used. The credit required for Master of Science in Technology is 120, which normally takes two years of full-time study to complete. The degree consists of studies in the major subject, the minor subject and the Master’s Thesis. The program can be studied in five major lines: 1) Chemical Engineering, 2) Plant design, 3) Process Automation, 4) Industrial Chemistry, and 5) Polymer Technology. Erasmus Mundus Minerals and Environmental Programme http://www.emmep.org/ EMMEP (Erasmus Mundus Minerals and Environmental Programme) is a 2 year M.Sc. program for students in Mining / Geotechnical Engineering, Mineral Processing, Recycling and related academic studies. There are three different specialisations; accommodating groups with 15 to 20 students each. Joining the EMMEP program is an excellent opportunity to study abroad with a group of international students.
4.1.2 Doctorate Degree Programmes Doctoral Programme in Electrical Engineering http://sahko.tkk.fi/en/studies/international_programmes/ The programme comprises courses in Power system ICT applications, Power Quality, Distribution automation, Power system diagnostics and condition monitoring etc. In addition a Doctor´s thesis is required, which usually is made in close connection to the larger research projects. Typical duration of studies for doctor degree is three years. Possible subjects of Doctor´s thesis are in the fields of: • Power system fault analysis and fault location • Transmission system security and adequacy • Power component diagnostics and condition monitoring • Power Quality, voltage sags, harmonics, outage costs • High voltage measurement technology • Wireless sensors in power systems • ICT-applications in power systems
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• Agent based control architectures in power systems The applicant should have the Master´s degree with good grades in one of the following fields: Power systems, High voltage engineering, Illumination Engineering, Electrical Building Services, Electromechanics or Industrial Electronics and Electric Drives. TKK provides state-of-art research environment with all the needed software tools, test equipment and laboratory facilities. Doctoral students are members of our international research teams and English is the daily working language. Doctoral thesis comprises the main and central part of the degree. It is a documentation of a research project performed independently, under the supervision of the tutoring professor. In the programme, the subjects of doctoral thesis are selected such that they have a strong link to the industry, thus ensuring quality of the research work. The thesis should produce new scientific data. The courses in the modules support preparing the thesis.
4.1.3 Non-Degree Programmes International Architecture Program (IAP) http://arkkitehtuuri.tkk.fi/engl/index.htm The International Architecture Program has two one-year architectural programmes, the Wood Program and the General Studies Program. The programmes consist of English taught Master level studies. They give a certificate and are worth 60 ECTS. The Wood Program (WP) is an intensive one-year education course that studies the architectural, ecological, aesthetic and technical aspects of wood in contemporary architecture. The General Studies Program (GSP) is a one-year freeform programme that provides a broad selection of English-taught courses from the standard degree curriculum of the Department of Architecture. The tuition fee for the Wood Program or the General Studies Program is EUR 2600 / term, EUR 5200 / year. The prerequisite for the programmes is a BArch, or at least 3 years of architectural studies. The application deadline is 31st March. The required documents are: - the department application forms - portfolio - transcript of academic records - motivation letter. For more information, visit the website at: http://arkkitehtuuri.tkk.fi/engl/iap.htm Further queries, please contact the International Architecture Program Coordinator Auli Puhakka-Autio, tel. 451 4460, e-mail
[email protected] International Business Linkage Program http://www.businesslinkage.net The International Business Linkage program celebrates its 16th anniversary of uniting talented students of business, engineering, and industrial engineering from all around the globe. IBLP is a one-year intensive nondegree study program open to outstanding students holding a Bachelor degree preferably in business & management, engineering, or industrial engineering and
management. Each year 10-20 international and 5 Finnish students are selected to the program. The goal of the IBLP is to develop global leaders for the changing business environment. The program is hosted by the Institute of Strategy and International Business at the Helsinki University of Technology, Finland's top technical university. Teaching is done by highly qualified professors and researchers in collaboration with industry experts. The focus of the teaching is on strategic and international management. The core course of the IBLP, "Developing Global Leadership Talent", forms the core learning and networking platform of the International Business Linkage program. The aim of this course is to enhance the students' personal, international and leadership skills to successfully work in an increasingly complex, global and multicultural business environment. It consists of lectures on negotiations, creativity, networking, presentation skills, team working and leadership. In addition, during the course, domestic and international excursions, and monthly Nationality Nights will be organized. In essence, the course aims to provide the formal forum for networking between the IBLP students, ensuring that students learn together and from one another. The annual application deadline is May 15th. Linkage Program 1: Modern Technology in the Pulp and Paper Industry http://pulpandpaperlinkage.tkk.fi/en/ Linkage Program 1 is an international Master's level certificate program that lasts for one academic year. The program consists of 50 to 60 credits, and is conducted entirely in English. The program puts an emphasis on pulp and paper processes and technology, but also integrates topics such as process control, economics, and environmental protection as well as printing and converting technologies. In addition to traditional lectures, laboratory work and excursions, the curriculum includes a possibility to projects provided by the Finnish forest industry or other related industries during the summer. Applicants should have completed a Bachelor of Science (B.Sc.) degree in engineering, technology or equivalent. However, students who have completed 3 years of studies toward a B.Sc. or a higher degree and basic studies in mathematics and sciences will also be considered. The closing date for applications for Linkage Program 1 is April 30, 2009. For further information, please e-mail
[email protected] European Mining Course http://www.emmep.org/ The European Mining Course (EMC) is a co-operative programme between four universities, in which students jointly follow the fourth year programme. EMC focuses on mining engineering education. The co-operating universities are: Delft University of Technology, Camborne School of Mines (University of Exeter), Rheinisch-Westfälische Technische Hochschule Aachen and TKK. Access to the course is possible also for
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exchange students from other universities. The course units of EMC are taught consecutively at the location of the co-operating universities. Industrial involvement with the course includes site visits and the provision of guest lecturers in selected subjects. EMC starts in the first part of September and ends in April-May. The students spend at TKK a study period from early September through the end of October. EMC consists of 60 ECTS credits. The course will be continued on a yearly basis. For more information, please see the information on the EMC web pages at http://www.emmep.org or contact Professor Pekka Särkkä, tel. 451 2804, e-mail
[email protected]. European Mineral Engineering Course http://www.emmep.org/ The European Mineral Engineering Course (EMEC) is a co-operative program between four universities, in which students jointly follow the fourth year program. Subjects covered by EMEC are mineral processing, metallurgy and recycling. The co-operating universities are: Wroclaw University of Technology (Poland), University of Exeter (UK), Rheinisch- Westfälische Technische Hochschule Aachen (Germany) and TKK (Finland). Access to the course is possible also for exchange students from other universities. The course units of EMEC are taught consecutively at the location of the co-operating universities. Industrial involvement with the course includes site visits and the provision of guest lecturers in selected subjects. EMEC starts in the middle of September in Exeter and ends in the middle of May. The students spend at TKK a study period from the beginning of March through the middle of May. EMEC consists of 60 ECTS credits. The course will be continued on a yearly basis. For more information, please see the information on the EMEC web pages at http://www.emmep.org/ or contact professor Sirkka-Liisa Jämsä-Jounela, tel. 451 2631, email
[email protected] <mailto:
[email protected]>.
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4.2 Majors and Minors for the Academic Year 2008-2009 Faculty of Electronics, Communications and Automation Degree Programme: Automation and Systems Technology AS3001 Automation and Control Engineering AS-84 Prof. Aarne Halme AS-84 Prof. Arto Visala AS-74 Prof. Heikki Koivo AS-74 Prof. Heikki Hyötyniemi AS-74 Prof. Robert Tenno AS-116 Prof. Kari Koskinen AS3002 Media Technology AS-75 Prof. Pirkko Oittinen Prof. Eero Hyvönen Only in the higher degree: AS3004 Space Robotics and Automation AS-84 Prof. Aarne Halme (separate admission) Degree Programme: Bioinformation Technology Lower degree: S3001 Computational and Cognitive Biosciences S-114 Prof. Iiro Jääskeläinen S-114 Prof. Kimmo Kaski S-114 Prof. Jouko Lampinen S-114 Prof. Mikko Sams T-61/122 Prof. Heikki Mannila T-61/122 Prof. Samuel Kaski S3002 Bioengineering Tfy-99 Prof. Ari Koskelainen Tfy-99 Prof. Pekka Meriläinen S-66 Prof. Raimo Sepponen S-129 Prof. Ilkka Tittonen S-104 Prof. Harri Lipsanen AS-84 Prof. Aarne Halme AS-84 Prof. Arto Visala S3003 Biological Chemistry and Biomaterials Kem-100 Prof. Jukka Seppälä Kem-70 Prof. Matti Leisola S-113 Prof. Jorma Kivilahti S3037 Biotronics S-113 Prof. Jorma Kivilahti S-66 Prof. Raimo Sepponen S-104 Prof. Harri Lipsanen Higher degree:
S3037 Biotronics S-113 Prof. Jorma Kivilahti S-66 Prof. Raimo Sepponen S-104 Prof. Harri Lipsanen IL3003 Computational and Cognitive Biosciences S-114 Prof. Jouko Lampinen S-114 Prof. Kimmo Kaski S-114 Prof. Jouko Lampinen S-114 Prof. Mikko Sams T-61/122 Prof. Heikki Mannila T-61/122 Prof. Samuel Kaski Xxxxx Bioengineering Tfy-99 Prof. Ari Koskelainen Prof. Pekka Meriläinen Prof. Risto Ilmoniemi Xxxxx Biological Chemistry and Biomaterials Kem-100 Prof. Jukka Seppälä Kem-70 Prof. Matti Leisola Kem-4 Prof. Ari Koskinen Kem-4 Prof. Reija Jokela Kem-30 Prof. Simo Laakso Kem-30 Prof. Katrina Nordström Kem-31 Prof. Kyösti Kontturi AS3005 Bioautomation (only for the students in the degree programme of Bioinformation Technology) AS-84 Prof. Aarne Halme AS-84 Prof. Arto Visala AS-74 Prof. Heikki Koivo Degree Programme: Communications Engineering Lower degree: S3028 Signal Processing S-88 Prof. Jorma Skyttä S3029 Networking Technology S-38 Prof. Raimo Kantola S3030 Transmission Systems in Telecommunications S-72 Prof. Olav Tirkkonen S3031 User-Oriented Telecommunication Technology S-72 Prof. Patric Östergård S3032 Mathematical Methods in Telecommunications S-72 Prof. Patric Östergård Higher degree: S3004 Acoustics and Audio Signal Processing S-89 Prof. Matti Karjalainen Prof. Paavo Alku
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Prof. Unto K. Laine Prof. Vesa Välimäki
Degree Programme: Electronics and Electrical Engineering
S3018 User-Oriented Telecommunication Technology S-72 Prof. Patric Östergård S-72 Docent Timo O. Korhonen S-89 Prof. Paavo Alku S-89 Prof. Unto K. Laine
Lower degree:
S3019 Radio Communications S-72 Prof. Riku Jäntti S-72 Prof. Olav Tirkkonen S-72 Prof. Jyri Hämäläinen S-26 Prof. Antti Räisänen S-26 Prof. Sergei Tretyakov S-26 Prof. Pertti Vainikainen S-87 Prof. Kari Halonen S-88 Prof. Risto Wichman S-88 Prof. Visa Koivunen S3013 Signal Processing S-88 Prof. Jorma Skyttä Prof. Risto Wichman Prof. Visa Koivunen S3021 Communications Systems S-72 Prof. Patric Östergård S-72 Prof. Olav Tirkkonen S-72 Prof. Riku Jäntti S-72 Prof. Jyri Hämäläinen S-108 Prof. Erkki Ikonen S3022 Data Networks S-38 Ma. prof. Heikki Hämmäinen Prof. Raimo Kantola Prof. Jukka Manner Prof. Jörg Ott Prof. Jorma Virtamo S3023 Mathematical Methods in Telecommunications S-38 Prof. Jorma Virtamo S-72 Prof. Patric Östergård S-72 Prof. Olav Tirkkonen S-72 Prof. Jyri Hämäläinen S-88 Prof. Risto Wichman S-88 Prof. Jorma Skyttä S-88 Prof. Visa Koivunen S-89 Prof. Paavo Alku S-89 Prof. Matti Karjalainen S-89 Prof. Unto K. Laine S-89 Prof. Vesa Välimäki S3033 Communications Engineering at Eurécom S-38 Prof. Raimo Kantola TU3006 Framtidens industriföretag The Industrial Enterprice of the Future, FIF S-66 Prof. Raimo Sepponen (TU-22 Prof. Paul Lillrank, in charge) (separate admission)
AS3001 Automation and Control Engineering AS-84 Prof. Aarne Halme AS-84 Prof. Arto Visala AS-74 Prof. Heikki Koivo AS-74 Prof. Heikki Hyötyniemi AS-116 Prof. Kari Koskinen S3024 Bionics S-113 Prof. Jorma Kivilahti S-66 Prof. Raimo Sepponen S3014 Elektrophysics S-129 Prof. Ilkka Tittonen S3026 Electrical Engineering S-81 Prof. Jorma Kyyrä S3027 Electronics S-87 Prof. Jussi Ryynänen Higher degree: S3004 Acoustics and Audio Signal Processing S-89 Prof. Matti Karjalainen S-89 Prof. Paavo Alku S-89 Prof. Unto K. Laine S-89 Prof. Vesa Välimäki ETA3001 Space Technology and Science S-92 Prof. Martti Hallikainen S3006 Bionics S-113 Prof. Jorma Kivilahti S-66 Prof. Raimo Sepponen S3007 Electronics and Applications S-81 Prof. Seppo Ovaska S-66 Prof. Raimo Sepponen S-69 Prof. Pekka Kuivalainen S-87 Prof. Kari Halonen S-87 Prof. Jussi Ryynänen S-113 Prof. Jorma Kivilahti IL3001 Computational Science S-114 Prof. Kimmo Kaski S-114 Prof. Jouko Lampinen T-122 Prof. Heikki Mannila (on leave of absence) S-114 Prof. Jukka Tulkki T-61 Prof. Erkki Oja S3010 Micro- and Nanotechnology S-104 Prof. Harri Lipsanen S-69 Prof. Pekka Kuivalainen S-87 Prof. Kari Halonen S-87 Prof. Jussi Ryynänen S-129 Prof. Ilkka Tittonen
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S-113 Prof. Jorma Kivilahti S3011 Optical Technology S-104 Prof. Harri Lipsanen S-108 Prof. Erkki Ikonen S-129 Prof. Ilkka Tittonen S3012 Radio Science and Engineering S-26 Prof. Antti Räisänen S-26 Prof. Sergei Tretyakov S-26 Prof. Pertti Vainikainen S-55 Prof. Martti Valtonen S-96 Prof. Keijo Nikoskinen S3013 Signal Processing S-88 Prof. Jorma Skyttä S-88 Prof. Risto Wichman S-88 Prof. Visa Koivunen S3014 Electrophysics S-129 Prof. Ilkka Tittonen S-104 Prof. Harri Lipsanen S-114 Prof. Jukka Tulkki S-26 Prof. Antti Räisänen S-26 Prof. Pertti Vainikainen S-26 Prof. Sergei Tretyakov S-96 Prof. Ari Sihvola S-96 Prof. Keijo Nikoskinen S3015 Electrical Systems S-18 Prof. Matti Lehtonen S-118 Prof. Liisa Halonen S-118 Prof. Jouko Pakanen S3016 Electrical Drives S-17 Prof. Antero Arkkio S-81 Prof. Jorma Luomi S-81 Prof. Jorma Kyyrä S3017 Communications Applications S-72 Prof. Patric Östergård S-72 Prof. Jyri Hämäläinen S-72 Prof. Riku Jäntti S-72 Prof. Olav Tirkkonen S-108 Prof. Erkki Ikonen S3033 Communications Engineering at Eurécom S-38 Prof. Raimo Kantola TU3006 Framtidens industriföretag The Industrial Enterprice of the Future, FIF S-66 Prof. Raimo Sepponen (TU-22 Prof. Paul Lillrank, in charge) (separate admission) Separate minors of the faculty: AS3003 Automation in Process and Energy Technology (AS-84 Prof. Aarne Halme AS-84 Prof. Arto Visala AS-74 Prof. Heikki Koivo
AS-74 Prof. Heikki Hyötyniemi AS-116 Prof. Kari Koskinen) (not for the students of Automation and Systems Technology) S3034 Sähkötekniikan sivuaine (S-81) Prof. Jorma Kyyrä (for the students of Automation and Systems Technology, Energy and HVAC-Technology, Communications Engineering) S3035 Tietoliikennetekniikan sivuaine (S-38) Prof. Raimo Kantola (for the students of Electronics and Electrical Engineering) S3036 Elektroniikan sivuaine (S-87) Prof. N.N. (for others than the students of Electronics and Electrical Engineering)
Faculty of Information and Natural Sciences Degree Programme: Computer Science and Engineering T3001 Software Technology T-106 Prof. Eljas Soisalon-Soininen T-106 Prof. Lauri Malmi T-106 Prof. Heikki Saikkonen T-106 Prof. Jorma Tarhio T-93 Prof. Markku Syrjänen T3002 Theoretical Computer Science T-119 Prof. Ilkka Niemelä T-79 Prof. Kaisa Nyberg T-79 Prof. Pekka Orponen IL3002 Theoretical Computer Science (FadCo – Master’s Programme in Foundations of Advanced Computing) T-119 Prof. Ilkka Niemelä T-79 Prof. Kaisa Nyberg T-79 Prof. Pekka Orponen T3003 Software Engineering and Business T-76 Prof. Reijo Sulonen T-76 Ma.prof. Tomi Männistö T-76 Prof. Juha Laine T-121 Prof. Marko Nieminen T-86 Prof. Martti Mäntylä (on leave of absence) T-86 Ma. prof. Matti A. Hämäläinen T3004 Media Engineering T-111 Prof. Petri Vuorimaa T-111 Prof. Lauri Savioja T-111 Prof. Tapio Takala T-121 Prof. Marko Nieminen T3005 Data Communications Software T-110 Prof. Antti Ylä-Jääski
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T-110 Prof. Tuomas Aura T-110 Ma. prof. Sasu Tarkoma
Degree Programme: Engineering Physics and Mathematics
T3006 Computer and Information Science T-115 Prof. Olli Simula T-61 Prof. Erkki Oja T-122 Prof.Heikki Mannila (vv) T-120 Prof. Juha Karhunen T-61 Prof. Samuel Kaski
F3005 Engineering Physics Tfy-3 Prof. Sebastiaan van Dijken Tfy-3 Prof. Esko Kauppinen Tfy-105 Prof. Tapio Ala-Nissilä Tfy-105 Prof. Juhani v. Boehm Tfy-105 Acad Prof. Risto Nieminen Tfy-105 Prof. Martti Puska Tfy-105 Prof. Päivi Törmä Tfy-125 Acad Prof. Olli Ikkala Tfy-125 Prof. Matti Kaivola Tfy-125 Prof. Janne Ruokolainen Tfy-56 Prof. Peter Lund Tfy-56 Prof. Rainer Salomaa Tfy-99Prof. Risto Ilmoniemi Tfy-99 Prof. Ari Koskelainen Tfy-99 Prof. Pekka Meriläinen
T3007 Communications Systems at Institut Eurécom T-115 Prof. Olli Simula (separate admission) T3012 Bioinformatics (only for the students in Master's Programme in Bioinformatics) T-61 Prof. Heikki Mannila (on leave of absence) T-122 Prof. Samuel Kaski T3010 Mobile Computing - Services and Security (only for the students in Master's Programme in Mobile Computing - Services and Security) T-110 Prof. Antti Ylä-Jääski T-110 Prof. Tuomas Aura T-110 Ma.prof. Sasu Tarkoma T3011 Security and Mobile Computing (only for the students in Master's Degree Programme in Security and Mobile Computing) T110 Prof. Antti Ylä-Jääski T3006 Computer and Information Science (Master's Programme in Machine Learning and Data Mining) T-61 Prof. Erkki Oja T-122 Prof. Heikki Mannila (on leave of absence) T-61 Prof. Samuel Kaski T-115 Prof. Olli Simula T-120 Prof. Juha Karhunen (separate admission) Only in the higher degree: IL3001 Computational Science S-114 Prof. Kimmo Kaski S-114 Prof. Jouko Lampinen T-122 Prof. Heikki Mannila (on leave of absence) S-114 Prof. Jukka Tulkki T-61 Prof. Erkki Oja TU3006 Framtidens industriföretag The Industrial Enterprice of the Future, FIF T-86 Ma. prof. Matti A. Hämäläinen (TU-22 Prof. Paul Lillrank, in charge) (separate admission)
F3006 Mathematics Mat-1 Prof. Olavi Nevanlinna Mat-1 Prof. Juhani Pitkäranta Mat-1 Prof. Erkki Somersalo Mat-1 Prof. Timo Eirola Mat-1 Prof. Gustaf Gripenberg Mat-1 Prof. Esko Valkeila Mat-1 Prof. Matti Lassas Mat-1 Pro. Juha Kinnunen F3007 Mechanics Mat-5 Prof. Rolf Stenberg Mat-1 Prof. Juhani Pitkäranta Ene-39 Prof. Timo Siikonen Kul-49 Prof. Jukka Tuhkuri Only in the lower degree: F3010 Systems Sciences Mat-2 Prof. Raimo P. Hämäläinen Mat-2 Prof. Harri Ehtamo Mat-2 Prof. Ahti Salo Only in the higher degree: F3004 Optics Tfy-125 Prof. Matti Kaivola S-108 Prof. Erkki Ikonen S-129 Prof. Ilkka Tittonen S-104 Prof. Harri Lipsanen F3003 Nanotechnology Tfy-125 Acad Prof. Olli Ikkala Tfy-125 Prof. Janne Ruokolainen S-104 Prof. Harri Lipsanen F3002 Advanced Energy Systems Tfy-56 Prof. Rainer Salomaa Tfy-56 Prof. Peter Lund Ene-39 Prof. Markku Lampinen Ene-39 Prof. Timo Siikonen
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F3001 Biomedical Engineering Tfy-99 Prof. Risto Ilmoniemi Tfy-99 Prof. Ari Koskelainen Tfy-99 Prof. Pekka Meriläinen F3008 Systems and Operations Research Mat-2 Prof. Raimo P. Hämäläinen Mat-2 Prof. Harri Ehtamo Mat-2 Prof. Ahti Salo Degree Programme: Information Networks T3004 Media Engineering T-111 Prof. Tapio Takala T-121 Prof. Marko Nieminen AS-75 Prof. Pirkko Oittinen T-111 Prof. Lauri Savioja T-111 Prof. Petri Vuorimaa T3008 Knowledge Intensive Business TU-22 Prof. Eero Eloranta TU-22 Prof. Karlos Artto TU-53 Prof. Eila Järvenpää TU-53 Ma. prof. Stina Immonen AS-116 Prof. Kari Koskinen TU-91 Prof. Tomi Laamanen T-76 Prof. Juha Laine T-124 Prof. Riitta Smeds T3009 Interaction and Media AS-75 Prof. Pirkko Oittinen AS-75 Prof. Eero Hyvönen T-86 Ma. prof. Matti A. Hämäläinen TU-53 Prof. Eila Järvenpää AS-116 Prof. Kari Koskinen T-121 Prof. Marko Nieminen T-111 Prof. Tapio Takala TU-53 Prof. Matti Vartiainen Degree Programme: Industrial Engineering and Management
Prof. Matti Vartiainen TU3004 Strategy and International Business TU-91 Prof. Tomi Laamanen Prof. Thomas Keil Prof. Juha-Antti Lamberg Prof. Markku Maula TU3005 Industrial Development and Leadership TU-117 Prof. Ilkka Kauranen (on leave of absence) NB! No admission 2008-2009 TU3006 Framtidens industriföretag The Industrial Enterprice of the Future, FIF TU-22 Prof. Paul Lillrank (separate admission) TU3007 IDBM International Design Business Management TU-22 Prof. Karlos Artto (separate admission) Separate minors of the faculty: F3011 Comprehensive Course in Basic Sciences (only for the students in General studies with extended curriculum in science) (Mat-1 Prof. Olavi Nevanlinna Tfy-3 Prof. Martti Puska) F3002 Advanced Energy Systems (for others than students of Engineering Physics) (Tfy-56 Prof. Rainer Salomaa Tfy-56 Prof. Peter Lund Ene-39 Prof. Markku Lampinen Ene-39 Prof. Timo Siikonen) F3012 Discrete Mathematics (for all degree programmes) (Mat-2 Prof. Harri Ehtamo Mat-1 Prof. Gustaf Gripenberg T-79 Prof. Pekka Orponen S-72 Prof. Patric Östergård)
Lower degree: TU3009 Industrial Engineering and Management TU-22 Prof. Karlos Artto Prof. Kari Tanskanen Higher degree: TU3001 Industrial Management TU-22 Prof. Karlos Artto Prof. Eero Eloranta Prof. Jan Holmström Prof. Paul Lillrank Prof. Kari Tanskanen TU3003 Work Psychology and Leadership TU-53 Prof. Eila Järvenpää Prof. Esa Saarinen
F3009 Computational Science and Engineering (netwotk-like minor for all degree programmes) (Mat-1 Prof. Timo Eirola Tfy-105 Prof. Tapio Ala-Nissilä T-61 Prof. Erkki Oja S-114 Prof. Jukka Tulkki) T3013 Computer Science and Engineering (not for students of Computer Science and Engineering) (T-61 Prof. Erkki Oja T-76 Prof. Reijo Sulonen T-79 Prof. Pekka Orponen T-106 Prof. Lauri Malmi T-111 Prof. Petri Vuorimaa)
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T3006 Computer and information Science (not for students of Computer Science and Engineering) (T-115 Prof. Olli Simula T-61 Prof. Erkki Oja T-122 Prof. Heikki Mannila (on leave of absence) T-120 Prof. Juha Karhunen T-61 Prof. Samuel Kaski) S3008 Cognitive Science (S-114 Prof. Mikko Sams S-114 Prof. Kimmo Kaski) TU3010 Economics (TU-91) Prof. Hannele Wallenius
Faculty of Engineering and Architecture Degree Programme: Architecture A3001 History and Theory of Architecture A-27 Prof. Aino Niskanen A-60 Prof. Simo Paavilainen A3002 Building Design A-8 Prof. Markku Komonen A-9 Prof. Antti-Matti Siikala A-9a Prof. Tor-Ulf Weck A-52 Prof. Hannu Huttunen A-112 Fixed-term Professor Pekka Heikkinen A3003 Urban Planning and Design A-36 Prof. Kimmo Lapintie Prof. Trevor Harris Prof. Peter Ache Degree Programme: Energy and HVAC-Technology K3007 Energy Technology Ene-59 Prof. Pekka Pirilä, in charge Ene-59 Prof. Pekka Ahtila Ene-39 Prof. Markku Lampinen Ene-47 Prof. Carl-Johan Fogelholm Kul-14 Prof. Martti Larmi K3008 Heating, Ventilating and Air Conditioning Ene-58 Prof. Kai Sirén, in charge Ene-58 Prof. Olli Seppänen K3009 Process and Environmental Technology Ene-47 Prof. Carl-Johan Fogelholm, in charge (Puu-127 Prof. Olli Dahl Kem-107 Prof. Markku Hurme Tfy-56 Prof. Peter Lund)
Degree Programme: Geomatics Lower degree: M3002 Geoinformatics Maa-123 Prof. Kirsi Virrantaus Maa-123 Prof. Ari Jolma M3001 Geodesy and Photogrammetry Maa-57 Prof. Henrik Haggrén Maa-6 Prof. Martin Vermeer Higher degree: M3002 Geoinformatics Maa-123 Prof. Kirsi Virrantaus Maa-123 Prof. Ari Jolma M3005 Geodesy Maa-6 Prof. Martin Vermeer M3006 Photogrammetry and Remote Sensing Maa-57 Prof. Henrik Haggrén IA3002 Geoinformation Technology (Master's Programme in Geoinformatics) Maa-123 Prof. Kirsi Virrantaus Degree Programme: Landscape Architecture A3004 Landscape Planning and Management MA-94 Prof. Maija Rautamäki A3005 Landscape Design and Construction MA-94 Prof. Jyrki Sinkkilä A3003 Urban Planning and Design A-36 Prof. Kimmo Lapintie A-36 Prof. Trevor Harris A-36 Prof. Peter Ache Degree Programme: Mechanical Engineering K3001 Machine Design Kon-41 Prof. Matti Pietola, in charge Kon-41 Prof. Eric Coatanea Kon-41 Prof. Kalevi Ekman Kon-41 Ma.prof. Jari Juhanko Kon-41 Prof. Petri Kuosmanen Kon-16 Prof. Matti Juhala K3002 Production Engineering Kon-15 Prof. Kalevi Aaltonen, in charge Kon-15 Prof. Esko Niemi Kon-80 Prof. Juhani Orkas K3003 Engineering Materials Kon-67 Prof. Hannu Hänninen, in charge
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K3004 Aeronautical Engineering Kul-34 Prof. Olli Saarela, in charge Kul-34 Prof. Jaakko Hoffren K3005 Marine Technology Kul-24 Prof. Pentti Häkkinen Kul-24 Prof. Jerzy Matusiak Kul-24 Prof. Petri Varsta Kul-24 Prof. Pentti Kujala K3006 Technical Mechanics Kul-49 Prof. Jukka Tuhkuri, in charge Kul-34 Prof. Jaakko Hoffren Kul-24 Prof. Jerzy Matusiak Kul-49 Prof. Gary Marquis Kul-34 Prof. Olli Saarela Ene-39 Prof. Timo Siikonen TU3006 Linkage Program 2, Framtidens industriföretag The Industrial Enterprice of the Future, FIF Kon-15 Prof. Kalevi Ekman Kon-41 Prof. Kalevi Aaltonen (TU-22 Prof. Paul Lillrank, in charge) (separate admission) Degree Programme: Real Estate Economics Lower degree: M3003 Real Estate Management Maa-29 Prof. Ari Ekroos Maa-20 Prof. Kauko Viitanen Maa-20 Prof. Arvo Vitikainen Maa-20 Prof. N.N. M3004 Real Estate Engineering and Law Maa-29 Prof. Ari Ekroos Maa-20 Prof. Kauko Viitanen Maa-20 Prof. Arvo Vitikainen
Degree Programme: Civil and Environmental Engineering (lower degree) RYT Structural Engineering and Building Technology (higher degree) RRT Transportation and Environmental Engineering (higher degree) YYT R3001 Structural Engineering (RYT, RRT) Rak-11 Prof. N.N. Rak-43 Prof. Jari Puttonen Rak-54 Prof. Jukka Aalto Rak-54 Prof. Juha Paavola Rak-83 Prof. Pentti Mäkeläinen R3002 Building Materials and Production (RYT) Rak-43 Prof. Martti Viljanen Rak-63 Prof. Juhani Kiiras Rak-63 Prof. Jouko Kankainen Rak-82 Prof. Vesa Penttala R3003 Geoengineering (RYT, RRT, YYT) Rak-32 Ma. prof. Juha Antikainen Rak-50 Prof. Olla Ravaska Rak-50 Prof. Pauli Vepsäläinen R3004 Transportation and Highway Engineering (RYT, YYT) Yhd-10 Prof. Terhi Pellinen Yhd-71 Prof. Timo Ernvall Yhd-71 Ma.prof. Tapio Luttinen R3005 Water and Environmental Engineering (RYT, YYT) Yhd-12 Prof. Pertti Vakkilainen Yhd-12 Prof. Tuomo Karvonen Yhd-73 Prof. Riku Vahala R3007 Geoenvironmental Technology (RYT, YYT) Yhd-33 Prof. Kirsti Loukola-Ruskeeniemi Yhd-33 Prof. Markku Peltoniemi
Higher degree: M3003 Real Estate Management Maa-20 Prof. Kauko Viitanen Maa-20 Prof. N.N. M3007 Real Estate Planning Maa-20 Prof. Kauko Viitanen Maa-20 Prof. Arvo Vitikainen M3008 Economic Law Maa-29 Prof. Ari Ekroos M3009 Real Estate Investment and Finance Maa-20 Prof. Kauko Viitanen Maa-20 Prof. Arvo Vitikainen Maa-20 Prof. N.N.
R3008 European Mining Course (RRT, YYT) Rak-32 Prof. Pekka Särkkä (separate admission) IA3004 Property Management and Services (RRT) Rak-43 Prof. Jari Puttonen Rak-63 Prof. Juhani Kiiras Rak-63 Prof. Jouko Kankainen IA3001 Building Materials and Production Technology (RRT) Rak-43 Prof. Jari Puttonen Rak-63 Prof. Martti Viljanen Rak-63 Prof. Juhani Kiiras Rak-63 Prof. Jouko Kankainen Rak-82 Prof. Vesa Penttala
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IA3003 Environmental Technology (YYT) Lahti Centre Prof. Juha Kaila (separate admission)
IAxxxx Photogrammetry (Maa-57) Prof. Henrik Haggrén
Separate minors of the faculty:
IAxxxx Remote Sensing (Maa-57) Prof. Henrik Haggrén
K3010 Mechatronics I (Kon-41) Prof. Mauri Airila, vast.
IAxxxx Cartography (Maa-123) Prof. Kirsi Virrantaus
K3011 Mechatronics II (Kon-41) Prof. Mauri Airila, vast.
IAxxxx Real Estate Investment (Maa-20 Prof. Kauko Viitanen Maa-xx) Prof. N.N.
K3012 Building Services I (Ene-58 Prof. Olli Seppänen, vast. S-118) (Prof. Liisa Halonen) K3013 Building Services II (Ene-58 Prof. Olli Seppänen, vast. S-118) (Prof. Liisa Halonen) IAxxxx Structural Engineering and Building Technology (for students of other degree programmes) (Rak-11 Prof. N.N. Rak-43 Prof. Martti Viljanen Rak-54 Prof. Jukka Aalto Rak-63 Prof. Jouko Kankainen Rak-82) Prof. Vesa Penttala IAxxxx Transportation and Environmental Engineering (for students of other degree programmes) (Yhd-10 Prof. Terhi Pellinen Yhd-12 Prof. Pertti Vakkilainen Yhd-71 Prof. Timo Ernvall Yhd-73) Prof. Riku Vahala IAxxxx Applied geoinformatics (Maa-123 Prof. Ari Jolma Maa-123 Prof. Kirsi Virrantaus Maa-57 Prof. Henrik Haggrén Yhd-12 Prof. Pertti Vakkilainen Yhd-12 Prof. Tuomo Karvonen Yhd-33 Prof. Kirsti Loukola-Ruskeeniemi T-115 Prof. Olli Simula T-122 Ma. prof. Jaakko Hollmén T-122) Prof. Heikki Mannila IAxxxx Geomatics (Maa-123 Prof. Kirsi Virrantaus Maa-6 Prof. Martin Vermeer Maa-57) Prof. Henrik Haggrén IAxxxx Real Estate Economics (Maa-20 Prof. Henrik Haggrén Maa-20 Prof. Arvo Vitikainen Maa-29 Prof. Ari Ekroos Maa-xx) Prof. N.N. IAxxxx Navigation and Positioning (Maa-6) Prof. Martin Vermeer
IAxxxx Real Estate Economics and Valuation (Maa-20 Prof. Kauko Viitanen Maa-xx) Prof. N.N. IAxxxx Environmental Law (Maa-29) Prof. Ari Ekroos
Faculty of Chemistry and Materials Sciences Degree Programme: Chemical Technology KE3001 Chemistry Kem-4 Prof. Reija Jokela Kem-4 Prof. Ari Koskinen Kem-31 Prof. Kyösti Kontturi Kem-35 Prof. Sakari Kulmala Kem-35 Prof. Maarit Karppinen KE3002 Biotechnology and Food Technology Kem-30 Prof. Katrina Nordström Kem-30 Prof. Simo Laakso Kem-70 Prof. Matti Leisola KE3003 Processes and Products Kem-40 Prof. Outi Krause Kem-42 Prof. N.N. Kem-100 Prof. Jukka Seppälä Kem-107 Prof. Markku Hurme KE3004 Process Systems Engineering Kem-42 Prof. N.N. Kem-90 Prof. Sirkka-Liisa Jämsä-Jounela Kem-107 Prof. Markku Hurme Degree Programme: Forest Products Technology P3001 Wood Product Technology Puu-28 Prof. Matti Kairi Puu-28 Prof. Mark Hughes Puu-19 Prof. Tapani Vuorinen Puu-19 Prof. Janne Laine Puu-127 Prof. Olli Dahl
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P3002 Chemical Pulping Technology Puu-23 Prof. Herbert Sixta Puu-127 Prof. Olli Dahl Puu-19 Prof. Tapani Vuorinen Puu-19 Prof. Janne Laine P3003 Paper and Printing Technology Puu-21 Prof. Hannu Paulapuro Puu-21 Prof. Jouni Paltakari Puu-21 Prof. Patrick Gane Puu-19 Prof. Tapani Vuorinen Puu-19 Prof. Janne Laine Puu-127 Prof. Olli Dahl Degree Programme: Materials Science MT3001 Applied Materials Science MT-0 Prof. N.N. Prof. Olof Forsén Prof. Mikhail Gasik Prof. Simo-Pekka Hannula Prof. Kari Heiskanen Prof. Lauri Holappa Prof. Seppo Kivivuori Prof. Antti Korhonen
Ma.prof. Roman Nowak Prof. N.N. MT3002 Materials Technology MT-0 Prof. Mikhail Gasik, vast. Prof. Olof Forsén Prof. Simo-Pekka Hannula Prof. Kari Heiskanen Prof. Lauri Holappa Prof. Seppo Kivivuori Prof. Antti Korhonen Prof. N.N. Ma.prof. Roman Nowak Prof. N.N. Separate minors of the faculty: P3004 Linkage Program 1, Modern Technology in Pulp and Paper Industry (Puu-0) Prof. Tapani Vuorinen P3005 IDBM, International Design Business Management (for students of Forest Products Technology) (Puu-28) Prof. Matti Kairi
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4.3 COURSES LECTURED IN 2008-2009 Abbreviations used: AS Automation and Systems Technology Aut Automation Technology F Engineering Physics and Mathematics Mat Mathematics Tfy Engineering Physics Kyl Low Temperature Laboratory T Computer Science and Engineering TU Industrial Engineering and Management S Electrical and Communications Engineering K Mechanical Engineering Kul Vehicle Engineering Kon Machine Design and Workshop Engineering Ene Energy Engineering KE Chemical Technology Kem Chemical Technology MK Materials Science Mak Materials Science P Forest Products Technology Puu Forest Products Technology A Architecture MA Landscape Architecture M Surveying Maa Surveying R Civil and Environmental Engineering Rak Civil Engineering Yhd Environmental Engineering Eri Separate courses in general studies Kie Languages Vie Communication cr The credit used at TKK, equivalent to 1 ECTS credit. ocr The old TKK credit, can be converted to ECTS credits by multiplying them by 1.5. HU University of Helsinki P The course can be taken in Bachelor, Master or Doctoral level studies. Except studies named Postgraduate Seminars and Postgraduate Courses which are only for Doctoral studies. V A course with varying content Period The instruction is given during a period shorter than whole term. I, II, III, IV The academic year at TKK is divided into 4 periods during which the teaching is arranged. Please find further details in section 3.3.1. Autumn/Spring The course is given on the autumn/spring term. Autumn + spring The course lasts for the whole academic year. Autumn & spring The course is given during both autumn and spring terms. Finnish The language of the course is Finnish English The language of the course is English Finnish or English The language of the course is either Finnish or English Finnish and English For example, if the lecture is in Finnish and the course material is in English English on demand The lecture can be given in English in case there are several international students attending
4.3.1 Courses lectured in English NB! In addition to the courses that are listed here, some courses may be studied in English, or individual study in English may be possible. These courses, however, are not mentioned on this list. For further information see the individual course descriptions in WebOodi and/or contact the teacher in question. Faculty of Electronics, Communications and Automation Department of Automation and Systems Technology AS-74.1119 Automation in Pulp and Paper Processes (4 cr) AS-74.3115 Neural Nets and Fuzzy Computing in Automation P (3 cr) AS-74.3123 Model-based Control Systems P (4 cr) AS-74.3135 Servomechanisms (3 cr) AS-74.3136 Introduction to Microsystems (3 cr) AS-74.3178 Micro- and Nanorobotics P (4 cr) AS-74.3179 Modelling and Control of Processes Dependent on Time and Spatial Coordinates P (5 cr) AS-74.3199 Wireless Automation P (4 cr) AS-74.4180 Automatic modelling of industrial plants using semantic specifications P (4 cr) AS-74.4330 Postgraduate Course in Control Engineering P (4-8 cr) AS-74.4340 Special Course in Control Engineering P (18 cr) AS-84.3125 Estimation and Sensor Fusion Methods P (3 cr) AS-84.3126 Machine Perception P (3 cr) AS-84.3140 Robot Algorithms P (4 cr) AS-84.3145 Field and Service Robotics (4 cr) AS-84.3146 Behaviour-based Robotics P (3 cr) AS-84.3272 Embedded Systems in Space Technology (4 cr) Department of Electronics S-108.4020 Research Seminar on Measurement Science and Technology P (2 cr) S-108.4110 Biological Effects and Measurements of Electromagnetic Fields and Optical Radiation P (4 cr) S-113.2105 Materials and Microsystems Integration (3-8 cr) S-113.3145 Reliability of Micro- and Nanosystems (4 cr) S-113.3155 Project Work in Microsystem Reliability (3-6 cr) S-113.4100 Postgraduate Course in Electronics Production Technology P (3-9 cr) S-113.4201 Postgraduate Course on Biocompatible Electronics P (3-5 cr) S-118.1900 Project in Illumination Engineering and Electric Installations (2-5 cr) S-118.2102 Illumination Engineering and Electrical Safety (4 cr)
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S-118.3217 Illumination Engineering I (5 cr) S-118.3230 Seminar on Illumination Engineering and Electric Installations in Building (4 cr) S-118.3232 Illumination Engineering and Electric Installations in Buildings, special assignment (2-8 cr) S-118.4250 Postgraduate Seminar on Illumination Engineering P (5-10 cr) S-66.3169 Bioelectrical Phenomena (4 cr) S-66.4140 Postgraduate Course in Applied Electronics II P (10 cr) S-66.4143 Radar Electronics P (6 cr) S-66.4205 Research Seminar on Applied Electronics (3-8 cr)
S-87.4199 Postgraduate Course in Electronic Circuit Design III P (1-11 cr)
Department of Micro and Nanosciences S-104.3310 Optoelectronics (5 cr) S-104.3410 Photonics and Integrated Optics (5 cr) S-104.3880 Optoelectronics and Nanotechnology, special assignment (8 cr) S-104.3910 Laboratory Course on Micro- and Nanotechnology (4 cr) S-104.4650 Postgraduate Course on Nanotechnology P (10 cr) S-129.3210 Microsystem Technology (5 cr) S-129.3220 Laboratory Course on Microsystems (5 cr) S-129.3310 Physics of Optical Communications Network P (5 cr) S-129.4003 Nanoscience III: Molecular Nanoscience P (5 cr) S-129.4004 Nanoscience IV: Bionanoscience P (5 cr) S-129.4210 Special Course in Electric Physics P (2-5 cr) S-69.3102 Semiconductor Technology I (5 cr) S-69.3103 Semiconductor Technology II (5 cr) S-69.3104 Electronic Sensors (5 cr) S-69.3105 Special Project in Semiconductor Technology (5 cr) S-69.3106 Semiconductor Technology, laboratory course II (5 cr) S-69.3107 Semiconductor Technology, laboratory course I (1 cr) S-69.4112 Research Project in Semiconductor Technology P (5 cr) S-69.4113 Postgraduate Course in Electron Physics I P (8 cr) S-69.4114 Postgraduate Course in Electron Physics II P (8 cr) S-87.3137 Integrated Circuit Design (3 cr) S-87.3141 Analog Integrated Circuits (3 cr) S-87.3145 Analog Integrated Systems P (5 cr) S-87.3148 Computer-Aided Circuit Design (3 cr) S-87.3163 Special Project in Electronic Circuit Design (5-8 cr) S-87.3170 Research Seminar on Electronic Circuit Design P (1 cr) S-87.3182 Digital Microelectronics I: System Level Electric Design P (5 cr) S-87.4193 Postgraduate Course in Electronic Circuit Design I P (1-8 cr) S-87.4198 Postgraduate Course in Electronic Circuit Design II P (1-8 cr)
Department of Signal Processing and Acoustics S-88.2111 Signal Processing in Telecommunications I (3 cr) S-88.3105 Digital Signal Processing Systems (5 cr) S-88.3155 Signal Processing, special assignment (5-10 cr) S-88.4175 Signal Processing in Wireless Communications P (4 cr) S-88.4191 Individual Course in Signal Processing P (2-10 cr) S-88.4200 Statistical Signal Processing P (5 cr) S-88.4205 Image and Video Compression P (4 cr) S-88.4212 Signal Processing in Telecommunications II P (4 cr) S-88.4221 Postgraduate Seminar on Signal Processing 1 P (4-8 cr) S-88.4222 Postgraduate Seminar on Signal Processing 2 P (4-8 cr) S-88.4223 Postgraduate Seminar on Signal Processing 3 P (4-8 cr) S-88.4224 Postgraduate Seminar on Signal Processing 4 P (4-8 cr) S-89.3330 Exercise on Acoustical Measurements (1 cr) S-89.3460 Spatial Sound P (5-8 cr) S-89.3480 Acoustics Seminar (3 cr) S-89.3490 Acoustics and Audio Signal Processing, special assignment P (1-10 cr) S-89.3540 Audio Signal Processing P (5 cr) S-89.3580 Audio Signal Processing Seminar (3 cr) S-89.3650 Speech Processing Mathematics P (5 cr) S-89.3680 Speech Processing Seminar (3 cr) S-89.3690 Speech Processing, special assignment P (1-10 cr) S-89.4810 Postgraduate Course in Acoustics P (8 cr) S-89.4820 Postgraduate Course in Audio Signal Processing P (8 cr) S-89.4830 Postgraduate Course in Speech Processing P (8 cr)
Department of Radio Science and Engineering S-26.3161 Analytical Modelling in Radioengineering P (4 cr) S-55.3320 Special Assignment in Circuit Theory P (3-5 cr) S-92.3192 Special Assignment in Space Technology (5 cr) S-92.4305 Special Problems in Space Technology P (5 cr) S-96.3191 Special Project in Electromagnetics (3-5 cr)
Department of Electrical Engineering S-17.2030 Electromechanics and Electric Drives (6 cr) S-17.3010 Numerical Methods in Electromechanics P (5 cr) S-17.3020 Transient Phenomena in Electrical Machines P (5 cr) S-17.3030 Design of Electrical Machines P (5 cr) S-17.3040 Seminar on Electromechanics P (5 cr) S-17.3050 Special Course on Electromechanics P (5 cr)
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S-17.3710 Electromechanics, special assignment (2-10 cr) S-17.3720 Individual Studies in Electromechanics P (215 cr) S-17.3730 Doing Research P (1 cr) S-17.4020 Postgraduate Seminar on Electromechanics P (3-10 cr) S-17.4030 Postgraduate Seminar on Electromechanics P (3-10 cr) S-18.2103 Power Systems (5 cr) S-18.3150 High Voltage Engineering (4 cr) S-18.3154 Electricity Distribution and Markets P (6 cr) S-18.4000 Computer Applications in Power Systems P (5 cr) S-18.4001 Communication Systems in Power Systems P (5 cr) S-18.4002 Information System Applications in Power Systems, seminar course P (6 cr) S-18.4018 Protective Relaying in Power Systems P (4 cr) S-81.1900 Electrical Engineering Project (5-8 cr) S-81.2110 Power Electronics (5 cr) S-81.3400 Special Assignment on Industrial Electronics and Electric Drives (2-10 cr) S-81.4100 EMC in Power Electronics P (5 cr) S-81.4200 Special Course in Industrial Electronics I P (5 cr) S-81.4210 Special Course in Industrial Electronics II P (5 cr) Department of Communications and Networking S-38.1145 Introduction to Teletraffic Theory (3 cr) S-38.2121 Routing in Communication Networks (4 cr) S-38.2131 Networking Technology, laboratory course A (1-3 cr) S-38.2188 Communication Networks (5 cr) S-38.3001 Telecommunications Forum P (1-5 cr) S-38.3041 Operator Business P (3-5 cr) S-38.3042 Seminar on Networking Business P (3-8 cr) S-38.3045 Special Assignment on Networking Business (2-6 cr) S-38.3115 Signalling Protocols (5 cr) S-38.3119 Seminar on Networking Technology (2-4 cr) S-38.3133 Networking Technology, laboratory course B (2-5 cr) S-38.3134 Networking Technology, laboratory course C (1-3 cr) S-38.3138 Networking Technology, special assignment (2-6 cr) S-38.3141 Teletraffic Theory P (5 cr) S-38.3143 Queueing Theory P (5 cr) S-38.3148 Simulation of Data Networks (5 cr) S-38.3151 Delay-tolerant Networking (DTN) (3 cr) S-38.3152 Networked Multimedia Protocols and Services (NMPS) (5 cr) S-38.3155 Challenged Networks P (3 cr) S-38.3157 Protocol Design P (4 cr) S-38.3184 Network Traffic Measurements and Analysis P (5 cr) S-38.3194 Wireless Networks (5 cr) S-38.3195 Exercise Course for Network Service Provisioning P (4 cr)
S-38.3205 Individual Course on Networking Technology (1-10 cr) S-38.3310 Thesis Seminar on Networking Technology (1 cr) S-38.4030 Postgraduate Course on Networking Technology P (5-15 cr) S-38.4043 Postgraduate Seminar in Network Economics P (5-15 cr) S-38.4149 Postgraduate Course in Teletraffic Theory P (5-15 cr) S-38.4360 Research Seminar on Networking Technology P (1-3 cr) S-72.1130 Telecommunication Systems (5 cr) S-72.1140 Transmission Methods in Communication Systems (5 cr) S-72.2205 Digital Transmission Methods (4 cr) S-72.2211 Mobile Communication Systems and Services (4 cr) S-72.2310 Laboratory Course in Wired Communications (2-5 cr) S-72.2410 Information Theory P (5 cr) S-72.2420 Graph Theory P (5 cr) S-72.2530 Acceptability and Quality of Services P (3 cr) S-72.3110 Individual Studies in Communications P (110 cr) S-72.3120 Special Project in Communications (3-8 cr) S-72.3210 Channel Modeling for Radio Communication Systems (3 cr) S-72.3220 Radio Communication Systems (3 cr) S-72.3235 Network Access P (3 cr) S-72.3250 Laboratory Course in Wireless Communications (2-5 cr) S-72.3260 Radio Resource Management Methods P (3 cr) S-72.3275 Cellular Radio Network Planning and Optimization (5 cr) S-72.3281 Advanced Transmission Methods P (4 cr) S-72.3310 Communication Transmission Lines (4 cr) S-72.3410 Coding Methods P (5 cr) S-72.3510 Product Development of Telecommunication Systems (5 cr) S-72.4110 Postgraduate Seminar in Communications Engineering P (6-12 cr) S-72.4210 Postgraduate Seminar in Radio Communications P (6-12 cr) Faculty of Information and Natural Sciences Department of Biomedical Engineering and Computational Science S-114.2240 Seminar on Computational Engineering (3 cr) S-114.2502 Seminar on Computational and Cognitive Bioscience (2-3 cr) S-114.2601 Introduction to Bayesian Modelling (5 cr) S-114.3200 Special Course in Computational Engineering I P (6 cr) S-114.3215 Special Project in Computational Engineering (3-8 cr) S-114.3250 Special Course in Computational Science P (6 cr)
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S-114.3401 Semiconductor Quantum Structures P (5 cr) S-114.3520 Special Project in Computational Systems Biology (3-7 cr) S-114.3530 Human-Machine Interaction (3-4 cr) S-114.3812 Computational Neuroscience (6 cr) S-114.4202 Special Course in Computational Engineering II P (3-6 cr) S-114.4220 Research Seminar on Computational Science P (3-6 cr) S-114.4230 Individual Studies on Computational Engineering P (1-8 cr) S-114.4245 Laboratory Seminar on Computational Engineering P (2-3 cr) S-114.4610 Special Course in Bayesian Modelling P (1-8 cr) S-114.4761 Special Course on Communication and Cognition P (1-6 cr) S-114.4762 Research Seminar on Communication and Cognition P (1-6 cr) S-114.4772 Individual Studies in Communication and Cognition P (1-9 cr) Tfy-99.1291 Individual Studies (1-15 cr) Tfy-99.3249 Biomedical Engineering, special course P (2-5 cr) Tfy-99.3285 Research Seminar on Bipphysics and Biomedical Engineering P (3 cr) Tfy-99.3298 Biophysics and Biomedical Engineering, special assignment (5-10 cr) Tfy-99.4273 Seminar on Biomedical Engineering (3 cr) Tfy-99.4275 Signal Processing in Biomedical Engineering P (5 cr) Tfy-99.4283 Methods in Modern Biophysics P (5 cr) Tfy-99.5111 Biophysics and Biomedical Engineering, special assignment (10 cr) Tfy-99.298 Biophysics and Medical Technology, special assignment (5 ocr) Department of Mathematics and Systems Analysis Mat-1.1610 Mathematics 1 (10 cr) Mat-1.1620 Mathematics 2 (10 cr) Mat-1.1631 Mathematics 3-I (5 cr) Mat-1.1632 Mathematics 3-II (5 cr) Mat-1.3606 Seminar on stochastics P (1-3 cr) Mat-1.3651 Matrix computations P (5 cr) Mat-1.3652 Finite Difference Methods P (5 cr) Mat-1.3655 Study group in numerical analysis P (1-3 cr) Mat-1.3656 Seminar on Numerical Analysis and Computational Science P (1-5 cr) Mat-1.3658 Special course in numeric analysis L (5 cr) Mat-2.4108 Independent Research Projects in Applied Mathematics (5-8 cr) Mat-2.4153 Multiple Criteria Optimization P (3-6 cr) Mat-2.4192 Systems Research Seminar P (1-6 cr) Mat-2.4194 Research Course in Systems Science P (1-6 cr) Mat-2.4195 Web-based Courses in Systems Analysis P (16 cr) Department of Media Technology AS-75.3133 Media Production Processes and Systems P (5-6 cr)
AS-75.3300 Project Course in Visual Media P (2-8 cr) AS-75.3700 Research Seminar on Media Technology (3 cr) AS-75.4146 Postgraduate Course on Visual Media P (3-9 cr) AS-75.4210 Advanced Laboratory Course in Media Technology P (2-8 cr) Inf-0.4100 Information Networks: Studio X (5-8 cr) T-0.7050 Introduction to Postgraduate Studies in Computer Science P (2 cr) T-111.5350 Multimedia Programming (4 cr) T-111.5360 WWW Applications P (4 cr) T-111.5550 Seminar on Multimedia P (4-8 cr) Department of Engineering Physics Mat-5.3741 Theory of Elasticity P (5 cr) Tfy-0.3223 Statistical Physics (5 cr) Tfy-0.3252 Soft Matter Physics (5 cr) Tfy-0.4800 Physics Research Seminar P (4 cr) Tfy-105.5111 Computational Physics, special assignment (10 cr) Tfy-125.4001 Nanoscience I: Introduction to Nanoscience (3 cr) Tfy-125.4002 Nanoscience II: Nanostructures P (5 cr) Tfy-125.4003 Nanoscience III: Molecular Nanoscience P (5 cr) Tfy-125.4004 Nanoscience IV: Bionanoscience P (5 cr) Tfy-125.4313 Microscopy of Nanomaterials P (5 cr) Tfy-125.4314 Microscopy of Nanomaterials, laboratory course P (5 cr) Tfy-125.4321 Laser Technology and Optics (5 cr) Tfy-125.4341 Polymer Physics (5 cr) Tfy-125.4423 Modern Optics P (5 cr) Tfy-125.4432 Colloquium on New Materials P (1-6 cr) Tfy-125.4433 Laser Physics P (5 cr) Tfy-125.4910 Individual Studies P (1-10 cr) Tfy-125.5111 Physics, special assignment (10 cr) Tfy-3.1381 Physics IA (3 cr) Tfy-3.1382 Physics IB (3 cr) Tfy-3.1393 Physics IIA (3 cr) Tfy-3.1394 Physics IIB (3 cr) Tfy-3.1560 Physics laboratory experiments in English (25 cr) Tfy-3.3400 Measurements in Physics P (1-4 cr) Tfy-3.4311 Materials Physics II P (5 cr) Tfy-3.4323 Quantum Physics P (5 cr) Tfy-3.4331 Surface Physics P (5 cr) Tfy-3.4343 Nanophysics P (5 cr) Tfy-3.4361 Advanced Statistical Physics P (5 cr) Tfy-3.4423 Computational Physics P (5 cr) Tfy-3.4510 Special Course in Physics P (3-10 cr) Tfy-3.4520 Special Course in Theoretical Physics P (3-10 cr) Tfy-3.4801 Low Temperature Physics P (5-6 cr) Tfy-3.4850 Research Seminar in Low Temperature Physics P (2 cr) Tfy-3.4910 Individual Studies in Physics P (1-10 cr) Tfy-3.5111 Physics, special assignment (10 cr) Tfy-56.5111 Advanced Energy Technologies, special assignment (10 cr)
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Tfy-56.5121 Special Course in Advanced Energy Technologies P (1-10 cr) Tfy-56.5141 Special Course in Advanced Energy Technologies P (1-10 cr) Tfy-56.5151 Individual Studies P (1-10 cr) Mat-5.196 Postgraduate and Research Seminar on Computational Dynamics L (3-5 ocr) Tfy-0.002 Orientation Course for Studies in Engineering Physics (0.5 ocr) Tfy-125.398 Physics, special assignment (5 ocr) Tfy-3.393 Computation Physics, special assignment (5 ocr) Tfy-3.394 Physics, special assignment (5 ocr) Tfy-44.198 Materials Physics, special assignment (5 ocr) Tfy-56.198 Nuclear and Energy Engineering, special assignment (5 ocr) Department of Information and Computer Science Inf-0.4100 Information Networks: Studio X (5-8 cr) T-0.7050 Introduction to Postgraduate Studies in Computer Science P (2 cr) T-61.3050 Machine Learning: Basic Principles (5 cr) T-61.5010 Information visualization P (5 cr) T-61.5020 Statistical Natural Language Processing P (5 cr) T-61.5050 High-Throughput Bioinformatics P (5-7 cr) T-61.5060 Algorithmic methods of data mining P (5 cr) T-61.5080 Signal Processing in Neuroinformatics P (5 cr) T-61.5090 Image Analysis in Neuroinformatics P (5 cr) T-61.5100 Digital Image Processing P (5 cr) T-61.5110 Modeling biological networks P (5-7 cr) T-61.5120 Computational genomics P (4-7 cr) T-61.5130 Machine Learning and Neural Networks P (5 cr) T-61.5140 Machine Learning: Advanced Probabilistic Methods P (5 cr) T-61.5150 Speech Recognition P (5 cr) T-61.5900 Computer and Information Science, Special Assignment (5-10 cr) T-61.5910 Research Project in Computer and Information Science P (5-10 cr) T-61.6010 Special Course in Computer and Information Science I P (3-7 cr) T-61.6020 Special Course in Computer and Information Science II P (3-7 cr) T-61.6030 Special Course in Computer and Information Science III P (3-7 cr) T-61.6040 Special Course in Computer and Information Science IV P (3-7 cr) T-61.6050 Special Course in Computer and Information Science V P (3-7 cr) T-61.6060 Special Course in Computer and Information Science VI P (3-7 cr) T-61.6070 Special Course in Bioinformatics I P (3-7 cr) T-61.6080 Special Course in Bioinformatics II P (3-7 cr) T-61.6090 Special Course in Language Technology P (37 cr) T-61.6900 Individual Studies P (1-10 cr) T-79.4001 Seminar on theoretical computer science (3 cr)
T-79.4002 Introduction to Advanced Computing Research (2 cr) T-79.4201 Search problems and algorithms (4 cr) T-79.4301 Parallel and distributed systems (4 cr) T-79.4501 Cryptography and data security (4 cr) T-79.5001 Student project in theoretical computer science (5 cr) T-79.5101 Advanced course in computational logic P (4 cr) T-79.5102 Special course in computational logic P (4 cr) T-79.5103 Computational complexity theory P (5 cr) T-79.5201 Discrete structures P (4 cr) T-79.5202 Combinatorial algorithms P (4 cr) T-79.5203 Graph theory P (5 cr) T-79.5204 Combinatorial models and stochastic algorithms P (6 cr) T-79.5301 Reactive systems P (4 cr) T-79.5302 Symbolic model checking P (4 cr) T-79.5304 Formal conformance testing P (4 cr) T-79.5305 Formal Methods P (4 cr) T-79.5501 Cryptology P (5 cr) T-79.5502 Advanced course in cryptology P (5 cr) T-79.7001 Postgraduate course in theoretical computer science P (2-10 cr) T-79.7002 Individual studies P (1-10 cr) T-79.7003 Research course in theoretical computer science P (1-10 cr) Department of Computer Science and Engineering Inf-0.4100 Information Networks: Studio X (5-8 cr) T-0.7050 Introduction to Postgraduate Studies in Computer Science P (2 cr) T-106.1003 IT Services at TKK (2 cr) T-106.1043 Information Technology - Basic Course (3 cr) T-106.1063 Information Technology - Laboratory Course (3 cr) T-106.5150 Operating Systems Project (5 cr) T-106.5300 Embedded Systems (5 cr) T-106.5600 Concurrent Programming P (5 cr) T-106.5820 Seminar on Distributed Systems P (3-10 cr) T-106.5840 Seminar on Embedded Systems P (3-10 cr) T-109.4300 Network Services Business Models (3 cr) T-109.5410 Technology Management in the Telecommunications Industry (3 cr) T-109.7510 Research Seminar on Telecommunications Business P (5 cr) T-109.7553 Individual Studies in Telecommunications Business P (2-15 cr) T-110.4206 Information Security Technology (3 cr) T-110.5100 Laboratory Works in Datacommunications Software (4 cr) T-110.5116 Computer Networks II - Advanced Features P (4 cr) T-110.5120 Next Generation Wireless Networks P (4 cr) T-110.5130 Mobile Systems Programming (5 cr) T-110.5140 Network Application Frameworks P (5 cr) T-110.5190 Seminar on Internetworking P (4 cr) T-110.5200 Laboratory Works on Information Security (4 cr) T-110.5211 Cryptosystems (4 cr)
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T-110.5220 Information Security and Usability (3 cr) T-110.5230 Special course in Practical Security of Information Systems P (4 cr) T-110.5290 Seminar on Network Security P (4 cr) T-110.5600 Introduction to Corporate Security (3 cr) T-110.6000 Internet and Computing Forum P (2 cr) T-110.6100 Special Assignment in Datacommunications Software P (2-10 cr) T-110.6110 Individual Studies in Datacommunications Software P (2-10 cr) T-110.6200 Special Assignment in Information Security P (2-10 cr) T-110.6210 Individual Studies in Information Security P (2-10 cr) T-110.6220 Special Course in Network Security (2-10 cr) T-110.7100 Applications and Services in Internet P (4 cr) T-110.7110 Internet Technologies for Mobile Computing P (4 cr) T-110.7190 Research Seminar on Datacommunications Software P (3-5 cr) T-110.7290 Research Seminar on Network Security P (4 cr) T-124.5400 Theoretical perspectives on business processes (4 cr) T-124.5700 Global Virtual Collaboration Project (3 cr) T-128.5540 Pricing and Positioning of Software P (4 cr) T-128.5720 Seminar in Software Business P (4-10 cr) T-128.5740 Special Assignment in Software Business P (3-10 cr) T-128.5780 Invidual Study in Software Business P (3-16 cr) T-76.3601 Introduction to Software Engineering (5 cr) T-76.5050 Methods for Software Engineering and Business Research P (3-5 cr) T-76.5145 Semantic Data Management (4 cr) T-76.5150 Software Architectures P (5 cr) T-76.5753 Law in Network Society (4-6 cr) T-76.5762 Legal Aspects of Service Management P (3 cr) T-76.5900 Software engineering learning portfolio (1 cr) T-86.5141 Enterprise Systems Architecture (4 cr) T-86.5161 Special Course in Information Systems Integration P (6-10 cr) T-86.5165 Seminar on Enterprise Information Systems P (3-8 cr) T-86.5273 Implementing Service-Oriented Architectures (2-6 cr) T-86.5310 ICT Enabled Service Business and Innovation (4-6 cr) T-86.5750 Seminar on Venturing in Digital Economy P (3 cr) Department of Industrial Engineering and Management TU-0.2000 Industrial management research methods (5 cr) TU-0.3000 Research Methods in Industrial Management I (for postgraduate students) P (5 cr) TU-117.1503 Special Assignment on Development and Management in Industry P (5 cr) TU-117.1509 Master’s Thesis Seminar on Development and Management in Industry (2 cr)
TU-117.1512 Varying Course on Development and Management in Industry P (1-6 cr) TU-117.1550 Competitiveness of industrial enterprise (5 cr) TU-22.1113 Design of Production Systems A (6 cr) TU-22.1115 Design of Production Systems B (4 cr) TU-22.1135 Cost Management in Paper Industries (3 cr) TU-22.1140 Advanced Management Accounting (5 cr) TU-22.1160 Business Game (1-2 cr) TU-22.1179 Production Planning and Control (5 cr) TU-22.1193 Research Methods in Industrial Management II (for postgraduate students) P (5 cr) TU-22.1194 Studies in Supplementary Field, short version P (10 cr) TU-22.1195 Studies in Supplementary Field; Industrial Management L (20 cr) TU-22.1196 Advanced Organization Theory (for postgraduate students) L (5 cr) TU-22.1197 Statistical Research Methods I (for postgraduate students) L (3 cr) TU-22.1198 Statistical Research Methods II (for postgraduate students) L (2 cr) TU-22.1214 Demand-Supply Network Management P (5 cr) TU-22.1302 Quality Management (3 cr) TU-22.1307 Introduction to Services P (4 cr) TU-22.1425 Advanced Project-based Management P (3 cr) TU-22.1426 Advanced Project-based Management II L (5 cr) TU-22.1432 Management of Uncertainty L (5 cr) TU-22.1439 Project Finance L (6 cr) TU-22.1440 Project Marketing and Customer Management (3 cr) TU-22.1441 Project Marketing and Customer Management II P (5 cr) TU-53.1010 Basics of Work Psychology and Leadership (4 cr) TU-53.1030 Knowledge and competence management (3 cr) TU-53.1310 Advanced course on knowledge and competence management P (4 cr) TU-53.1320 Organizations and Networks P (4 cr) TU-53.1360 Cross-Cultural Management (3 cr) TU-53.1390 Contemporary topics on knowledge and competence management P (3-6 cr) TU-53.1560 Research Methods in Industrial Management II (for post-graduate students) P (5 cr) TU-53.1610 Orientation to Team-based Design Innovation (5 cr) TU-53.1612 Global Team-based Design Innovation I (10 cr) TU-53.1614 Global Team-based Design Innovation II (10 cr) TU-91.1003 Principles of Strategic Management (3-4 cr) TU-91.1006 ESTIEM Vision Seminar and Summer Academy (1-2 cr) TU-91.1007 Principles of International Business (5 cr) TU-91.1009 Marketing Exercises (3 cr) TU-91.2003 New Venture Development I (3 cr) TU-91.2004 Advanced Strategic Management (5 cr)
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TU-91.2005 Strategic Management of Technology and Innovation (5 cr) TU-91.2006 Strategic Marketing L (5 cr) TU-91.2008 New Venture Development II: Business Plan (5 cr) TU-91.2009 Entrepreneurial Finance (5 cr) TU-91.2010 Managerial Economics (5 cr) TU-91.2011 International Economics (3-5 cr) TU-91.2012 Elective Studies in Economics (1-8 cr) TU-91.2013 Economics of European Integration (3 cr) TU-91.2015 Advanced Case-Seminar in Strategy (3-5 cr) TU-91.2017 Advanced Financial Modeling L (3 cr) TU-91.2018 Industry Evolution (5 cr) TU-91.2019 Strategic Leadership (5 cr) TU-91.2022 Contracting in Venture Capital and M&As L (2 cr) TU-91.2024 Developing Global Leadership Talent (5 cr) TU-91.2025 Advanced International Business (5 cr) TU-91.2030 Special Study in Business Strategy and International Business (5 cr) TU-91.2031 Sales Management P (3 cr) TU-91.2032 Sales Management Assignment (3 cr) TU-91.2033 Creative Entrepreneurship Bootcamp (2 cr) TU-91.2034 Managing Growth (3-5 cr) TU-91.3002 Research Methods in Industrial Management II P (5 cr) TU-91.3003 Postgraduate Course in Corporate Finance P (6-12 cr) TU-91.3007 Postgraduate Course in Strategy P (12 cr) TU-91.3008 Research Colloquim P (5 cr) TU-91.3009 Studies in supplementary field: Strategy and International Business P (12 cr) Language Centre Kie-98.1111 Talking Technology (2 cr) Kie-98.1112 Writning in Technology (2 cr) Kie-98.1209 Pronounce Clearly (1 cr) Kie-98.1211 Speak Confidently (1 cr) Kie-98.1213 Activate your English (2 cr) Kie-98.1215 Read Effectively (2 cr) Kie-98.1401 Job Search (1 cr) Kie-98.1402 Business Messages (2 cr) Kie-98.1405 Intercultural Communication (2 cr) Kie-98.1500 Thesis Writing P (2 cr) Kie-98.1600 English Reading/Writing Test (1 cr) Kie-98.1601 English Oral Skills Test (2 cr) Kie-98.2011 Spanish 1A (2 cr) Kie-98.2012 Spanish 1B (2 cr) Kie-98.5911 Swedish for International Students (2 cr) Kie-98.7011 Finnish 1A (2 cr) Kie-98.7012 Finnish 1B (2 cr) Vie-98.1220 Speech Communication (2 cr) Vie-98.1222 Cultures and Communication (2 cr) Faculty of Engineering and Architecture Department of Architecture A-112.2501 Wood in Architecture and Construction (3-6 cr) A-112.2700 Wood Construction - course with varying content (8-10 cr)
A-112.2800 Wood Construction, intensive course (3-15 cr) A-112.3610 Wood Program, special project P (10-15 cr) A-27.1501 History of Wood Architecture in Finland (3-15 cr) A-27.1510 History of Finnish Architecture (2-5 cr) A-36.3321 European Metropolitan Planning P (5 cr) A-36.3322 Local Development and Globalisation P (10 cr) A-36.3330 Urban Renewal Studio (10 cr) A-36.3353 Planning Theory P (5 cr) A-36.3501 City in Crisis I (3 cr) A-36.3502 City in Crisis II (7 cr) A-52.2320 Housing Design Studio (10 cr) A-60.2239 Visual Arts 3 A (4 cr) A-8.1521 Contemporary Finnish Architecture (1 cr) A-8.2310 Public Buildings, studio (10 cr) A-9.1151 IT 1 Introduction to Architectural IT (1 cr) A-9.2351 Building Structures, special project (2-12 cr) MA-94.2392 Landscape Design, course with varying content (3-6 cr) Department of Energy Technology Ene-39.4006 New Energy Production Processes P (5 cr) Ene-39.4053 Postgraduate Seminar on Energy Technology P (2-5 cr) Ene-39.4055 Irreversible Thermodynamics P (5 cr) Ene-47.5120 Combustion and Gasification Technology I P (3 cr) Ene-47.5121 Combustion and Gasification Technology II P (3 cr) Ene-47.5122 Pollutant Formation and Control in Combustion P (3 cr) Ene-47.5200 Postgraduate Course on Energy Engineering P (4-7 cr) Ene-58.5152 Postgraduate Seminar in HVAC P (4-8 cr) Department of Engineering Design and Production Kon-41.4001 Product Development (5 cr) Kon-41.4002 Product Development Project (10 cr) Kon-41.4008 Orientation to Team-based Design Innovation (5 cr) Kon-41.4009 Global Team-based Design Innovation I (10 cr) Kon-41.4010 Global Team-based Design Innovation II (10 cr) Kon-41.4102 Special Course on Product Development Project Management (2 cr) Kon-41.5216 Postgraduate Seminar on Product Development P (5 cr) Department of Surveying Maa-123.1310 Theories and Techniques of Geoinformatics (7 cr) Maa-123.1320 Geoinformatics for Real Estate Economics (5 cr) Maa-123.1330 Supplementary Course in Geoinformatics (2 cr) Maa-123.2340 Spatial Data Algorithms (6 cr) Maa-123.2441 GIS Software Development (3-5 cr)
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Maa-123.3410 Fuzzy Modeling of Geographic Information (4 cr) Maa-123.3430 Visualisation of Geographic Information P (5 cr) Maa-123.3450 Hydrography P (2 cr) Maa-123.3460 Topographic Maps P (6 cr) Maa-123.3470 Web Map Project P (3 cr) Maa-123.3490 Seminar on Cartography P (4 cr) Maa-123.3510 GIS Analysis and Modelling P (5 cr) Maa-123.3520 Principles of Geostatistics P (3 cr) Maa-123.3530 Visual Analysis in GIS P (4 cr) Maa-123.3550 GIS Application Development L (8 cr) Maa-123.3560 Uncertainty in Geographic Information P (4 cr) Maa-123.3570 Geosimulation P (4 cr) Maa-123.3580 Spatial Data Mining P (4 cr) Maa-123.3590 Seminar on Geoinformatics P (4 cr) Maa-20.3317 Urban Planning and Development P (4 cr) Maa-20.3341 Real Estate Investment Analysis P (4-8 cr) Maa-20.3342 Analysis of Real Estate Assets P (4 cr) Maa-20.3365 Corporate Real Estate Management (7-8 cr) Maa-20.3367 Facility Management P (6 cr) Maa-20.3375 International Land Management P (6 cr) Maa-20.3380 European Challenge (5-10 cr) Maa-20.3381 Real Estate Entrepreneurship (5 cr) Maa-20.3387 Seminars in Real Estate P (5-10 cr) Maa-20.3390 Seminar on Real Estate Management P (5 cr) Maa-20.3391 Real Estate Management, special topics P (5 cr) Maa-20.4620 Postgraduate Education in Real Estate and Facilities Management P (1-10 cr) Maa-20.4630 Real Estate Development P (4 cr) Maa-20.4640 Scientific Writing P (2 cr) Maa-20.4650 Research Methodology P (8 cr) Maa-20.4651 Research Methodology II P (8 cr) Maa-20.4660 Research Project Management P (5 cr) Maa-20.4670 Research Seminar in Real Estate P (1-10 cr) Maa-29.3381 Jurisprudence P (3-12 cr) Maa-29.3382 Law, special assignment P (5-12 cr) Maa-29.3383 Seminar on Economic and Environmental Law, advanced studies (2-5 cr) Maa-29.3385 Environmental Law and Policy - Analysis for Business Opportunities P (2-6 cr) Maa-29.4391 Postgraduate Seminar on Law P (2-12 cr) Maa-57.3200 Radar Remote Sensing P (3 cr) Maa-57.3210 Data Classification and Modelling in Remote Sensing P (4 cr) Maa-57.3220 Remote Sensing Assignment P (9 cr) Maa-57.4010 Postgraduate Seminar on Photogrammetry, Photo-interpretation and Remote Sensing P (2-6 cr) Maa-57.4020 Research Seminar on Photogrammetry, Photo-interpretation and Remote Sensing P (3 cr) Maa-57.4030 Exercise in Imaging Technology P (7 cr) Maa-6.3254 Navigation and positioning Seminar P (3 cr) Maa-6.3280 GIS and Geodetic Measurements P (2 cr) Maa-6.3285 Navigation Methods P (3 cr) Maa-6.3286 GNSS-technologies P (3 cr) Maa-6.3401 Project Assignment (2-5 cr)
Maa-6.4299 Geodesy Postgraduate Seminar 1 P (1-6 cr) Maa-123.520 Special Assignment in Geoinformation Technique (5 ocr) Maa-123.530 Special Assignment in Cartography (5 ocr) Maa-6.290 Special Study in Geodesy (5 ocr) Department of Structural Engineering and Building Technology Rak-11.3000 Bridges, General Course (4 cr) Rak-11.3100 Load-Carrying Structures I (4 cr) Rak-11.3200 Bridges, Special Course (4 cr) Rak-11.3300 Bridge Design Exercise (4 cr) Rak-11.3400 Load-Carrying Structures II P (4 cr) Rak-11.3500 Bridge Engineering, Special Assignment P (4-8 cr) Rak-11.4600 Licentiate Seminar in Bridge Engineering P (4-8 cr) Rak-63.3200 Information Technology in Construction (3 cr) Rak-63.3310 Cases in International Construction Business P (4 cr) Rak-63.3320 Strategies in International Construction P (6 cr) Rak-63.3330 Operations in International Construction Business P (5 cr) Rak-63.3340 Special Assignment in International Construction Business P (5 cr) Rak-63.3351 Quality Management of Projects P (4-8 cr) Rak-63.3352 Management of Project Business P (4-8 cr) Rak-63.4290 Postgraduate Seminar in Construction Management and Economics P (3-5 cr) Rak-63.4291 Postgraduate Course in Construction Contracting P (5-10 cr) Rak-63.4292 Postgraduate Course in Design Economy and Maintenance Management of Buildings P (5-10 cr) Rak-63.4293 Postgraduate Course in Construction Project Management P (5-10 cr) Rak-63.4294 Postgraduate Course in Management of Contractors and Internationalization P (5-10 cr) Rak-63.4295 Postgraduate Special Assignment in Construction Management and Economics P (5-10 cr) Rak-82.2121 Production Technology of Concrete Structures (4 cr) Rak-82.3152 Building Materials Technology, special assignment (6-10 cr) Department of Applied Mechanics Kul-24.3710 Potential Flow Theory for Lifting Surfaces (3 cr) Kul-24.4510 Optimization of Structures P (5 cr) Kul-34.4551 Postgraduate Seminar in Fluid Mechanics P (2-5 cr) Kul-34.4552 Postgraduate Seminar on Computational Fluid Mechanics P (2-5 cr)
Faculty of Chemistry and Materials Sciences Department of Biotechnology and Chemical Technology
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KE-100.2610 Laboratory Exercises of Polymer Technology, short course (2 cr) KE-100.3320 Laboratory Exercises of Polymer Technology, extencive course (5 cr) KE-100.5020 Special Study in Polymer Technology (4-7 cr) KE-107.3100 Process Simulation (3 cr) KE-107.4000 Process Safety (3 cr) KE-107.4300 Process Design I (3 cr) KE-107.5500 Plant design II (8 cr) KE-107.5510 Plant design II B (6 cr) KE-107.6000 Special Course in Plant Design P (1-5 cr) KE-107.6010 Special Study in Plant Design P (1-7 cr) KE-40.4015 Special Course in Catalysis (6 cr) KE-40.4140 Environmental Catalysis (5 cr) KE-40.4525 Industrial chemistry seminar course (4 cr) KE-40.6000 Biofuels P (5 cr) KE-40.6020 Scale-up of Chemical Processes P (5 cr) KE-42.4120 Process Development P (4 cr) KE-42.4520 Process Modelling - methods and tools (5 cr) KE-42.5510 Physical Properties in Chemical Engineering P (5 cr) KE-42.6000 Chemical Engineering Licenciate Seminar P (3-6 cr) KE-42.6010 Distillation Design P (4 cr) KE-42.6500 Unit Operations of Environmental Technology P (4 cr) KE-90.2500 Basics in production planning and control (6 cr) KE-90.3100 Process modelling and simulation (6 cr) KE-90.3500 Process modelling and simulation in practice (3 cr) KE-90.4100 Production planning in practice (4 cr) KE-90.4110 Information technology in process automation (3 cr) KE-90.4500 Project work in process automation (3 cr) KE-90.4510 Control applications in process industries (6 cr) KE-90.5100 Process monitoring (4 cr) Department of Chemistry KE-31.4120 The Computational Methods of Physical Chemistry (4 cr) KE-31.4540 Special Topics in Electrochemistry P (2 cr) KE-31.5120 Special Course in Statistical Thermodynamics P (4 cr) KE-31.5130 Nanothermodynamics P (2 cr) KE-35.5000 Seminar on Chemical Analysis Technique P (4 cr) KE-35.6000 Research Study on Analysis Technique P (6 cr) KE-35.6500 Systematic Material Design P (2 cr) Kem-31.154 Research Seminar on Physical Chemistry (P) (0-3 ocr) Department of Materials Science and Engineering MT-0.4717 Computational Fluid Dynamics - Theory and Applications L (5 cr) Forest Prducts Technology Courses credited in ECTS
Puu-0.1007 Work Safety (0 cr) Puu-0.4000 Master's Thesis in English (2 cr) Puu-0.5000 Economics of Forest Products Industry (4 cr) Puu-19.1010 Laboratory Exercises in Forest Products Chemistry (2 cr) Puu-19.3000 Chemistry of Pulping and Bleaching (5 cr) Puu-19.3010 Chemistry of Papermaking (4 cr) Puu-19.4000 Chemical Analysis in Pulp and Paper Industries (4 cr) Puu-19.4010 Chemical Characterisation of Wood and Paper Products (4 cr) Puu-19.4020 Surface Chemistry and Nanotechnology in Forest Products Technology (3-4 cr) Puu-19.4030 Advanced Surface and Colloid Chemistry in Forest Products Technology (4 cr) Puu-19.4040 Forest Products Chemistry, laboratory course (4 cr) Puu-19.4050 Forest Products Chemistry, literature course (4 cr) Puu-19.5000 Forest Products Chemistry (4 cr) Puu-19.6000 Chemistry of Forest Products Technology, postgraduate seminar (2 cr) P Puu-21.3000 Coating Technology (5 cr) Puu-21.3010 Fibre and Paper Physics (5 cr) Puu-21.3020 Basics of Printing Technology (4 cr) Puu-21.3030 Recycled fibres and deinked pulps (2 cr) Puu-21.4000 Mechanical Pulping (4 cr) Puu-21.4010 Paper Manufacturing Technology (5 cr) Puu-21.4020 Paper Chemistry (4 cr) Puu-21.4030 Paper Technology, laboratory course (7 cr) Puu-21.4050 Paper Converting Technology (7 cr) Puu-21.4060 Packaging Technology (5 cr) Puu-21.4070 Paper Converting Technology, laboratory course (8 cr) Puu-21.4100 Printing Machines and Materials (8 cr) Puu-21.4110 Printability and Runnability (5 cr) Puu-21.4120 Printing Technology, Laboratory Course (7 cr) Puu-21.6000 Postgraduate Seminar on Paper Technology (2-5 cr) P Puu-21.9000 Introduction to Pulp and Paper Industry (2 cr) Puu-23.3000 Chemical Engineering in Pulp and Paper Processes (6 cr) Puu-23.3010 High Yield Pulping (3 cr) Puu-23.3020 Pulping Process Exercises (3 cr) Puu-23.4000 Pulp Mill Fibre Line Processes (5 cr) Puu-23.4010 Pulp Mill Chemicals Recovery and Energy Processes (5 cr) Puu-23.4020 Modelling and Simulation of Pulp Washing and Chemical Cycle (3 cr) Puu-23.4030 Pulping Technology Research Project (7 cr) Puu-23.5000 Planning and Execution of Pulp and Paper Investment Project (3 cr) Puu-28.1000 Introduction to Wood Technology (3-7 cr) Puu-28.3000 Moisture Content and the Drying of Wood (4 cr) Puu-28.3010 Wood Product Industry Production Processes (4 cr) Puu-28.3020 Wood Product Markets (2 cr)
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Puu-28.3030 Wood Bonding (4 cr) Puu-28.3040 Wood Coating (2 cr) Puu-28.3050 Wooden Structure Joints (4 cr) P Puu-28.4001 Wood Modification (3 cr) P Puu-28.4011 Production Process Analyses (3 cr) Puu-28.4020 Production Investment Planning (4 cr) Puu-28.4040 Developing Competitive Wood Products (4 cr) P Puu-28.4050 Marketing Wood Products (2 cr) Puu-28.4060 Advanced Biocomposites (4 cr) P Puu-28.5000 Introduction to Wood Properties and Wood products (3 cr) Puu-28.5005 Wood Properties and Wood products - case study (1-2 cr) Puu-28.5010 Industrial Wood Construction (3 cr) Puu-28.5040 Integrated Interior Wooden Surfaces (4 cr) P Puu-28.5050 Interactive Industrial Wood Construction (2 - 8 cr) P Puu-28.6010 Mathematical Methods in Wood Product Industry (3-8 cr) P V Puu-28.6020 Project Work in Wood Technology (2-10 cr) P V Puu-28.C Course with Varying Content (1-10 cr) Puu-127.4010 Environmental Management (2 cr) Puu-127.4020 Process Water Treatment (3 cr) Puu-127.4030 Process Water Analysis (2 cr) Puu-127.4040 Environmental Technology in the Pulp and Paper Industry (4 cr) P Puu-127.4050 Special Study in Environmental Technology (4 cr) Puu-127.5000 Control of Regional and Global Environmen¬tal Impacts (3 cr) Puu-127.9000 Environmental Technology in the Pulp and Paper Industry LP1 (3 cr) Courses part of Linkage Program 1 Puu-23.9001 Pulping Technology (4 cr) Puu-23.9010 Project Work (4 cr) Courses credited in ocr Puu-19.134 Chemistry of Forest Products Technology, labora¬tory course (8 ocr) Puu-21.108 Paper Technology, laboratory course (5 ocr) Puu-21.113 Paper Technology, extensive laboratory course (7 ocr) Puu-21.159 Paper Converting Technology, laboratory course (5 ocr) Puu-23.110 Pulping Processes, laboratory course (4 ocr) Puu-23.111 Pulping Processes, advanced laboratory course (6,5 ocr) Puu-127.295 Postgraduate Seminar on Environmental Technology (3-7 ocr) P Puu-127.297 Individual Postgraduate Studies in Environmental Technology (1-5 ocr) P V Puu-127.299 Environmental Technology, Literature (1-7 ocr) P V Courses part of Linkage Program 1: Puu-21.216 Paper Physics (2 ocr) Puu-21.217 Paper Chemistry (3 ocr) Puu-21.218 Paper Technology (3 ocr) Puu-21.219 Paper Coating (2 ocr)
Puu-21.220 Industrial Economics and Production Management (3 ocr) Puu-21.225 Converting Technology (2 ocr) Puu-21.230 Measurements and Analysis of Pulp and Papermaking Processes (2 ocr)
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FACULTY OF ELECTRONICS, COMMUNICATIONS AND AUTOMATION http://sahko.tkk.fi/en/ Degree programme of Automation and Systems Technology Planning Officer Ms Anja Hänninen International Study Adviser
[email protected] Degree Programme of Communications Engineering Degree Programme of Electronics and Electrical Engineering Degree Programme of Bioinformation Technology Planning Officer Ms Anita Bisi Planning Officer Ms Johanna Mattila International Study Adviser
[email protected]
Department of Automation and Systems Technology AS-0.1101 Basic Course in C programming (4 cr) Spring (III-IV) Lecturer: Raimo Nikkilä, M.Sc.(Tech.) Contents: Basic concepts of high standard programming languages, adjustment model and implementation techniques. Basics of programming C. Exercises, which consist of programming in C. Requirements: Exercises and exam. Literature: Announced later. Prerequisites: T-106.1203/T-106.1206. Additional information: Replaces the course AS-0.101. Exercises and exam in English. Language: Lectures in Finnish. AS-0.1102 C/C++ programming (4 cr) Autumn (I-II) Lecturer: Raimo Nikkilä, M.Sc.(Tech.) Contents: Basic concepts of high standard programming languages, adjustment model and implementation techniques, programming tools, programming as group work. Assignments consist of programming in C++ in Unix environment. Requirements: Assignments and exam. Literature: Announced later. Prerequisites: AS-0.1101 or T-106.3100 Additional information: Assignments and exam in English. Language: Lectures in Finnish. AS-0.1110 XML-Based Description Languages (3 cr) Autumn (I-II) Lecturer: Tomi Kauppinen M.Phil. Contents: The course deals with description languages and especially XML (eXtensible Mark-Up Language) family’s description languages.
Requirements: Examination and exercise work. Literature: The textbook will be announced later. In addition, lecture notes and other material. Prerequisites: T-106.1003/T-106.003 and T-106.1203/T106.213 or T-106.1206/T-106.216. Additional information: Replaces the course AS-0.110. Language: Finnish. Individual study in English possible. Language: Finnish AS-0.1400 Automation and Media Technology at Work (1 cr) AS-0.2230 Laboratory Exercises in Control and Automation Engineering (2-6 cr) AS-0.3100 Seminar in Automation and Systems Technology (3 cr) Autumn, Spring (I-II, III-IV) Lecturer: Prof. Aarne Halme, prof. Heikki Hyötyniemi, prof. Kari Koskinen, prof. Heikki Koivo, prof. Robert Tenno, prof. Arto Visala Contents: This master-level seminar is obligatory in all Level 3 modules of Automation and systems engineering. The students prepare and give the first presentation based on the theory and methodology part of their master’s thesis. That takes place in the intermediate phase of the thesis work. The second presentation is the required master degree presentation given by the student in the final stage of the thesis work. Alternatively, if the student has not started the master thesis or if it is in a very preliminary state, the student can prepare and have the seminar presentation on some other interesting topic related to automation and systems engineering. The topic must then be approved by the supervising professor. From the academic year 2008-2009 on all master degree presentations will be given in this seminar. Seminar
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sessions are open to everyone. Objective: The students learn to focus on essential points in their diploma thesis work by giving short presentations to others and by getting immediate feedback from them. In the whole AS-department information exchange and openness increase at the same time. Prerequisites: Master level studies in final phase. Substitutive: Korvaa kurssit AS-74.3345, AS-84.3400 ja AS-116.3150 Additional information: The www-pages of the course. Main language is Finnish, but the presentations can be given also in Swedish or English. Language: Finnish. AS-0.3200 Project Works in Automation and Systems Technology (2-9 cr) Autumn, Spring (I-II, III-IV) Lecturer: Ilkka Leppänen D.Sc. (Tech.), Mika Strömman M.Sc.(Tech.), Kai Zenger D.Sc.(Tech.), Matti Öhman M.Sc.(Tech.) Contents: Small research projects from different fields of automation. The topic of each project work range from general automation technology to control engineering and information technology in automation. Each work is performed individually or in small project groups. Each group receives a problem during the opening lecture of the course and reports its progress regularly both literally and by giving short presentations. The work must be finished within a given time period. Objective: After finishing the course the student has done a small-scale project related to the automation field. He / she is familiar with the particular application studied, working in a project, group work and project presentations. Requirements: Project plan, intermediate reports and presentations, final report, project presentation. Prerequisites: Basic knowledge of automation, control engineering and computer technology. Substitutive: Replaces the courses AS-74.3220, AS84.3284, AS-116.3130. Additional information: It is possible to do the project and reports in Finnish, Swedish or English. Language: Finnish. AS-116.1100 Manufacturing Automation (4 cr) AS-116.2120 Information Technology Applications in Automation (5 cr) Autumn (I-II) Lecturer: Pekka Aarnio, Lic.Sc. (Tech.) Contents: Basic concepts of real-time embedded systems. Processors, operating systems and buses used in machine and equipment control (for example CAN-bus). Basic architectures of microprocessors, microcontrollers and FPGA-chips. Design and realization methods with proper tools supporting real-time, embedded control programs. Assignment work. Literature: Lecture notes. Prerequisites: Basic knowledge of automation and control engineering. Basic knowledge of computer sciences.
Additional information: Replaces the course AS-116.120. Individual study in English possible. Language: Finnish. AS-116.3110 Information Systems in Manufacturing Industries (4 cr) AS-116.3160 Discrete Event Simulation P (3 cr) Autumn (I-II) Lecturer: Pekka Korpiharju, Lic.Sc. (Tech.) Contents: Use of discrete event simulation and operation principles. Simulation of production systems, logistics chains and service systems. Steps of simulation project. Data acquisition and modelling. Modelling, generating and using random numbers. Verification and validation. Analysis of simulation results. Simulation programs. Virtual prototyping. Future of simulation techniques. Course work. Literature: Handouts Prerequisites: Basic knowledge of statistics. Additional information: Replaces the course AS-116.160. Course material available in English. Individual study in English possible. Language: Finnish. AS-116.3170 Software Components in Automation P (3 cr) AS-116.3180 Dependability of programmable control systems P (3 cr) AS-116.3190 Information Technology for Extended Products P (4 cr) AS-116.3200 Modelling of Real-time Systems with Object Oriented Modelling Language P (3 cr) Spring (III) Lecturer: Pekka Aarnio, Lic.Sc (Tech.) Contents: Modelling real-time software and embedded systems in automation domain using object oriented UML-notation (Unified Modeling Language). The structure, real-time extensions and profiles of UML (e.g. real -time profile ). Design Patterns and their applications in architecture and detailed design of real-time systems. Automatic executable code generation from UMLmodel. Requirements: Examination and exercises. Literature: Lecture notes Prerequisites: UML basics, AS-116.120/2120. Additional information: Replaces the course AS-116.200. Individual study in English possible. Language: Finnish. AS-116.4140 Postgraduate Seminar on Information Technology in Automation P (4-8 cr) Autumn + Spring (I-II, III-IV) Lecturer: Prof Kari Koskinen Contents: Different kinds of technological and methodological subjects of current interest will be studied. Topics vary yearly. Requirements: Students prepare reports and give seminar
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presentations about selected topics. Active participation in the seminar lectures and working as an opponent is necessary. Assignment work, making and solving exercises. Literature: Will be announced later. Additional information: Replaces the course AS-116.140. Language: Finnish, English on demand. Language: Finnish. AS-74.1101 Computer Simulation (3 cr) Autumn (I-II) Lecturer: Prof Heikki Koivo Contents: Computer simulation of dynamic systems. Difficulties in digital simulation: time delay, tables, discontinuity, stiff systems. Linearization, optimisation in simulation, examples of technical and ecological system simulation. Examples of commercial simulation software. Lectures and tutorials are held in microcomputer class. Simulation tool: Matlab/Simulink. Requirements: Kirjallinen tentti ja/tai hyväksytyt harjoitustyöt. Literature: Lecture notes. Prerequisites: Basic courses in physics and mathematics. Additional information: Replaces the course AS-74.101. Individual study in English possible. Language: Finnish. AS-74.1102 Basic Mathematics for Control Theory (2 cr) AS-74.1106 Introduction to Matlab Software 1 (1 cr) Autumn & Spring (I, III) Lecturer: Lasse Eriksson, Lic.Sc.(Tech.) Contents: The course provides a basic knowledge of Matlab software to be used as a computing tool especially in automation and control engineering applications. Basic calculations, functions, plots, Matlab programming. The course is intended primarily for students who have never used Matlab. Requirements: Exercises. Literature: Parts of William J. Palm III: Introduction to Matlab 6 for engineers, 2001. Prerequisites: No prerequisites Additional information: Replaces the course AS-74.106. Language: Finnish, English. Language: Finnish. AS-74.1107 Introduction to Matlab Software 2 (1 cr) Autumn & Spring (II, IV) Lecturer: Lasse Eriksson, Lic.Sc.(Tech.) Contents: Efficient use of Matlab software in automation and control engineering applications. Versatile use of data structures, plots, Matlab programming, examples of Matlab functions and use of toolboxes. The course is intended for students who have a basic knowledge of Matlab. The objective of the course is to gain a deeper understanding of Matlab. Requirements: Exercises. Literature: Parts of William J. Palm III: Introduction to Matlab 6 for engineers, 2001. Prerequisites: AS-74.1106/106 or corresponding
background knowledge of Matlab. Additional information: Replaces the course AS-74.107. All study material and personal guidance provided also in English. Language: Finnish. AS-74.1119 Automation in Pulp and Paper Processes (4 cr) Not lectured in 2008-2009 Lecturer: Prof. Heikki Koivo Contents: The course is a part of the Linkage program. Introduction to feedback control, modelling and simulation of typical processes. The most common control tasks in industrial paper mills are covered. Consistency control, head-box control, CD control. Objective: The student will learn to understand the basics of control and automation. He learns to understand the control principles of basic pulp and paper processes. Literature: Lecture notes and articles. Prerequisites: Sufficient knowledge of basic mathematics and physics. This course is part of Linkage Programme 1 Substitutive: Replaces the course AS-74.1118. Language: English AS-74.2111 Analogue Control (3 cr) Spring (III-IV) Lecturer: Jean-Peter Ylén, D.Sc. (Tech.) Contents: Fundamentals of analogue control. Dynamical systems. Frequency domain models. State space models. Design and analysis of control systems. In tutorial Matlab/Control System Toolbox is used. Literature: P.H. Lewis, C. Yang: Basic Control Systems Engineering, Prentice-Hall 1997. Handouts. Prerequisites: A basic course in automation and control. Recommended AS-74.101/1101, AS-74.102/1102. Additional information: Replaces the course AS-74.111. Individual study in English possible. Language: Finnish. AS-74.2112 Digital Control (3 cr) Autumn (I-II) Lecturer: Kai Zenger, D.Sc.(Tech.) Contents: Fundamentals of digital control. Theory of sampling. Connections between continuous and discrete models. Discrete control algorithms. Discrete PID control. Disturbances and their compensation. Literature: Lecture notes, courses homepages and internet-course. Prerequisites: AS-74.111/2111. Recommended AS74.101/1101, AS-74.102/1102. Additional information: Replaces the course AS-74.112. Course material available in English. Language: Finnish. AS-74.2400 System Dynamics (4 cr) Autumn (I-II) Lecturer: Jean-Peter Ylén, D.Sc.(Tech.) Contents: The objective of the course is to give the knowledge needed to identify, model and understand different economical, social and technical systems. The
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basics of analysis, modeling and control of dynamic systems are treated. Validating dynamic models are further discussed and application examples presented. Requirements: Examination and project work. Literature: John. D. Sterman: Business Dynamics Systems Thinking and Modeling for a Complex World, McGraw -Hill. Prerequisites: Basic courses in mathematics. Additional information: Replaces the course AS-74.400. Individual study in English possible. Language: Finnish. AS-74.3100 Dynamic Systems (3 cr) Autumn (I-II) Lecturer: Robert Tenno, D.Sc.(Tech.) Contents: Basics of dynamic modelling. Physical analogies, mechanical systems. Model transforms and approximations. Partial differential equation systems. Simulation and basics of identification methods. Literature: Lecture notes. Prerequisites: Basic courses in physics and mathematics. Additional information: Replaces the course AS-74.100. Individual study in English possible. Language: Finnish. AS-74.3114 Computer Modelling P (5 cr) Spring (III-IV) Lecturer: Jean-Peter Ylén, D.Sc.(Tech.) Contents: Basics of modelling and identification, modelling of discrete systems in time and frequency domains, recursive identification. A large part of the course is reserved for computer exercises during which identification methods are applied to practice. Requirements: Exercises and final exam. Literature: Lecture notes. Prerequisites: Basics of automation and control engineering. Additional information: Replaces the course AS-74.114. Language: English on demand. Language: Finnish. AS-74.3115 Neural Nets and Fuzzy Computing in Automation P (3 cr) Spring (III-IV) Lecturer: Prof Heikki Koivo Contents: Basics of neural computing and fuzzy logic. Fuzzy control. Industrial applications of fuzzy logic and neural networks. Neuro-fuzzy computing. Matlab/Fuzzy Logic Toolbox and neural Network Toolbox are used in tutorials. Objective: The student will learn to understand the basics of neural nets and fuzzy systems and their use in context of dynamical systems. He can design neural networks and fuzzy systems with the aid of software packages. He can apply them in fault diagnosis and control design. Requirements: Exam and assignments. Literature: Lecture notes. All lecture material is in the net. Prerequisites: AS-74.111/2111, AS-74.112/2112. Additional information: Replaces the course AS-74.115.
Language: English. AS-74.3123 Model-based Control Systems P (4 cr) Autumn (I-II) Lecturer: Kai Zenger, D.Sc.(Tech.) Contents: Model-based control methods: multivariable control, optimal control, nonlinear control, robust control. Objective: The student understands the use of advanced modeling and analysis methods of control engineering both in single input-single output and multivariable case. He / she masters the basics of the optimal control in the deterministic and stochastic case. Requirements: Assignment and exam. Literature: Glad, Ljung. 2000. Control Theory, Multivariable and Nonlinear Methods. Taylor and Francis. Prerequisites: AS-74.111/2111, AS-74.112/2112. Additional information: Replaces the course AS-74.123. Language: English. AS-74.3135 Servomechanisms (3 cr) Spring (III-IV) Lecturer: Prof Heikki Koivo Contents: DC and AC servomechanisms and their combinations. Electro hydraulic servomechanisms. Use of computers and probes in servomechanics. Different control algorithms. Basics of microsystems. Requirements: Exercises. Literature: Lecture notes. Prerequisites: Basic course in control engineering. Additional information: Replaces the course AS-74.135. Language: English. AS-74.3136 Introduction to Microsystems (3 cr) Spring (III-IV) Lecturer: Prof Heikki Koivo Contents: Microsystem components. Microsystems. Modelling, simulation and control of microsystems. Examples of microsystems. Objective: The objective of the course is to give an overview of microsystem technology. Students will learn general concepts as well as important aspects including physics in the microworld, microfabrication, microsensors, microactuators, microassembly and microrobotics. Requirements: Final exam and seminar presentation, possibly individual project work. Literature: Lecture notes, parts of book Fatikow, S., Rembold, U.: Microsystem Technology and Microrobotics, Springer 1997. Prerequisites: Two years of basic studies. For example courses AS-84.1128/128, AS-84.132/1132 or AS74.111/2111/AS-74.112/2112. Additional information: Replaces the course AS-74.136. Language: English. AS-74.3178 Micro- and Nanorobotics P (4 cr) Autumn (I-II) Lecturer: Dr. Quan Zhou Contents: Micro- and nanorobotics is a rapidly advancing
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technology emerged at the beginning of last decade that is important for both scientific research and new industry applications. The interdisciplinary course covers the various aspects of micro- and nanorobotics, from essential sensors and actuators, to design, construction, analysis and control of micro- and nanorobots, as well as related physics and applications of micro- and nanorobotics. Requirements: Examination and homework exercises Prerequisites: AS-74.3136 Introduction to Microsystems or equivalent. Language: English AS-74.3179 Modelling and Control of Processes Dependent on Time and Spatial Coordinates P (5 cr) Spring (III-IV) Lecturer: Prof. Robert Tenno Contents: Modelling field problems (distributed paprameter problems, PDEs), mass and heat transfer, fluid dynamics, electromagnetic fields, and applying field problem modelling to computer aided design of control systems. Requirements: Weekly assignments that will be graded and a project assignment. Attendance to lectures. No exam. Literature: Lecture notes, exercises. Prerequisites: Basic knowledge of dynamic systems and ordinary differential equations (e.g. AS-74.3100). Basics of control technology (e.g. AS-74.2111, AS-74.2112). Substitutive: Replaces the course AS-74.3177 Additional information: Lectures and lecture material in English. Exercises and exercise material mainly in Finnish. Exercises which the course requirements are based on, may also be comleted in English. Language: Lectures in English, exercises in Finnish. AS-74.3180 Automation Technology in Buildings (3 cr) AS-74.3199 Wireless Automation P (4 cr) Spring (III-IV) Lecturer: Prof. Heikki Koivo, Dr. Mohammed Elmusrati Contents: Wireless communication in automation applications, channels and protocols, quality of service (QoS) and security in wireless networks, sensor and actuator networks, multisensor data fusion, wireless control systems, applications and case studies. Objective: After completing the course the student has familiarized himself / herself with the basics of wireless data-transfer and automation, and masters the control design and simulation in wireless automation applications. The student is also able to program the functionalities of basic components and sensor nodes of a wireless sensor-network. Requirements: Homework exercises, seminar presentation and examination. Literature: Lecture notes Prerequisites: Basic control courses (e.g. AS-84.1128/ AS84.1132 or AS-74.2111). Additional information: Replaces the course AS-74.3198. Language: English.
AS-74.4180 Automatic modelling of industrial plants using semantic specifications P (4 cr) Autumn (I-II) Lecturer: Dr. Kaj Juslin Contents: Semantic models for management of the design specification data of integrated processes under their whole lifecycle. Dondtructing mathematical models from the initial design data. Effective solvers for teal time simulation. Simulation as a means to support the design, operation and special assignment. Objective: The student adopts a methodology to develop dependable mathematical simulation models of industrial plants based on first principles physical dependencies and geometric structures as defined by formal specifications. Requirements: Examination and special assignment. Prerequisites: Basic knowledge of dynamic systems and ordinary differential equations. Additional information: All course material is in English, however the course can also be completed in Finnish or Swedish. Language: The course is lectured in English. AS-74.4191 Multivariate Regression Methods P (4 cr) Autumn (I-II) Lecturer: Prof Heikki Hyötyniemi Contents: The modern multivariate statistical methods (linear regression, principal component analysis and regression, partial least-squares regression, canonical correlation analysis and regression, and independent component analysis and regression) are studied and applied to modelling dynamic systems (subspace identification). The goal is to understand the principles that the different methods are based on as well as recognising the underlying similarities. Requirements: Examination and special assignment. Literature: Lecture notes. Prerequisites: Basic knowledge of linear algebra and matrix calculus. Additional information: Replaces the course AS-74.191. Course material available in English. Language: Finnish. AS-74.4192 Elementary Cybernetics P (3 cr) AS-74.4330 Postgraduate Course in Control Engineering P (4-8 cr) Autumn + Spring (I-II, III-IV) Lecturer: Prof Heikki Koivo Contents: Control methods and theory for research and practical applications. The contents vary from year to year. Objective: The student masters the concepts and theory of the subject matter discussed in the seminar, and is able to apply them in scientific research work. Requirements: Seminar presentation and assignments. Literature: To be announced later. Additional information: Replaces the course AS-74.330. Language: English. AS-74.4340 Special Course in Control Engineering P
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(1-8 cr) Autumn + Spring (I, II, III, IV) Lecturer: Prof Heikki Koivo, Prof Heikki Hyötyniemi and Kai Zenger, D.Sc.(Tech.) Contents: The course is meant for postgraduate students. It consists of e.g. examinations based on books on different topics of control theory. Objective: The student masters the given material and is able to apply it in his / her post-graduate studies and research work. Additional information: Replaces the course AS-74.340. Language: English. AS-84.1128 Fundamentals of Automation and Control Technology (3 cr) Autumn (I-II) Lecturer: Prof. Arto Visala and Timo Oksanen D.Sc. (Tech.) Contents: Automation in factories, machines, vehicles, and in other machines and devices. Measurements and actuators in the controlled process/ machine. Automation system architecture and functions, hardware and software. Binary and fuzzy logic control. Modelling of dynamic systems. Feedback control. Exercises. Objective: The student understands functional principles and architectures of industrial automation, can analyze linear dynamic systems and understands the main principles of iterative model based controller design. Requirements: Final exam. Literature: G. Olsson, D. Piani, 1992. Computer Systems for Automation and Control. Prentice-Hall. Substitutive: Replaces the course AS-84.128. Additional information: Will be lectured as part of course AS-84.1132. Individual study in English possible. Language: Finnish AS-84.1132 Automation and Control Technology (5 cr) Autumn (I-II) Lecturer: Prof. Arto Visala and Timo Oksanen D.Sc. (Tech.) Contents: Automation in factories, machines, vehicles, and in other machines and devices. Measurements and actuators in the controlled process/ machine. Automation system architecture and functions, hardware and software. Binary and fuzzy logic control. Modelling of dynamic systems. Feedback control. Exercises and laboratory work. Objective: The student understands functional principles and architectures of industrial automation, can analyze linear dynamic systems and understands the main principles of iterative model based controller design. Requirements: Final exam and laboratory works. Literature: G. Olsson, D. Piani, 1992. Computer Systems for Automation and Control. Prentice-Hall.; lecture notes. Additional information: Replaces the course AS-84.132. Individual study in English possible. Language: Finnish. AS-84.1137 Robotics (3 cr)
Spring (III-IV) Lecturer: Pekka Forsman, D.Sc.(Tech.) Contents: Basics in robotics. Industrial robots and mobile robots. Subsystems and physical components of robots. Basic kinematics and motion control principles. Examples of various practical applications of robotics. Objective: The student has a general idea of robot technology and different application areas of robots. He/she understands the basic control and programming methods of robots. Related to the mathematical problems of robot control, the key contents of the course include the solutions for the direct and inverse kinematics problems of the position of a robot manipulator. Requirements: Final exam and a robot programming exercise. Literature: Craig J.J.:. Introduction to robotics. Third Edition, Prentice Hall, 2005 (partly); lecture notes. Prerequisites: Basic knowledge of automation and control engineering. Additional information: Replaces the course AS-84.137. Individual study in English possible. Language: Finnish. AS-84.1168 Automation Systems (3 cr) AS-84.2161 Signal Processing Methods in Automation (5 cr) Spring (III-IV) Lecturer: Prof Aarne Halme, Prof Arto Visala Contents: Sampling. Digital filtering, 2D filtering. Dynamic machine vision. Estimators and Kalman-type filters. Digital servo controllers. Fuzzy control. Fault detection and analysis. Sensor fusion. Assignment work. Objective: The student understands and can apply the most common signal processing methods in automation. Requirements: Tentti ja harjoitustyö. Literature: Lecture notes; parts of the following book: Franklin, Powell & Workman: Digital Control of Dynamic Systems. 3rd Edition. Addison-Wesley, 1998. E. Trucco & A. Verri: Introductory techniques for 3-D computer vision. Prentice Hall, 1998. Prerequisites: AS-74.2111/AS-74.111, AS-74.2112/AS74.112 Additional information: Replaces the course AS-84.161. Course material available in English. Language: Finnish. AS-84.3125 Estimation and Sensor Fusion Methods P (3 cr) Autumn (I) Lecturer: Prof Arto Visala Contents: State estimation methods in automation and control engineering. Linear estimation in static systems. State estimation in discrete dynamical systems. Computational aspects. Continuous state estimation. States estimation in non-linear systems. Adaptive estimation. Parameter estimation. The goal is to be able to plan and implement estimation algorithms in practice. Objective: The student understands the mathematical basis of state estimation and can implement state estimators in practice.
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Requirements: Final exam. Literature: Lecture notes; Bar-Shalom, Li & Kirubarajan 2001. Estimation with applications to tracking and navigation. Prerequisites: AS-74.2112/AS-74.112, AS-84.2161/AS84.161. Additional information: Replaces the course AS-84.125. Language: English. AS-84.3126 Machine Perception P (3 cr) Autumn (II) Lecturer: Prof Arto Visala Contents: 3-D perception processing methods in robotics and autonomous machines. Camera calibration, Stereo vision, motion vision, recognition of 3-D objects. Locating objects in space. Objective: The student understands the main principles of 3D machine vision methods. Requirements: Examination. Literature: E. Trucco & A. Verri: Introductory techniques for 3-D computer vision. Prentice-Hall (1998); lecture notes. Prerequisites: AS-84.2161/AS-84.161, basic knowledge of automation and control engineering. Additional information: Replaces the course AS-84.126. Language: English. AS-84.3127 Positioning and Navigation Methods P (3 cr) Spring (III) Lecturer: Jorma Selkäinaho, D.Sc.(Tech.), Pekka Forsman, D.Sc.(Tech.) Contents: Methods of positioning of mobile objects. Dead reckoning. Methods based on fixed beacons. Feature based positioning. Simultaneous mapping and positioning. Generic RF-methods, GPS, utilisation of wireless mobile communication networks. Methods for focusing the position estimate. Objective: The student understands different methods for determining the location of a work machine, mobile robot or other type of a vehicle. Related to the subject, also methods for simultaneous localization and mapping are discussed. Requirements: Exam Literature: Lecture notes. Prerequisites: Basic knowledge of automation and control engineering. Additional information: Replaces the course AS-84.127. Individual study in English possible. Language: Finnish. AS-84.3134 Automation in Energy Technology (3 cr) AS-84.3140 Robot Algorithms P (4 cr) Autumn (II) Lecturer: D.Sc.(Tech) Peter Jakubik Contents: The course covers the introduction to the robot kinematics and dynamics algorithms, their application and examples from space robotics. Topics discussed include forward and inverse kinematics, jacobians: velocities and static forces, manipulator
dynamics, singularities, redundant robots, trajectory generation, path planning, mobile robots, walking, rolling, omnidirectional rolling, swarm formation, examples from space robotics. Objective: To give the student an overview of various algorithms used for controlling robots. Requirements: Final examination and programming exercise. Literature: Craig J.J.: Introduction to Robotics, 3rd edition, Prentice Hall, 2005 and handouts. Prerequisites: AS-84.1137 (except for SpaceMaster students) Substitutive: Replaces the courses AS-84.3137 and AS84.3148. Language: English AS-84.3145 Field and Service Robotics (4 cr) Autumn (I-II) Lecturer: Prof Aarne Halme, Jussi Suomela, D.Sc. (Tech.) Contents: Mobile intelligent machines and robots. Functional subsystems: motion and energy, piloting, sensor and perception, navigation, control and supervising, work task management system. Technical solutions of subsystems. Locomotion theory, particularly walking. Assignment work. Objective: Student understands the functions and subsystems of a field and service robot. He/she can apply the knowledge in practice. Literature: Everett.H.R, 1995. Sensors for mobile robots. A.K. Peters Ltd.; lecture notes. Prerequisites: AS-84.1137/AS-84.137, basic knowledge of automation and control engineering. Additional information: Replaces the course AS-84.145. Language: English. AS-84.3146 Behaviour-based Robotics P (3 cr) Autumn (I) Lecturer: Mika Vainio, D.Sc.(Tech.) Contents: Planning and use of behaviour-based robots. Generic design principles through study of existing robot systems. Overview of biological perception and learning, corresponding technical solutions. Control architectures. Distributed robot systems. New paradigms in robotics. Objective: To give the student an overview of the field of behavior-based robotics and beyond. After the course the student will know the main principles of the most common robotic control architecture types and should be able to design and implement functional architectures for modern mobile robots working in various applications. Literature: Murphy, Robin. R. Introduction to A1 robotics. A Bradford book, MIT Press.; lecture notes. Prerequisites: AS-84.1137/AS-84.137, basic knowledge of automation and control engineering. Additional information: Replaces the course AS-84.146. Language: English. AS-84.3147 Man-machine Interfaces in Automation P (3 cr) Spring (IV)
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Lecturer: Jussi Suomela, D.Sc.(Tech.) Contents: Basic functions and operational layers in ManMachine-Interfaces (MMI). Communication between man and machine, means and methods for MM communication. Dynamics of MM interactions. Ergonomics of human senses in MMI. MMIs for teleoperation. Cognitive level MMIs. Applications. Assignment work with research machines. Objective: Student understands the principles of usability and user interface design. He/she can apply them in the design and development of a user interface for a field and service robot. Literature: Lecture notes. Prerequisites: AS-84.1137/AS-84.137, basic knowledge of automation and control engineering. Additional information: Replaces the course AS-84.147. Course material available in English. Language: Finnish. AS-84.3149 Bionics (3 cr) Spring (IV) Lecturer: Prof. Aarne Halme Contents: Utilization of biological principles and mechanisms developed in the evolution process in planning of manufactured machines and their control, e.g.: light and solid structures, energy conversion principles and systems, locomotion systems, perception and navigation systems, simple and flexible reasoning and inference methods, swarm intelligence, superior adaptation mechanisms. Assignment work. Objective: To give the student an overview of the utilization of biological principles and mechanisms in planning of manufactured machines and their control. Literature: Lecture notes. Prerequisites: AS-84.1137/AS-84.137 Additional information: Replaces the course AS-84.149. Individual study in English possible. Language: Finnish. AS-84.3165 Automation in Biotechnical Processes (3 cr) Spring (III-IV, alternate years, not lectured in academic year 2008-2009) Lecturer: Anja Ranta, D.Sc.(Tech) Contents: Modelling, measurements and control of biotechnical fermentation processes. Control and monitoring of batch, fed-batch, and continuous fermentation processes. Specific requirements and implementation of automation system. Sensor technology. Objective: Purpose of the course is to give the student a general view on control and automation of biotechnological processes together with utilized methods and instrumentation, some industrial processes are discussed. Literature: Pons (ed), 1992. Bioprocess Monitoring and Control, Hanser Publishers. Prerequisites: Basic knowledge of automation and control engineering. Additional information: Replaces the course AS-84.165. Individual study in English possible.
Language: Finnish. AS-84.3169 Networked Automation P (3 cr) Spring (IV) Lecturer: Timo Oksanen, D.Sc. (Tech.) Contents: Survey to standardization process of automation network protocols and to the history of field buses. Revision to OSI architecture. Survey to Profibus and Foundation Fieldbus fieldbuses and to device management. Survey to vehile networks e.g. CAN, LIN, FlexRay and ISO 11783 workmachine network. Survey to software design methods and tools to implement vehicle network system. Objective: The student understands the main operation principles of communication protocols used in automation and the phases of standardizations processes. Requirements: Final exam and exercises. Literature: Lecture notes. Prerequisites: Basic knowledge of automation and control engineering. Basics of CAN bus. Additional information: Replaces the course AS-84.169. Material for individual study in English available. Language: Finnish. AS-84.3180 Mechatronics for Small-scale Autonomic Devices (3 cr) Spring (III) Lecturer: Pekka Appelqvist, D.Sc.(Tech.), Juhana Ahtiainen, M.Sc.(Tech.) Contents: Structures and subsystems of small-scale autonomous mechatronics devices. Electronic components, sensors and actuators, integration to mechanics. Development of embedded software. Miniatyrization. MEMS-components. Microreactors and micro process technology. Application examples. Requirements: Essay writing and exam. Literature: Lecture notes. Prerequisites: AS-84.168, basic knowledge of automation and control engineering, AS-84.136 helpful. Additional information: Replaces the course AS-84.180. Course material available in English. Language: Finnish AS-84.3268 Project in Automation Systems (3 cr) Spring (III-IV) Lecturer: Panu Harmo, M.Sc.(Tech.) Contents: Continuation project of AS-84.168 Automation Systems. Students connect sensors and actuators of laboratory processes to a commercial automation systems and program the system to control the process. The students will get acquainted with process instrumentation, fieldbuses, automation systems structures, hardware and software, programming and operation in practice. The work is done in groups. Objective: The objective of the course is to give the student a practical view on the design and implementation of automation systems as well as on the implementation of automation projects. A goal is to apply knowledge gained during earlier automation technology courses to real-world problems. Requirements: Intermediate reports, final report,
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intermediate and final presentations, demonstrations, obligatory participation in project meetings. Prerequisites: AS-84.1168/AS-84.168. Additional information: Replaces the course AS-84.268. Combined with the lecture course AS-84.1168. Language: English on demand. Language: Finnish. AS-84.3272 Embedded Systems in Space Technology (4 cr) Autumn (I-II) Lecturer: Teemu Ronkka, M.Sc.(Tech.) Contents: Basics of planning of embedded systems and real time programming. The programming of embedded systems in C-language, basics of digital control and electronics of embedded systems. Teaching consists of lectures (20 hours) and programming exercises. ATMEL’s AVR-micro controllers are used as evaluation equipment. Requirements: At the end of the course instead of an examination students build a small electronic device and attach it to the micro controller. Additional information: For SpaceMaster students only.
Language: English AS-84.3273 Embedded Systems in Automation (3-6 cr) AS-84.4340 Postgraduate Course in Automation Technology P (4-8 cr) Autumn + Spring (I-II, III-IV) Lecturer: Prof Aarne Halme, Prof Arto Visala Contents: One semester seminar for postgraduate students. The subjects vary yearly according to the actual interests in different technologies and methods of automation engineering and control theory. Objective: To deepen student’s knowledge, required for the post-graduate studies, in the subject area of the seminar. Requirements: Seminar type requirements. Literature: Announced before the start of the seminar. Additional information: Replaces the course AS-84.340. Language: Finnish/English. Language: Finnish AUT.kand Bachelor’s Thesis and Seminar (10 cr)
Department of Electronics BIO.kand Bachelor’s Thesis and Seminar (10 cr) S-108.3020 Electromagnetic Compatibility (2 cr) EST.kand Bachelor’s Thesis and Seminar (10 cr) S-108.3030 Virtuaali-instrumentointi (5 cr) S-0.1050 Finnish Literature I (1-2 cr) S-108.3110 Optical Communications (5 cr) S-0.1051 Finnish Literature II (1-2 cr) S-108.3120 Project Work (2-8 cr) S-0.1104 Introduction to Cell Biology (6 cr) S-0.1501 Orientation Course for Sudies in Bioinformation technology (1 cr) Autumn Lecturer: Faculty personal Contents: General information on TKK and student union, and introduction to Bioinformation technology. Requirements: Attending lectures, library exercise, and own study plan for M.Sc. studies. Literature: Study Programme and Faculty’s own study programme Additional information: Language: Tutoring in English is possible. Language: Finnish
S-108.3130 Project Work in Measurement Science and Technology (2-10 cr) S-108.3140 Project Work in Optical Technology (2-10 cr) S-108.4010 Postgraduate Course in Measurements P (10 cr)
S-108.2110 Optics (5 cr)
S-108.4020 Research Seminar on Measurement Science and Technology P (2 cr) I-IV Autumn + Spring Lecturer: Prof Erkki Ikonen Contents: Reports and discussion on measurement science and technology. Reports are mostly held in English. Suitable for postgraduate but also undergraduate students. Requirements: Participation and taking part in discussions. Substitutive: Replaces S-108.914. Additional information: http://metrology.tkk.fi/courses Language: Finnish and English
S-108.3011 Sensors and Measurement Schemes (5 cr)
S-108.4110 Biological Effects and Measurements of
S-108.1010 Fundamentals of Measurements A (4 cr) S-108.1020 Fundamentals of Measurements Y (3 cr) S-108.2010 Electronic Measurements (3 cr)
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Electromagnetic Fields and Optical Radiation P (4 cr) Autumn (Period II) Lecturer: Kari Jokela Docent Contents: RF-radiation and low-frequency electromagnetic fields biophysics, biological effects, dose levels, measurements, calibration of measurement equipment and calculation methods. Health risks of UVradiation. Laser safety. Fundamentals of radiometry. Real-life examples of radiation protection. The course can be included in undergraduate or postgraduate studies. Requirements: Examination. Literature: handout. Additional information: http://metrology.tkk.fi/courses Language: Finnish and English S-108.4120 Special Course in Measurements P (2-6 cr) S-113.1201 Introduction to Bionics (2 cr) S-113.2105 Materials and Microsystems Integration (38 cr) 24+24 (2+2)(Period I) Lecturer: Tomi Laurila docent Contents: Commonly used materials and components in microsystems. Principles of manufacturing, inspection and testing methods. Objective: To obtain fundamental information from literature about the chosen subject in the field of materials science. Requirements: Critical literature review and presentation. Literature: To be defined later Substitutive: Replaces course S-113.105. Web page: www.ept.tkk.fi Language: English S-113.2110 Introduction to Materials Science (5-8 cr) S-113.2210 Biomaterials Science (6 cr) S-113.3100 Principles of Electronics’ Reliability (6 cr) S-113.3130 Laboratory of Production Technology (4 cr) S-113.3140 Reliability of Electronics (6 cr) S-113.3145 Reliability of Micro- and Nanosystems (4 cr) 24+0 (2+0) II Lecturer: lecturer Vesa Vuorinen Contents: General principles of micro- and nanosystem reliability. The life-time prediction of electronic as well as optoelectronic devices. The most common failure modes and mechanisms of components and devices under different operational environments. Objective: The aim of the course is to depict the main factors affecting the reliability of electronic products. You should become familiar with accelerated reliability testing and physics of failure analyses.
Requirements: Examination Literature: V.Puligandla: Failure Modes and Mechanisms in Electronic Packages. Chapman&Hall 1998. Prerequisites: S-113.2100 or S-113.2105 Substitutive: Replaces course S-113.145. Web page: www.ept.tkk.fi Language: English S-113.3150 Production Technology Seminar (4 cr) S-113.3155 Project Work in Microsystem Reliability (3-6 cr) III-IV Lecturer: Lecturer Vesa Vuorinen Contents: The contents will be planned idiviuately for each student. Literature: Will be decided with the teacher. Substitutive: Replaces course S-113.155. Web page: www.ept.tkk.fi Language: English S-113.3220 Interfacial Phenomena between Tissue and Implant (6 cr) S-113.3230 Characterization Methods in Bioadaptive Technique (6 cr) S-113.3240 Laboratory Course of Bioadaptive Technique (1-5 cr) S-113.3251 Project Work in Bioadaptive Technique (38 cr) S-113.3260 Bioadaptive Technique (7 cr) S-113.4100 Postgraduate Course in Electronics Production Technology P (3-9 cr) Lecturer: Prof Jorma Kivilahti Contents: Advanced topics of electronics integration and reliability. Varies annually. Lectured when needed. Literature: Depends on the contents. Web page: www.ept.tkk.fi Additional information: replaceses S-113.170 Language: Finnish or English S-113.4201 Postgraduate Course on Biocompatible Electronics P (3-5 cr) 24 + 24 (2 + 2) II, IV Lecturer: Markus Turunen D.Sc.(Tech.), Prof Jorma Kivilahti Contents: Laboratory or lecture course with changing content for graduate students. Objective: The aim is to provide theoretical knowledge and to improve practical skills needed in the graduate studies of Bioadaptive technology. Requirements: Examination Literature: Will be announced according to a given content. Prerequisites: S-113.3260 Additional information: The content of this course varies
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and thus it can be included several times in the studies. Language: English S-118.1900 Project in Illumination Engineering and Electric Installations (2-5 cr) I, II, III, IV Lecturer: Prof Liisa Halonen, prof. Jouko Pakanen and researchers Contents: Student is introduced to research work by taking part in activities of the research groups of the Lighting Laboratory, or to a larger branch of technology through visits to companies and literacy. Requirements: To take part in research projects. The fulfilling of requirements is discussed with the teacher. Evaluation: approved/failed Target group: First-year students Substitutive: Replaces course S-118.900 Language: Finnish and English S-118.1920 Practical Electronics (2 cr) S-118.2101 Illumination Engineering and Electrical Safety (3 cr) Autumn (Period II) Lecturer: prof. Liisa Halonen, prof. Jouko Pakanen Contents: Fundamentals of illumination engineering, basic quantities and laws, light sources, electrical safety, basics of electric installations in buildings. Requirements: Lectures, exercises, one laboratory work. Evaluation: Examination. Literature: Handout. Substitutive: Replaces course S-118.101 Web page: http://www.lightinglab.fi/teaching/101/index.html Additional information: Only one of the courses S118.2101/S-118.2102 can be included in the degree. Language: Finnish. In English you can study almost similar course S-118.2102. S-118.2102 Illumination Engineering and Electrical Safety (4 cr) Autumn (Period I) Lecturer: Prof Liisa Halonen, Prof Jouko Pakanen Contents: Fundamentals of illumination engineering, basic quantities and laws, light sources, electrical safety, basics of electric installations in buildings. Requirements: Lectures, exercises, one laboratory work Evaluation: Exam Target group: Foreign students Literature: Handout Substitutive: Replaces course S-118.102 Additional information: Only one of the courses S118.2101/S-118.2102 can be included in the degree. Language: English
Autumn (Period I) Lecturer: Prof Liisa Halonen Contents: Basis of vision, basic quantities and laws, chromatics, light sources, calculations and evaluation methods for lighting, photometric measurements, excursions. Requirements: Lectures, exercises, excursion, two laboratory assignments. Target group: Foreign students Literature: Handout Substitutive: Replaces course S-118.217 Language: English S-118.3218 Illumination Engineering II (4 cr) S-118.3230 Seminar on Illumination Engineering and Electric Installations in Building (4 cr) Spring (Period IV) Lecturer: Prof Liisa Halonen, prof. Jouko Pakanen Contents: Seminar work. Requirements: Examination and seminar work, attendance. Evaluation: Seminar work 70%, exam 30% Literature: Material of the seminar. Prerequisites: S-183.3216 and S-118.3218 Substitutive: Replaces course S-118.230 Language: Finnish and English S-118.3232 Illumination Engineering and Electric Installations in Buildings, special assignment (2-8 cr) I, II, III, IV Lecturer: prof. Liisa Halonen, prof. Jouko Pakanen Contents: The course will consist of an individual special assignment or participation in the laboratory’s research project. Requirements: Special assignment. Prerequisites: S-118.3216 Substitutive: Replaces course S-118.232 Language: Finnish and English S-118.3260 Lighting Design (4 cr) S-118.3280 System Design of Electrical Building Services (5 cr) S-118.3282 Home Automation and Home Networks (3 cr)
S-118.2240 Electrical and Illumination Engineering, basic course (3 cr)
S-118.4250 Postgraduate Seminar on Illumination Engineering P (5-10 cr) Lecturer: Prof Liisa Halonen Contents: Course with varying content. Requirements: Autumn + Spring Target group: Psotgraduate students and advanced graduate students. Literature: Material of the seminars. Additional information: Language: Finnish and English
S-118.3216 Illumination Engineering I (4 cr)
S-66.1102 Practical Electrotechnics (2 cr)
S-118.3217 Illumination Engineering I (5 cr)
S-66.2120 Basic Course in Electronics (5 cr)
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S-66.3114 Audio Engineering (3 cr) S-66.3115 Video Engineering (3 cr) S-66.3166 Biomedical Instrumentation (5 cr) S-66.3169 Bioelectrical Phenomena (4 cr) Spring (period III) (odd years) Lecturer: Prof Jaakko Malmivuo Contents: Bioelectric and biomagnetic source, measurement of bioelectric and biomagnetic signals and their use in clinical diagnosis, volume sources and volume conductors, forward and inverse problems, construction of orthonormal lead systems. Requirements: Lectures and exercises. Examination. Literature: J. Malmivuo and R. Plonsy: Bioelectromagnetism: Principles and Applications of Bioelectric and Biomagnetic fields. Oxford University Press, 1995. http://www.rgi.tut.fi/edu/bem/book.htm Web page: http://sel18.hut.fi/3169/esite3169.htm Additional information: Korvaa opintojakson S-66.169. Language: English S-66.3170 Reliability in Electronics (3 cr) S-66.3171 Design of Electronic Equipment (4 cr) S-66.3201 Product Development (5 cr) S-66.3204 Product Design (5 cr)
S-66.4140 Postgraduate Course in Applied Electronics II P (10 cr) 24+12(2+1)III-IV Lecturer: Prof Pekka Eskelinen Contents: The goal is to achieve a thorough knowledge of an area in applied electronics. The course is suitable for postgraduates, doctors and fifth year students. Requirements: Exercise and exam. Literature: Books, conference reports. Prerequisites: Applied electronics or similar advanced studies. Web page: http://sel18.hut.fi/4140/esite4140.htm Additional information: Language: Finnish or English Language: Finnish S-66.4141 Quantitative MRI P (6 cr) S-66.4142 Design for Portability in Electronics P (6 cr) S-66.4143 Radar Electronics P (6 cr) I-II, III-IV Lecturer: Prof Pekka Eskelinen Contents: Various electronics of portable equipment; design process, components; power supplies; integration of electronics and mechanics; software; profitability of portable equipment. Requirements: Web course. Exam. Literature: The course comprises of lecture notes based on various text books. Prerequisites: Basics on electronics Web page: http://sel18.hut.fi/4143/esite4143.htm Language: English
S-66.3300 Special Study in Applied Electronics (4-8 cr) S-66.3304 Bioelectronics, special assignment (5-8 cr) S-66.3320 NMR Basics P (5 cr) S-66.3322 Basics of MRI P (5 cr) S-66.3324 Instrumentation of MRI P (5 cr) S-66.3326 Application of MRI P (5 cr) S-66.3340 Measurement Methods and Instrumentation in Ecology (5 cr)
S-66.4144 Special Measurements in Electronics P (6 cr) S-66.4205 Research Seminar on Applied Electronics (3-8 cr) I-II, III-IV (Lectured when needed) Lecturer: Prof Raimo Sepponen and Prof Pekka Eskelinen Contents: Course with varying content. Web page: http://sel18.hut.fi/4205/esite4205.htm Additional information: Replaces course S-66.205. Language: English S-66.4999 Individual Postgraduate Course P (2-10 cr)
S-66.3999 Special Course in Applied Electronics (2-5 cr) S-66.4139 Postgraduate Course in Applied Electronics I P (10 cr)
TLT.kand Bachelor’s Thesis and Seminar (10 cr) S-113.160 Individual Course (2-8 ocr)
Department of Micro and Nanosciences BIO.kand Bachelor’s Thesis and Seminar (10 cr) S-0.1050 Finnish Literature I (1-2 cr) EST.kand Bachelor’s Thesis and Seminar (10 cr)
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S-0.1051 Finnish Literature II (1-2 cr) S-104.3610 Nanotechnology (5 cr) S-0.1104 Introduction to Cell Biology (6 cr) S-0.1501 Orientation Course for Sudies in Bioinformation technology (1 cr) Autumn Lecturer: Faculty personal Contents: General information on TKK and student union, and introduction to Bioinformation technology. Requirements: Attending lectures, library exercise, and own study plan for M.Sc. studies. Literature: Study Programme and Faculty’s own study programme Additional information: Language: Tutoring in English is possible. Language: Finnish
S-104.3710 Nanoscience I: Introduction to Nanoscience (3 cr) S-104.3880 Optoelectronics and Nanotechnology, special assignment (8 cr) Timing will be agreed with the teacher. Lecturer: Prof Harri Lipsanen, prof. Seppo Honkanen Contents: The content will be agreed with the teacher. Objective: Profound gathering and understanding of knowledge from a topic agreed with the teacher. Requirements: Special assignment is an individual laboratory work, design assignment or literature survey. Literature: Will be agreed with the teacher. Substitutive: Replaces S-104.398. Language: Finnish or English
S-104.1010 Physics I (AS, Bio, Est, Tlt) (6 cr) S-104.1020 Physics II (AS, Bio, Est, Tlt) (6 cr) S-104.1310 Additional Course in Physics 1 (SFT) (2 cr) S-104.1320 Additional Course in Physics 2 (SFT) (2 cr) S-104.3310 Optoelectronics (5 cr) 24 + 24 (2 + 2) III-IV Lecturer: Docent Teppo Hakkarainen Contents: Physics, technology and applications of compound semiconductors and optoelectronic devices: lasers, LEDs, detectors, solar cells, and modulators. Objective: Knowledge of the physics, operational principles, tehcnological solutions and applications of optoelectronic devices. Requirements: Examination. Literature: P. Bhattacharya: Semiconductor Optoelectronic Devices, 2nd edition, Prentice-Hall, 1997. Prerequisites: S-69.2101 or similar knowledge. Substitutive: Replaces S-104.171. Web page: http://atomi.hut.fi/kurssit/S1043310/en.php Language: English S-104.3410 Photonics and Integrated Optics (5 cr) 24 + 24 (2 + 2)I-II Lecturer: Prof. Seppo Honkanen Contents: Optical fibers, integrated optics and optical microsystems and their materials, structures and fabrication technology. Applications and use in optical telecommunications and sensors. Objective: Knowledge of the materials, structures and fabrication technologies of optical fibers, integrated optics and optical microsystems, and their applications in optical telecommunications. Requirements: Exercises and examination. Literature: Handout and selected parts of the books and publications of the field. Substitutive: Replaces course S-104.374 Web page: http://atomi.hut.fi/kurssit/S1043410/en.php Language: Finnish or English
S-104.3910 Laboratory Course on Micro- and Nanotechnology (4 cr) 0 + 24 (0 + 1) I-IV Lecturer: Docent Teppo Hakkarainen + assistants Contents: Five laboratory assignments in the field of micro- and nanotechnology. The assignments are organized by the laboratories of Micro and Nanotsciences, Circuit Theory, and Electronics Production Technology. Objective: Students get familiar with some basic laboratory techniques within the field of Micro and nanosciences. Requirements: Laboratory work and approved reports. Evaluation: passed/failed Literature: Literature that complements the lab works. Announced separately. Web page: http://atomi.hut.fi/kurssit/S1043910/en.php Additional information: The course can be started either in Autumn or in Spring. Language: English S-104.3920 Nanotechnology Laboratory Course (5 cr) S-104.4350 Postgraduate Course on Optoelectronics P (10 cr) S-104.4650 Postgraduate Course on Nanotechnology P (10 cr) 24 + 24 (2 + 2) I-II (Lectured if needed) Lecturer: Prof Harri Lipsanen Contents: Course with variable topics. Selected topics of nanotechnology. Objective: Deep knowledge of selected topics of nanotechnology Requirements: Seminar presentations and exercises on selected topics in nanotechnology. Substitutive: Replaces S-104.382. Additional information: Course with variable topics. Language: English or Finnish S-104.4720 Nanoscience II: Nanostructures P (5 cr)
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S-104.4890 Individual Course P (1-10 cr) S-129.3001 Microfluidics and BioMEMS (5 cr) (2+1) III-IV Lecturer: Sami Franssila Docent, Tarja Nevanen Ph.D. (VTT Biotechnology), Santeri Tuomikoski D.Sc. (Tech) Contents: Fluid dynamics micrometer scale and surface phenomena with applications to chemistry and biology. Microtechnology for fluidics, fluidic components, biochips and microarrays, chemical microsystems, cells and beads in microfluidics. Objective: Course goal is to give students an overview of microtechnology in chemistry and biotechnology. The course is interdisciplinary and involves fluid mechanics, surface science, microdevices, and their analytical and biological applications. Requirements: The course will be lectured at University of Helsinki (Kumpula campus) in spring 2009 but some lectures and demos will also be held in Otaniemi. In spring term 2010 the course will be lectured in Otaniemi again. The course can be registered every year using TKK course code. Examination and exercises. Bonus points for exercises. Literature: Handout and scientific articles Prerequisites: Basic physics and chemistry courses. Must be interested in multidisciplinary science and technology. Web page: http://www.micronova.fi/units/mfg/ Language: Finnish (all material available in English) S-129.3120 Special Assignment in Electrophysics (2-10 cr) S-129.3210 Microsystem Technology (5 cr) (2+1)I-II Lecturer: Prof Ilkka Tittonen and Sami Franssila Ph.D. Contents: Microsystem physics, material, fabrication processes and devices. Case studies of microsystems (micromechanisms, RF-MEMS, microfluids, thermal microsystems, BioMEMS). Requirements: Examination and bonus for exercises. Literature: handout and S. Franssila: Introduction to Microfabrication, Wiley 2004 (for supplementary reading). Substitutive: Replaces S-108.186. Web page: http://www.micronova.fi/units/mqs/ Language: English. S-129.3220 Laboratory Course on Microsystems (5 cr) III Lecturer: Kestas Grigoras Ph.D. and Sami Franssila Docent Contents: This course will give practical experience in the fabrication of silicon mircrosystems. Laboratory work will be performed in the cleanroom of the Microelectronics Center of HUT. The students will fabricate a micromachined infrared light source that can be modulated. Requirements: Preparatory report and final report. Literature: Will be announced later. Prerequisites: S-129.3210
Web page: http://www.micronova.fi/units/mfg/ Additional information: Replaces S-129.3220. Language: English. S-129.3310 Physics of Optical Communications Network P (5 cr) 24+24 (2+2) III-IV Lecturer: Hanne Ludvigsen Docent Contents: Physical principles behind optical communications systems and components. Photonic crustals, photonic crystal fibers and other novel materials. Propagation effects. Ultrafast switching and routing. Optical processing. Requirements: Examination, bonus points from home exercises. Literature: G.P. Agrawal: Lightwave Technology; Components and Devices. J.Wiley&Sons 2004 Web page: http://www.micronova.fi/units/fog/ Language: English S-129.4000 Individual Studies on Micro- and Nanotechnology P (1-10 cr) S-129.4003 Nanoscience III: Molecular Nanoscience P (5 cr) III Contents: Nanoscience I-IV are TKK and University of Helsinki interdisciplinary joint lectures held by some 30 experts in the field (at Kumpula, Otaniemi and Viikki campuses) Language: English S-129.4004 Nanoscience IV: Bionanoscience P (5 cr) IV Contents: Nanoscience I-IV are TKK and University of Helsinki interdisciplinary join lectures held by some 30 experts in the field (at Kumpula, Otaniemi and Viikki campuses) Language: English S-129.4210 Special Course in Electric Physics P (2-5 cr) I-IV Lecturer: Prof Ilkka Tittonen Contents: The content of the course varies annually (e.g. nanotechnology). Requirements: Examination. Literature: To be announced later. Prerequisites: Basics in physics Substitutive: Replaces course S-108.915 Web page: http://www.micronova.fi/units/mqs/ Language: Finnish and English S-69.2101 Basic Course on Semiconductor Technology (5 cr) S-69.3102 Semiconductor Technology I (5 cr) 42+14(6+2) III Lecturer: Prof Pekka Kuivalainen Contents: Physical properties of semiconductor devices. Basics of component physics, metal-semiconductor
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junction, pn-junction, diode, bipolar transistor, JFET, MOS-structure, MOSFET, MESFET, SPICE-models and numericall simulations. Objective: The goal is that student can model the semiconductor devices and understands the differences between ideal model and the real device model. Requirements: Examination or examination and exercises. Literature: handout Physical Modeling of Semiconductor Devices made by P.Kuivalainen Prerequisites: S-69.2101 Web page: http://www.micronova.fi/units/epg/Teaching/kurssit/pjt1. html Additional information: Language: English Language: English S-69.3103 Semiconductor Technology II (5 cr) 28+14(4+2) I Lecturer: Ph.D. Victor Ovchinnikov Contents: Fabrication processes for microtechnology: integrated circuits, microsensors, nanostructures, power devices, solar cells and other microcomponents. Crystal growth, epitaxy, etching, litography, thin films, oxidation, ion implantation, diffusion. Microscopy and measurement methods for microstructures. Visit to cleanroom. Objective: The goal is that the student will learn fabrication processes for microtechnology Requirements: Examination or examination and exercises. Literature: S. Franssila: Introduction to Microfabrication, Wiley 2004. Prerequisites: S-69.2101 Web page: http://www.micronova.fi/units/epg/Teaching/PJT2/index. html Additional information: Language: English Language: English S-69.3104 Electronic Sensors (5 cr) 28+14(4+2) IV Lecturer: Lic.Sc. (Tech) Heikki Holmberg Contents: Physical properties, fabrication and use of electronic sensors implemented using technology employed by the microelectronics industry. Objective: The aim of the course is to provide knowledge of different kind of sensors based on semiconductors especially silicon. Also the physical background of sensors and their applications are learned. Requirements: Examination or examination and exercises. Literature: S.Middelhoek and S.A.Audet: Silicon Sensors, handout Web page: http://www.micronova.fi/units/epg/Teaching/kurssit/senso rs.html Additional information: Language: English Language: English S-69.3105 Special Project in Semiconductor
Technology (5 cr) 0+120 I-IV Lecturer: Prof Pekka Kuivalainen Contents: The purpose of this special project is to give the student deeper knowledge about some special issue in the field of semiconductor technology; materials, devices or integrated circuits. Objective: Student vill learn the basics of scientific research and writing Requirements: written report Web page: http://www.micronova.fi/units/epg/Teaching/kurssit/eriko istyo.html Additional information: Language: Finnish or English Language: Suomi tai Englanti S-69.3106 Semiconductor Technology, laboratory course II (5 cr) 0+120 I-III Lecturer: Hele Savin D.Sc. (Tech.) Contents: Fabrication and measurements of solar cells Objective: To get acquainted with the basic processes in semiconductor technology and study the operation of solar cells by way of measurements. Requirements: Participation in processing and measurements of solar cells and accepted reports Literature: handout Prerequisites: S-69.3107 (compulsory, valid 3 months), S69.2101 or equal knowledge Web page: http://www.micronova.fi/units/epg/Teaching/kurssit/lab2. html Additional information: Language: Finnish/English. Presentation lecture during period I, processing and measurement during period II and writing the report during period III. Language: Finnish or English S-69.3107 Semiconductor Technology, laboratory course I (1 cr) 10 I Lecturer: Ins (amk) Paula Heikkilä Contents: Clean room technology and safety. The students are acquainted with the HUT Microelectronic Centre’s clean room and process equipment. This course is compulsory for persons wishing to do any kind of work in the clean room. This course is always lectured before S-69.3106. Objective: Student knows how to work safely in cleanroom environment. Requirements: Examination and attendance at the lectures. Evaluation: Pass/fail. Literature: handout. Web page: http://www.micronova.fi/units/epg/Teaching/kurssit/lab1. html Additional information: Safety training is valid only 3 months after the course. Language: Finnish/English. This course is mandatory if you want to parcitipate to course S-69.3106.
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Language: Finnish and English S-69.4108 Transport Theory and its Applications P (5 cr) S-69.4109 Quantum Electronics P (5 cr) S-69.4112 Research Project in Semiconductor Technology P (5 cr) 0+120 I-IV Lecturer: Prof Juha Sinkkonen Contents: Within the project the students get familiar with research methods, special methods used in semiconductor technology and reporting the results. Objective: The purpose of this research project is to give the student more abilities to do independent research work. Requirements: Written report Web page: http://www.micronova.fi/units/epg/Teaching/kurssit/pjttut kimus.html Language: Finnish or English S-69.4113 Postgraduate Course in Electron Physics I P (8 cr) 28+14 (2+1) I-II Lecturer: N.N Contents: Electronic Sensors Requirements: Seminar presentation and examination. Literature: S.M. Sze: Semiconductor Sensors (Wiley) Prerequisites: N.N Substitutive: Replaces S-69.4110. Web page: http://www.micronova.fi/units/epg/Teaching/kurssit/lisuri 1.html Language: Finnish and English S-69.4114 Postgraduate Course in Electron Physics II P (8 cr) 28+14 (2+1) III-IV Lecturer: PhD Sami Franssila Contents: Silicon microtechnology: materials properties, processes, devices Requirements: exam and oral presentation Literature: articles from scientific journals Prerequisites: S-69.3103. Substitutive: Replaces S-69.4111. Web page: http://www.micronova.fi/units/epg/Teaching/kurssit/lisuri 2.html Language: English S-87.1010 Electronics I (5 cr) 24+24 (2+2) I-II Lecturer: Prof Jussi Ryynänen and Marko Kosunen Contents: Amplifier models and frequency response. Function of pn-diode and diode circuits. Operational amplifier circuits and the effect of nonidealities. MOSFET- BJT-transistors and transistor circuits. Parasitic components of circuits and their effect on amplifiers’ frequency response. Miller-effect. CMOS-
logic. Objective: To know the properties of basic amplifier circuits and to understand their differences. To know the most common amplifier bias arrangements and their properties. To know the limitations due to frequency dependency and other nonidealities of circuit blocks and to analyze them in simple cases. To understand the function of CMOS-logic and the other most important digital locig families at electrical level. Requirements: Two midterm exams or examination. Literature: Sedra - Smith: Microelectronic Circuits, 5th Edition, Oxford University Press, 1998 and handout. Prerequisites: S-55.1210, S-55.1220 or comparable knowledge. Substitutive: Replaces S-87.010. Web page: http://www.ecdl.tkk.fi/ Additional information: Materials also in English Language: Finnish S-87.1030 Laboratory Course in Electronics (2 cr) S-87.2020 Electronics II (5 cr) 24+24 (2+2) III-IV Lecturer: Prof Saska Lindfors and Prof Jussi Ryynänen Contents: Amplifier circuits with several transistors. Noise and nonlinear distortion in amplifiers. Feedback, stability and frequency compensation of amplifiers. Filter and oscillator circuits. Phase-locked loop. A/D and D/A converters. Output stages and power amplifiers. Power sources. Objective: To understand the advantages obtained with certain combinations of basic amplifier circuits and to be able to analyse their properties. To understand and analyse the effect of noise and nonlinearity in amplifiers. To understand the effect of feedback in amplifiers and to analyse it in the most common cases. To know the most common higher level circuit blocks and to understand their operation and design principles. Requirements: Two intermediate examinations or a final exam. Literature: Sedra-Smith: Microelectronic Circuits (5th Ed.), Oxford University Press, 1998 and handout. Prerequisites: S-87.1010 Substitutive: Replaces S-87.020. Web page: http://www.ecdl.tkk.fi/ Additional information: Materials also in English Language: Finnish S-87.2113 Basic Electronics (3 cr) 26+26 (2+2) I-II, III-IV Lecturer: Prof Jussi Ryynänen and D.Sc. Marko Kosunen Contents: Amplifier models and frequency response. Operational amplifier circuits and the effect of nonidealities. MOSFET- BJT-transistor circuits. Parasitic components of circuits and their effect on amplifiers’ frequency response. Miller-effect. CMOS-logic. Objective: To know the properties of basic amplifier circuits and to understand their differences. To know the most common amplifier bias arrangements and their properties. To know the limitations due to frequency dependency and other nonidealities of circuit blocks and
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to analyze them in simple cases. To understand the function of CMOS-logic and the other most important digital locig families at electrical level. Requirements: Examination. Target group: Course in the spring is targeted for Communications Engineering students, the other one in the autumn is for other students. Literature: Handout. Sedra - Smith: Microelectronic Circuits, 5th Edition, Oxford University Press, 1998 Substitutive: Replaces S-87.113 Web page: http://www.ecdl.tkk.fi/ Additional information: Materials also in English
Objective: Student learns to design advanced operational amplifiers, transconductance amplifiers, fully differential amplifiers with common mode feedback and analog multipliers with CMOS technology. Requirements: Obligatory exercises and examination. Literature: Allen-Holberg: CMOS Analog Circuit Design, Oxford University Press, 1987 (Johns-Martin: Analog Integrated Circuit Design, John Wiley&Sons Inc., 1997). Prerequisites: S-87.3137 Substitutive: Replaces S-87.141 Language: Finnish or English
S-87.2126 Laboratory Course in Basic Electronics (2 cr)
S-87.3145 Analog Integrated Systems P (5 cr) 28+28 (2+2) III Lecturer: Prof Kari Halonen Contents: Realization of an analog system as an integrated circuit. SC-filters. Integrated A/D and D/A converters. Modulators. Phase locked loops. Determination of performance characteristics of integrated circuit blocks. Objective: Student learns to design switched-capacitor filters, active RC-filters, transconductance-capacitor filters, switched-current source filters, D/A-converters and A/D-converters with CMOS technology. Requirements: Obligatory exercises and examination. Literature: Johns-Martin: Analog Integrated Circuit Design, John Wiley&Sons Inc., 1997 and GregorianTemes: Analog MOS Integrated Circuits for Signal Processing, John Wiley&Sons Inc. 1986; Toumazou, Lidgey & Haigh: Analogue IC Design: The currentmode approach, Peter Peregrinus Ltd., 1990; AllenHolberg: CMOS Analog Circuit Design, Holt, Rinehart and Winston Inc.; Razavi: Principles of Data Conversion System Design, IEEE Press, 1995. Prerequisites: S87.3137 and S-87.3141 Substitutive: Replaces S-87.145 Language: Finnish or English
S-87.2900 Elektroniikan ja sähkötekniikan projektityö (5 cr) I-II, III-IV Lecturer: Prof Jussi Ryynänen Contents: Design, implementation and measurements of a prototype of an electronic device or sub-system. The work is done in groups of 3-5 students. The project can include also specification of a device or system based on a given application scenario. Objective: Get to know practical design. Requirements: Design and measuring report. Prerequisites: S-87.020/S-87.2020 Web page: http://www.ecdl.tkk.fi/ Language: Finnish or English S-87.3137 Integrated Circuit Design (3 cr) 27+9 (3+1) I Lecturer: Prof Kari Halonen Contents: Basics of technology-related design. Dimensioning and layout design of basic analog building blocks. Also suitable for basics of designing digital integrated circuits. Objective: Student learns to design single-stage amplifiers, basic operational amplifier, comparators, current and voltage sources with CMOS technology, to understand the effect of transistor parameters on circuit characteristics, and to design lay-out with CMOS technology. Requirements: Obligatory exercises and examination. Literature: Allen-Holberg: CMOS Analog Circuit Design, Oxford University Press, 1987 (Johns-Martin: Analog Integrated Circuit Design, John Wiley&Sons Inc., 1997). Prerequisites: S-87.2020 Substitutive: Replaces course S-87.137 Language: Finnish or English S-87.3141 Analog Integrated Circuits (3 cr) 27+9 (3+1) II Lecturer: Prof Kari Halonen Contents: The course is a continuation of S-87.1137. Amplifiers in analog integrated circuits. Wideband, buffered and micropower amplifiers. Regulation of amplification. Comparators and multipliers. MOS and bipolar topologies.
S-87.3148 Computer-Aided Circuit Design (3 cr) 10+40 I-II Lecturer: Marko Kosunen D.Sc. (Tech) Contents: The course is for students of the option Electronics and Telecommunications. Common EDAtools are used to design systems and integrated circuits. Objective: Goal is to learn the basics of circuit design programs. Requirements: Exercises. Grade pass/fail. Literature: URL: http://www.ecdl.hut.fi/~cad/ Prerequisites: S-87.1010, S-87.2020 and S-87.3137 Substitutive: Replaces S-87.148 Language: English S-87.3156 Integrated RF-Circuit P (5 cr) S-87.3163 Special Project in Electronic Circuit Design (5-8 cr) Autumn & Spring Lecturer: Prof Kari Halonen Contents: Special project in electronic circuit design relating to computer-aided circuit design. Topics can be
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emphasized on electronics of telecommunication or custom designed integrated circuits (VLSI). The course practices the use of computer workstations and their software. The special project is specified for every student personally by Professors. Objective: Familiarize student with circuit designing. Requirements: Special project. Literature: Will be defined separately. Prerequisites: Advanced studies in electronic circuit design. Substitutive: Korvaa opintojakson S-87.163. Language: Finnish or English S-87.3170 Research Seminar on Electronic Circuit Design P (1 cr) 40+0 (2+0) I-IV Lecturer: Prof Kari Halonen Contents: A mandatory course for students who’s major or minor subject is Microelectronic circuit design. Presentations of Master’s theses made at ECD laboratory or seminars held by top level Professionals. Objective: The purpose of the course is to introduce the students to the recent research in the field of electronic circuit design and to the companies operating in the field. Requirements: Attending 16 seminar sessions. 3 seminar sessions can be compensated by holding a presentation. Evaluation: Pass/fail. Prerequisites: Advanced studies in electronic circuit design. Substitutive: Replaces S-87.170. Web page: http://www.ecdl.tkk.fi/ Additional information: Varying content. Language: Finnish or English. S-87.3182 Digital Microelectronics I: System Level Electric Design P (5 cr) 24+24 (2+2) I-II Lecturer: Lauri Koskinen D.Sc. (Tech) Contents: Introduction to digital integrated circuits. Covered range from CMOS devices and manufacturing technology to CMOS inverters and gates. Other topics include propagation delay, noise margins, power dissipation, timing and synchronization. Objective: After the course student knows issues ranging from CMOS devices to various design styles and architectures as well as the issues that designers must face. Requirements: Examination. Literature: To be announced later. Prerequisites: S-87.3137 Substitutive: Replaces S-87.182 Web page: http://www.ecdl.tkk.fi/ Language: English S-87.3185 Digital Microelectronics II: Design and Implementation Basics P (5 cr) S-87.3188 Electrical Design of Digital Circuits III: Digital Signal Processing P (4 cr)
S-87.3190 Computer Architecture (5 cr) S-87.3192 Electronic System Level Design Methods (5 cr) S-87.3200 Special Course in Electronic Circuit Design P (1-8 cr) S-87.4193 Postgraduate Course in Electronic Circuit Design I P (1-8 cr) 26+26 (2+2) I-II Lecturer: laboratory professor and/or N.N. Contents: Variable. A postgraduate-level seminar course. Objective: Expand technical know-how to new fields of circuit technics. Requirements: One seminar presentation and homework. Mandatory attendance at seminars. Literature: To be announced later. Prerequisites: Advanced studies in electronic circuit design. Substitutive: Replaces S-87.193 Web page: http://www.ecdl.tkk.fi/ Additional information: Variable. Language: Finnish or English. S-87.4198 Postgraduate Course in Electronic Circuit Design II P (1-8 cr) 26+26 (2+2) III-IV Lecturer: laboratory professor and/or N.N. Contents: Variable. A postgraduate-level seminar course. Objective: Expand technical know-how to new fields of circuit technics. Requirements: One seminar presentation and homeworks. Mandatory attendance in seminars. Literature: To be announced later. Prerequisites: Advanced studies in electronic circuit design. Substitutive: Replaces S-87.198 Web page: http://www.ecdl.tkk.fi/ Additional information: Variable. Language: Finnish or English. S-87.4199 Postgraduate Course in Electronic Circuit Design III P (1-11 cr) 26+26 (2+2) (Will be lectured in a period to be specified later.) Lecturer: laboratory professor and/or N.N. Contents: Variable. A postgraduate-level seminar course. Objective: Expand technical know-how to new fields of circuit technics. Requirements: To be announced later. Literature: To be announced later. Prerequisites: Advanced studies in electronic circuit design. Substitutive: Replaces S-87.199 Web page: http://www.ecdl.tkk.fi/ Additional information: Variable. Language: Finnish or English. TLT.kand Bachelor’s Thesis and Seminar (10 cr)
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Department of Radio Science and Engineering BIO.kand Bachelor’s Thesis and Seminar (10 cr) EST.kand Bachelor’s Thesis and Seminar (10 cr) S-0.1050 Finnish Literature I (1-2 cr) S-0.1051 Finnish Literature II (1-2 cr) S-0.1104 Introduction to Cell Biology (6 cr) S-0.1501 Orientation Course for Sudies in Bioinformation technology (1 cr) Autumn Lecturer: Faculty personal Contents: General information on TKK and student union, and introduction to Bioinformation technology. Requirements: Attending lectures, library exercise, and own study plan for M.Sc. studies. Literature: Study Programme and Faculty’s own study programme Additional information: Language: Tutoring in English is possible. Language: Finnish S-26.1100 Orientation Course for Studies in Electronics and Electrical Engineering (1 cr) S-26.2060 Project in Radio Science and Engineering (5-8 cr) S-26.2100 Foundations of Radio Engineering (5 cr) 36 + 12 + 0 (3+1), I-II. Lecturer: Prof. Antti Räisänen. Contents: Fundamentals of radio engineering: RF and microwave components and waveguides, antennas, radio wave propagation, radio transmitters and receivers, and applications of radio engineering. Objective: The course is dealing with radio waves and their applications and also with high frequency circuits (circuits, where you have to consider the finite speed and wave nature of electromagnetic phenomena). This course will equip you with basic knowledge of highfrequency and microwave engineering. During the course you will get to understand, analyze and in some cases also to design passive and active high frequency and microwave circuits, radio receivers, antennas and radio lines. Requirements: Lectures, homework exercises, and examination. Evaluation: Examination (and homework exercises). Literature: A. Räisänen - A. Lehto: Radiotekniikan perusteet, Otatieto 2003. A. Lehto (& J. Louhi): Radiotekniikan harjoituksia, Internet training book (link from the homepage of the course), TKK Radiolaboratorio, 2007. A. Räisänen - A. Lehto: Radio Engineering for Wireless Communication and Sensor
Applications, Artech House 2003. Prerequisites: Studies in I part/P- ja O-modules are recommended or equivalent knowledge especially in mathematics, circuit analysis and field theory. Substitutive: Replaces S-26.101. Web page: http://www.tkk.fi/Units/Radio/courses/S262100/ Additional information: Independent studying is possible in the course also in English. Radio engineering is needed in telecommunications (in mobile telephone systems, broadcasting services, radio links, satellite services), in radar systems, in the microwave sensor applications of industry and medicine, in remote sensing and in the measurement equipment of radio sciences, etc. Language: Finnish. Please, have a look at “Other information”. S-26.2300 Radio-Frequency Measurements (2 cr) 4 + 0 + 9 (2+0), III-IV. Lecturer: Juha Mallat D.Sc.(Tech.), assistants. Contents: Lectures on radio-frequency measurements, and 3 laboratory exercises on measurements of impedance and standing wave ratio, radio-frequency spectrum, and radio-frequency apparatus. Objective: The student learns to make high-frequency measurements and to understand instruments and phenomena in this context. Requirements: Lectures in the start and laboratory exercises (with reports). Evaluation: Based on execution of laboratory exercises and reports. Literature: Handout. Prerequisites: S-26.2100 or equivalent knowledge. Web page: http://www.tkk.fi/Units/Radio/courses/S262300/ Additional information: Laboratory exercises are carried out by small groups of students. Some translated guidance material available also in English but latest version dates from spring 2007 (in case of need, please, contact lecturer). Also assistants in laboratory sessions usually have some knowledge of the English language. Language: Finnish. S-26.2350 Parts of Radiocommunications Systems (3 cr) S-26.3000 Radio Engineering, special assignment P (38 cr) I-II, III-IV. Lecturer: Prof. Räisänen, Prof. Tretyakov, Prof. Vainikainen, Juha Mallat D.Sc.(Tech.), and researchers. Contents: Special assignment can be carried out either in a research or education project in Radio Engineering in the university (3-8 cr) or outside (3 cr). Instruction to an assignment done outside must be received from the
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employer while the supervisor is a professor in Radio Engineering. Theoretical and experimental studies which are reported in writing. Objective: To carry our in radio engineering a special assignment which is also training towards making a diploma thesis. Requirements: Assignment and report. Evaluation: Report. Literature: Prerequisites: S-26.2100 and autumn term part of S26.3120. Substitutive: Replaces S-26.161. Web page: http://www.tkk.fi/Units/Radio/courses/S263000/ Additional information: Can be carried out more than once with varying subject. Students who are without knowledge of Finnish can write the report in English. In this case, please, ask for a subject in English and an English speaking instructor. Language: Finnish. Please, have a look at “Other information”.
of thin layers, natural and artificial materials, material interfaces, periodical structures, electromagnetic bandgap materials, artificial impedance surfaces, metamaterials. Requirements: Lectures, home exercises, and small student research projects. Evaluation: Home exercises and small student research projects, possibly examination. Target group: Advanced or postgraduate students. Literature: S. A. Tretyakov: Analytical modeling in applied electromagnetics, Norwood, MA, Artech House 2003. Prerequisites: S-26.2100, S-96.1111, S-96.1121. Substitutive: Replaces S-26.182. Web page: http://www.tkk.fi/Units/Radio/courses/S263161/ Additional information: The course includes lectures and small student research projects on novel electromagnetic phenomena and/or novel applications of composite materials or artificial surfaces. Language: English.
S-26.3060 Research Seminar on Radio Science and Engineering (1 cr)
S-26.3301 Radio Systems in Telecommunication I (3 cr) 24 + 12 + 0 (2+1), III-IV (Odd years). Lecturer: Jyri Putkonen M.Sc.(Tech.), et al. Contents: Fixed link radio and its techniques. Objective: To give an insight into the realisation of an industrially producible microwave radio link device and into the newest technology (digital signal processing, MMIC etc) used in this realisation and also into the function of the radio link as a part of a communications application. Requirements: Lectures, homework exercises, and examination. Evaluation: Homework exercises and examination. Literature: Handout. Prerequisites: S-26.2100. Substitutive: Replaces S-26.140. Web page: http://www.tkk.fi/Units/Radio/courses/S263301/ Additional information: There has usually been a possibility to pass the course also in English but mainly by studying individually. Language: Finnish. Please, have a look at “Other information”.
S-26.3100 RF and Microwave Engineering (5 cr) S-26.3120 Radio Engineering, laboratory course (7 cr) S-26.3142 Radio Wave Propagation in Mobile Communications P (3 cr) 24 + 12 + 0 (2+1), I-II (Even years). Lecturer: Prof. Pertti Vainikainen. Contents: Basic mechanisms, properties of materials, propagation in different environments, propagation models, measurement techniques. Objective: To learn how radio waves propagate especially in mobile communications. Requirements: Lectures, homework exercises, exercise assignment, and examination, Evaluation: Examination (and exercises). Literature: Handout. Prerequisites: S-26.2100. Substitutive: Replaces S-26.185. Web page: http://www.tkk.fi/Units/Radio/courses/S263142/ Additional information: Lecture notes in English. Language: Finnish. S-26.3161 Analytical Modelling in Radioengineering P (4 cr) 24 + 12 + 0 (2+1), I-II (Odd years). Lecturer: Prof. Sergei Tretyakov. Contents: Thin layers, good conductors, superconductors, periodic structures, temporal and spatial dispersion, electromagnetic properties of materials, higher-order impedance boundary conditions. New materials: photonic bandgap materials, artificial impedance surfaces, metamaterials, new applications. Objective: Learning modern analytical modelling methods and understanding electromagnetic properties
S-26.3322 Radio Systems in Telecommunication II (3 cr) S-26.3342 Radar Engineering P (4 cr) S-26.3361 Millimetre Wave Engineering P (4 cr) S-26.3382 EMC-Design and Testing P (4 cr) 24 + 12 + 0 (2+1), III-IV (Even years). Lecturer: Prof. Pertti Vainikainen and Prof. Sergei Tretyakov. Contents: Compatibility and interference of highfrequency equipment, consideration of immunity to interference in design, EMC test measurements.
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Objective: Understanding of the physical background of coupling phenomena (electromagnetic interference). Knowing design principles and methods for minimizing unwanted interference by shielding, grounding, filtering, proper design, etc. Knowing basics of EMC standards and test measurement principles. Requirements: Lectures, homework exercises, and examination. Evaluation: Examination (and homework exercises). Literature: Handout. Prerequisites: S-26.2100. Substitutive: Replaces S-26.150. Web page: http://www.tkk.fi/Units/Radio/courses/S263382/ Additional information: Lectures are given partly in Finnish and English depending on the lecturer. Language: Please, have a look at “Other information”. S-26.3401 Antenna Techniques in Telecommunication P (4 cr) S-26.4000 Postgraduate Course in Radio Science and Engineering P (3-10 cr) I-II, III-IV Lecturer: Prof. Keijo Nikoskinen and other professors in the Department of Radio Science and Engineering. Contents: Topic, scope, way of passing course, and professor in charge are announced separately for each semester before the start of the course. Objective: Advanced study and treatment of course topic. Requirements: Passing the course usually includes lectures, seminar presentations, exercise assignments, and essays (or a combination of these according to what will be defined for the semester). Please, have a look at “Other information”. Evaluation: Usually 0-5. Literature: Will be informed separately. Substitutive: Replaces S-26.4100, S-26.4300, S-55.4100, S-92.4504, S-92.4605, S-96.4610, S-96.4620. Web page: http://radio.tkk.fi/fi/opinnot/s26.html Additional information: The course has varying contents and can be passed several times. Non-post-graduate students may have a possibility to take a part equivalent to 3 cr according to a way defined by the professor in charge - this may include, for example, attending the lectures and seminar presentations and solving the exercises assigned in the course. Language: Finnish (and often English). S-55.1100 Basics of Electrical and Electronics Engineering (4 cr) 24+36 (2+2) I-II, III-IV Lecturer: Kimmo Silvonen lecturer Contents: Transient analysis, phasor calculus, power systems, semiconductor devices and fundamentals of electronics, transmission lines, circuit simulation. Objective: Students learn the basics of electrical and electronic technology and obtain skills to apply their knowledge in other courses and in practice. Requirements: Final examination or two mid-term examinations. Four compulsory laboratory sessions (4 x 3
hours). Target group: Not for Est students Literature: K.Silvonen: Sähkötekniikka ja elektroniikka, Yliopistokustannus 2004 or Bobrow: Fundamentals of Electrical Engineering. Substitutive: S-55.103 Web page: http://www.ct.tkk.fi/courses/bee/main.html Additional information: examination also in English Language: Finnish S-55.1210 Circuit Analysis 1 (5 cr) 24+24 (2+2) I-II Lecturer: Prof Martti Valtonen Contents: The basic circuit elements: independent sources, resistances, capacitances, inductances, transformers, operational amplifiers and controlled sources. Analysis methods for DC and AC circuits: circuit transformations, mesh, nodal, superposition, Thevenin’s, and Norton’s methods. Basic filters and resonance circuits. Power matching and reactive power compensation. Analysis of symmetrical three-phase circuits. Objective: After the course, students can analyze the operation of small alternating- and direct-current circuits with suitable methods. They understand the concepts of complex effect, filters, etc., and can deepen their knowledge in future courses. Requirements: Final exam or two partial examinations. Literature: Handout. Substitutive: S-55.141 Web page: http://www.ct.tkk.fi/courses/ca1/main.html Additional information: Examination also in English Language: Finnish S-55.1220 Circuit Analysis 2 (5 cr) 24+24 (2+2) III-IV Lecturer: Prof Martti Valtonen Contents: Time-domain analysis using Laplace transform. Harmonic analysis. Driving-point and transfer functions, natural frequencies of the circuit, and stability. Two-port z-, y- and chain parameters. Smith’s diagram and matching of transmission line circuits. Objective: After the course, students can analyze the transient behavior of circuits using the Laplace transform and know concepts that pertain to system functions. They are able to analyze the operation of transmission-line circuits in both the time and the frequency domain, using, i.e., the Smith diagram. Requirements: Final exam or two partial examinations. Literature: handout. Prerequisites: S-55.1210 Substitutive: S-55.142 Web page: http://www.ct.tkk.fi/courses/ca2/main.html Additional information: Examination also in English Language: Finnish S-55.1300 Circuit Design with APLAC (3 cr) S-55.3110 Network Synthesis (5 cr) S-55.3120 Passive Filters P (5 cr)
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S-55.3130 Active Filters P (5 cr) S-55.3210 Numerical Circuit Design Methods P (5 cr) S-55.3320 Special Assignment in Circuit Theory P (3-5 cr) I, II, III, IV Lecturer: Prof Martti Valtonen Contents: Theoretical or numerical work whose topic is defined separately for each student. Objective: The student will learn to solve independently problems in his or her field. Substitutive: S-55.169 Language: Finnish or English
assignment. Literature: To be announced. Substitutive: Replaces course S-92.305 Web page: http://www.space.tkk.fi/opinnot/kurssit/erityiskysymyksia. html Additional information: Course can be taken several times. Language: Finnish or English S-92.4405 Data Interpretation and Modelling Methods in Remote Sensing P (5 cr) S-96.1020 History of Electrical Engineering P (3 cr) S-96.1101 Applied Field Theory (5 cr)
S-92.3100 Space Physics (5 cr) S-96.1111 Static Field Theory (5 cr) S-92.3113 Spaceflight Instrumentation (5 cr) S-96.1121 Dynamic Field Theory (5 cr) S-92.3121 Satellite Communications (3 cr) S-96.3131 Electromagnetics (5 cr) S-92.3131 Remote Sensing (5 cr) S-92.3145 Radio Astronomy (3 cr)
S-96.3171 Difference Methods in Electromagnetics P (5 cr)
S-92.3186 Laboratory Course in Space Technology (4 cr)
S-96.3173 Finite and Boundary Element Methods in Electromagnetics P (5 cr)
S-92.3192 Special Assignment in Space Technology (5 cr) I, II, III, IV Lecturer: Prof Martti Hallikainen and assistants Contents: An assignment on the development and use of space technology and its applications. The assignment may be a theoretical and/or experimental investigation, including a final report. The assignment may also be carried out by a group of students. Objective: Applying space technology studies in a research project. Prerequisites: S-92.3113 Substitutive: Replaces S-92.192 Web page: http://www.space.tkk.fi/opinnot/kurssit/erikoistyo.html Language: Finnish or English
S-96.3174 Integral Equation Methods in Electromagnetics P (5 cr)
S-92.4135 Microwave Remote Sensing P (5 cr) S-92.4138 Optical Remote Sensing P (3 cr) S-92.4305 Special Problems in Space Technology P (5 cr) I-II (Odd years) Lecturer: Prof Martti Hallikainen or N.N. Contents: A varying topic of current interest on space technology (remote sensing, spaceflight instrumentation). Requirements: Homework and/or one special
S-96.3175 Package Programs in Electromagnetics P (5 cr) S-96.3191 Special Project in Electromagnetics (3-5 cr) I-IV Lecturer: Prof. Nikoskinen, Academy Prof Sihvola and D.Sc. Ari Viitanen Contents: An individual project associated with electromagnetic field analysis Objective: To familiarise the student with electromagnetics research by means of a personal project. Evaluation: 1-5 Substitutive: S-96.191 Web page: http://www.tkk.fi/Yksikot/Sahkomagnetiikka/kurssit/S96.3191/ Language: English S-96.3211 Waveguides and Resonators (5 cr) S-96.3311 Radio Wave Propagation (5 cr) S-96.3410 Antenna Theory (5 cr) TLT.kand Bachelor’s Thesis and Seminar (10 cr)
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Department of Signal Processing and Acoustics BIO.kand Bachelor’s Thesis and Seminar (10 cr) EST.kand Bachelor’s Thesis and Seminar (10 cr) S-0.1050 Finnish Literature I (1-2 cr) S-0.1051 Finnish Literature II (1-2 cr) S-0.1104 Introduction to Cell Biology (6 cr) S-0.1501 Orientation Course for Sudies in Bioinformation technology (1 cr) Autumn Lecturer: Faculty personal Contents: General information on TKK and student union, and introduction to Bioinformation technology. Requirements: Attending lectures, library exercise, and own study plan for M.Sc. studies. Literature: Study Programme and Faculty’s own study programme Additional information: Language: Tutoring in English is possible. Language: Finnish S-88.1110 Digital Technology, basic course (3 cr) S-88.2111 Signal Processing in Telecommunications I (3 cr) 24+12 (4+2) IV Lecturer: D.Sc. (Tech) Stefan Werner and visiting lecturers from industry Contents: Channel models for digital communications, channel capacity. Matched filter, Nyquist criterion, raised cosine filtering, general design of pulse shaping filters for transmitter and receiver. Linear equalizer, decision-feedback equalizers. Zero-forcing and minimum mean square error equalizer. Adaptive equalizer implementation. Optimal maximum likelihood reception, Viterbi algorithm. Echo cancellation. Practical examples of applications to signal processing of mobile communications and digital subscriber lines. Objective: Understanding the role, the limits and the basic techniques of DSP in practical telecommunications systems. Requirements: Examination. Solving of voluntary homework problems and MATLAB exercise. Literature: Handout. Prerequisites: S-72.1140 Substitutive: S-88.2211 and S-88.211. Web page: http://wooster.hut.fi/kurssit/s882111/ Language: English S-88.2145 Stochastic Processes in Communications (4 cr) S-88.3105 Digital Signal Processing Systems (5 cr) 24+24 (4+4) I (Uneven years)
Lecturer: Prof. Risto Wichman Contents: Design of FIR filters, multirate filters, filterbanks and wavelets and their applications Objective: Master advanced digital filter concepts and their applications Requirements: Examination and exercise work. Literature: S.K.Mitra: Digital Signal Processing - A Computer Based Approach 3rd Edition. McGraw-Hill. Chapters 13 - 15 Prerequisites: T-61.3010 or equivalent knowledge. Substitutive: S-88.105 Web page: http://wooster.hut.fi/kurssit/s883105/ Additional information: Equals S-88.3106. Only one of the courses S-88.3105 and S-88.3106 can be included in the degree programme. Language: English S-88.3106 Digital Signal Processing Systems (5 cr) S-88.3132 Design of VLSI Circuits (4 cr) S-88.3150 Digital Technology, laboratory course (2 cr) S-88.3155 Signal Processing, special assignment (5-10 cr) 0+48 (0+2) I-IV Lecturer: Prof Jorma Skyttä, Prof Visa Koivunen, Prof Risto Wichman, assistants. Contents: An independent design project related to digital signal processing, circuit design, computer equipment or system programming. Objective: The goal of the course is to train to individual work within a demanding project. Requirements: Design and implementation of the assignment under the guidance of a tutor. Final report. Substitutive: S-88.155 Web page: http://wooster.hut.fi/kurssit/s883155.html Additional information: The content of this course varies and it can be included several times into the degree programme. Language: Finnish and English S-88.4175 Signal Processing in Wireless Communications P (4 cr) 24+24 (4+4) I Lecturer: Prof. Risto Wichman Contents: System concepts and baseband signal processing techniques for broadband wireless communications: multiantenna transceivers, diversity techniques, techniques to increase data rates, radio channel models Objective: Master practical multiantenna transceiver techniques used in modern wireless communication systems Requirements: Examination and project work. Literature: A. Hottinen, O. Tirkkonen, R. Wichman: Multiantenna transceivers for 3G and beoynd, Wiley, 2003.
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Prerequisites: S-72.1140 recommended. Substitutive: S-88.175 Web page: http://wooster.hut.fi/kurssit/s884175.html Language: English S-88.4191 Individual Course in Signal Processing P (210 cr) I-IV Lecturer: Prof. Jorma Skyttä, Prof. Visa Koivunen and Prof. Risto Wichman Contents: The topic and depth of the course is negotiated with one of the teachers. Objective: The goal of the course is negotiated individually. Substitutive: S-88.190, S-88.4190 Additional information: The contents of this course varies and it can be included several times into the degree programme. Language: Finnish or English S-88.4200 Statistical Signal Processing P (5 cr) 24+24 (2+2) III-IV Lecturer: Prof. Visa Koivunen Contents: Basics in parameter estimation, optimum filtering and signal detection. Estimation of deterministic unknown parameters, estimation of random parameters, optimum filtering, Wiener, LMS, Kalman, EKF, high resolution spectral and direction of arrival (DOA) estimation, signal detection. Objective: The course objective is to let the student obtain the capability to quantify the influence of measurement errors like noise on parameters (measures) derived from measurements and to determine lower bounds on those estimation errors. Furthermore, he will be able to distinguish concepts like Minimum Mean Square Error-, Minimum Absolute Error-, and Maximum A Posteriori estimates. After the course the student will be able to select the proper algorithm to solve a deterministic or stochastic estimation problem. Requirements: Examination, Matlab project work. Literature: Handout. Prerequisites: T-61.3010 or equivalent knowledge Substitutive: S-88.200 Web page: http://wooster.hut.fi/kurssit/s884200.html Language: English S-88.4205 Image and Video Compression P (4 cr) 24+24 (4+4) III Lecturer: Prof. Visa Koivunen Contents: Representation methods of video signals, picture composition and sampling, estimation of motion, filtering, picture and video signal coding, standards. Objective: After completing this course students will understand the basic principles of the current video and image compression algorithms. Requirements: Examination. Literature: Handout based on the following books: Y.Q.Shi - H.Sun: Image and Video Compression for Multimedia Engineering and I.E.G. Richardson: H.264 and MPEG-4 Video Compression. Prerequisites: T-61.3010 or equivalent knowledge.
Substitutive: S-88.205 Web page: http://wooster.hut.fi/kurssit/s884205.html Language: English S-88.4212 Signal Processing in Telecommunications II P (4 cr) 24+12 (4+2) II Lecturer: D.Sc. (Tech.) Stefan Werner Contents: Receiver functions continued (from S88.2111), particularly synchronization and channel estimation issues. Maximum Likelihood estimation and Cramer-Rao bounds, carrier frequency and phase estimation schemes, symbol timing estimation. Objective: Understanding the principles of important DPS functions in the receivers and their implementation. Requirements: Examination. Solving of voluntary homework problems. Literature: U.Mengali - A.N.D’Andrea: Synchronization Techniques for Digital Receivers. Plenum Press 1997, 520 p. Prerequisites: S-88.2111 Substitutive: S-88.212 Web page: http://wooster.hut.fi/kurssit/s884212/ Language: English S-88.4221 Postgraduate Seminar on Signal Processing 1 P (4-8 cr) 24+12 (2+1) I-II Lecturer: N.N. Contents: A postgraduate seminar on annually varying subjects within the field of signal processing in telecommunications. The subject will be announced at the beginning of the term. Objective: The goal of the course is to train the student to work within a scientific seminar by giving presentations within the field of the annually varying topic. Requirements: Seminar presentations and exercises. Literature: To be announced. Substitutive: S-88.221 Web page: http://wooster.hut.fi/kurssit/s884221/s884221.html Additional information: The content of this course varies and it can be included several times into the degree programme. Language: English S-88.4222 Postgraduate Seminar on Signal Processing 2 P (4-8 cr) 24+12 (2+1) III-IV Lecturer: Prof. Visa Koivunen, prof. Jorma Skyttä and prof. Risto Wichman Contents: A postgraduate seminar on annually varying subjects within the field of information technology. The subject will be announced at the beginning of the term. Objective: The goal of the course is to train the student to work within a scientific seminar by giving presentations within the field of the annually varying topic. Requirements: Seminar presentations and exercises.
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Literature: To be announced. Substitutive: S-88.222 Web page: http://wooster.hut.fi/kurssit/s884222.html Additional information: The content of this course varies and it can be included several times into the degree programme. Language: English S-88.4223 Postgraduate Seminar on Signal Processing 3 P (4-8 cr) 24+12 (2+1) III-IV Lecturer: Prof. Visa Koivunen, prof. Jorma Skyttä and prof. Risto Wichman Contents: A postgraduate seminar on annually varying subjects within the field of information technology. The subject will be announced at the beginning of the term. Objective: The goal of the course is to train the student to work within a scientific seminar by giving presentations within the field of the annually varying topic. Requirements: Seminar presentations and exercises. Literature: To be announced. Substitutive: S-88.223 Web page: http://wooster.hut.fi/kurssit/s884223.html Additional information: The content of this course varies and it can be included several times into the degree programme. Language: English S-88.4224 Postgraduate Seminar on Signal Processing 4 P (4-8 cr) 24+12 (2+1) I-II Lecturer: Prof. Visa Koivunen, prof. Jorma Skyttä and prof. Risto Wichman Contents: A postgraduate seminar on annually varying subjects within the field of information technology. The subject will be announced at the beginning of the term. Objective: The goal of the course is to train the student to work within a scientific seminar by giving presentations within the field of the annually varying topic. Requirements: Seminar presentations and exercises. Literature: To be announced Substitutive: S-88.224 Web page: http://wooster.hut.fi/kurssit/s884224.html Additional information: The content of this course varies and it can be included several times into the degree programme. Language: English S-89.2300 Sound and Voice Technology (5 cr) 24 + 24 (4 + 4) I Lecturer: Prof Matti Karjalainen Contents: Fundamental concepts in acoustics. Sound and voice as physical phenomena and communications signals. Hearing and auditory perception. Music and speech. Audio technology. Room and auditorium acoustics. Noise. Objective: After the course the student knows and understands the basic acoustical concepts and terminology, has a broad sense view of sound and voice
technology and its subfields and can calculate or approximate simplified problems. Requirements: Examination. Literature: Rossing et al: The Science of Sound. 3rd ed. Addison-Wesley. Handout. Substitutive: Replaces course: S-89.300 Web page: http://www.acoustics.hut.fi/teaching/S89.2300/ Additional information: Lectures in Finnish, studying in English independently is possible Language: Finnish, examination in Finnish and English S-89.3310 Acoustics and Physics of Sound (4 cr) 24 + 24 (4 + 4) II Lecturer: Seppo Uosukainen D.Sc. (Tech.) Contents: Mathematical and physical foundations of vibration mechanics and acoustics, sound sources, radiation and propagation of sound, equivalent circuits, acoustical components. Objective: After the course the student masters the foundations of technical acoustics, and can estimate and calculate the generation and behaviour of simple sound and vibration fields. Requirements: Final examination and passed assignments. Literature: Lecture notes (in Finnish). Prerequisites: S-89.2300 Substitutive: Replaces course: S-89.310 Web page: http://www.acoustics.hut.fi/teaching/S89.3310/ Language: lectures and material in Finnish, examination in English can be arranged by agreement. S-89.3320 Communication Acoustics (5 cr) 32 + 16 (2,5 + 1) III-IV Lecturer: Prof Matti Karjalainen Contents: Communication by sound and voice. Sound sources and their properties. Physiology of hearing. Psychology of hearing. Spatial hearing. Auditory modelling. Sound quality. Technical audiology. Objective: The goals of the course are: (a) to obtain an overall understanding of communication by sound and voice, (b) to obtain deeper knowledge on the human auditory system and auditory perception, and (c) to enable access to read scientific literature of the topic and to apply the knowledge in practice. Requirements: Examination. Literature: handout. Substitutive: Replaces course: S-89.320. Web page: http://www.acoustics.hut.fi/teaching/S89.3320/ Language: Lectures in Finnish, examination in English can be arranged by agreement. S-89.3330 Exercise on Acoustical Measurements (1 cr) (4 + 3) III Lecturer: Jussi Pekonen M.Sc. (Tech.) Contents: Exercise on acoustical measuring, which familiarizes with the most common acoustical measuring equipment and basic loudspeaker measurements. Objective: After the course the student knows how to
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perform a basic loudspeaker response measurement and the equipment needed. Requirements: Exercise. Literature: CBE (Computer based education) measurement system Prerequisites: S-89.2300 Substitutive: Replaces course: S-89.330. Web page: http://www.acoustics.hut.fi/teaching/S89.3330/ Language: English or Finnish. S-89.3410 Electroacoustics (4 cr) 24 + 24 (4 + 4) III-IV even years, next time spring 2010 Lecturer: Juha Backman M.Sc. (Tech.) Contents: Nonlinear acoustics, applications of electroacoustical transducers in audio (loudspeakers, headphones, microphones), sound reproduction systems, ultrasound. Objective: Basic information for development of simple electroacoustical devices and for following advanced professional literature. Requirements: Examination or final seminar. Literature: Lecture notes (in Finnish); English material to be agreed separately. Prerequisites: S-89.2300, S-89.3310 Web page: http://www.acoustics.hut.fi/teaching/S89.3410/ Language: lectures in Finnish, examination in English can be arranged by agreement. S-89.3421 Room Acoustics (5 cr) 24 + 24 (4 + 4) III-IV uneven years, next time spring 2009 Lecturer: Henrik Möller M.Sc. (Tech.) Contents: Basics of room acoustics, acoustic conditions of halls and small rooms, room and room acoustical design. Objective: Achieve basic knowledge of room acoustics, both from a theoretical as well as from a design point of view. Requirements: Examination and assignment. Literature: To be announced. Prerequisites: S-89.2300, S-89.3310 Substitutive: Replaces courses: S-89.3420, S-89.420. Web page: http://www.acoustics.hut.fi/teaching/S89.3421/ Language: Finnish, material in English S-89.3430 Acoustic Measurements P (5 cr) S-89.3440 Acoustic Field Theory P (7 cr) S-89.3460 Spatial Sound P (5-8 cr) (8 + 32) ) I-II even years, next time fall term 2008 Lecturer: Ville Pulkki D.Sc. (Tech.) Contents: The influence of listening space to sound. Spatial perception of sound. Recording and reproduction of spatial sound. Subjective and objective evaluation of spatial sound quality. Listening tests. Students design and conduct listening tests in groups. The number of attendees is limited, participants are chosen depending
on their grades in earlier studies. Objective: To learn the basic issues on perception of the spatial attributes of sound. Understand the basic reproduction methods for spatial sound and know the typical deficits in such methods. Knows the basic methods to evaluate spatial sound. How to conduct a scientific project in a team. Requirements: Listening test conduction, exercises and seminar. Literature: handout. Prerequisites: S-89.2300 and S-89.3320 Substitutive: Replaces course: S-89.460. Web page: http://www.acoustics.hut.fi/teaching/S89.3460/ Language: English. S-89.3470 Noise Control (3 cr) S-89.3480 Acoustics Seminar (3 cr) 24 + 12 (2 + 1) III-IV Lecturer: Prof Matti Karjalainen Contents: Current topics in acoustics. Topic changes every year and will be announced in the beginning of the course. Objective: The seminar will introduce students to a selected area of acoustics more deeply than the regular courses can do. The goal is that each student will be involved in a specific topic so that he/she will have competence to work independently on the selected problem area. Requirements: Seminar presentation. Literature: To be announced in the beginning of the course. Prerequisites: S-89.2300 and S-89.3310 or equal knowledge. Substitutive: Replaces course: S-89.480 Web page: http://www.acoustics.hut.fi/teaching/S89.3480/ Language: Finnish or English (will be announced in the beginning of the course) S-89.3490 Acoustics and Audio Signal Processing, special assignment P (1-10 cr) I-IV (Projects are scheduled individually) Lecturer: Prof Matti Karjalainen Contents: Independent research or design project in the field of acoustics and/or audio signal processing. Requirements: Instructed research or design and implementation project and documentation. Web page: http://www.acoustics.hut.fi/teaching/S89.34900/ Language: Finnish or English. S-89.3510 DSP Processors and Audio Signal Processing (5 cr) 24 + 48 (2 + 4) III-IV Lecturer: Henri Penttinen D.Sc. (Tech.) Contents: Architecture, development tools, and assembly programming of general purpose DSP processors. Assembly programming exercise in small groups. Realtime DSP is applied to filtering, shaping, generation, and
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recognition of audio signals and to generate different audio effects. DSP processors used: Texas Instruments TMS320C54, Motorola 56303 and Analog Devices ADSP-21261. Objective: Program an audio algorithm on a DSP processor, understand the purpose and structure of DSP processors, understand the requirements imposed by realtime applications. Requirements: Exercises and assembly programming assignment. Literature: handout and prosessor manuals. Prerequisites: T-61.3010, T-0.3123 recommended. Substitutive: Replaces course: S-89.510. Web page: http://www.acoustics.hut.fi/teaching/S89.3510 Language: Finnish, can be taken in English by agreement.
selected area of audio signal processing more deeply than the regular courses can do. The goal is that each student will be involved in a specific topic so that he/she will have competence to work independently on the selected problem area. Requirements: Attendance, seminar presentation, and seminar paper. Literature: Parts of textbooks and papers from journals and conferences. Prerequisites: S-89.2300 and T-61.3010 Substitutive: Replaces course: S-89.580. Web page: http://www.acoustics.hut.fi/teaching/S89.3580 Language: English. S-89.3610 Processing of Speech Signals (5 cr) S-89.3630 Speech Transmission Technology P (3 cr)
S-89.3540 Audio Signal Processing P (5 cr) 42 + 0 (3 + 0) III-IV Lecturer: Prof Vesa Välimäki Contents: General overview, history, and applications of audio signal processing, sampling rates and number of bits in digital audio, dither, noise shaping, digital filters used in audio, audio-specific design methods for digital filters, sampling rate conversion, analysis methods for audio signals, digital reverberation and effects, 3-D sound and virtual acoustics, sound synthesis, audio coding and multimedia standards. Objective: Students will be able to describe the history, trends, and applications of digital audio signal processing, explain how the sample rate and the number of bits affect audio signal quality, describe the concepts “dither” and “noise shaping”, recognize and design digital filters used in audio signal processing, describe how the sampling rate of a digital audio signal can be altered, list sound analysis, synthesis, and effects processing techniques and their main features, explain basic principles and uses of audio codecs, describe what the concept “virtual acoustics” means, and apply the provided methods using the MATLAB software. Requirements: Special assignment and examination or alternatively special assignment and learning diaries with exercises. Literature: handout and additional reading to be announced in the beginning of the course. Prerequisites: S-89.2300 and T-61.3010. Substitutive: Replaces course: S-89.540. Web page: http://www.acoustics.hut.fi/teaching/S89.3540 Additional information: The course will not be lectured in spring 2009. Next time spring 2010. Language: English. S-89.3580 Audio Signal Processing Seminar (3 cr) 36 + 0 (3 + 0) I-II Lecturer: Cumhur Erkut D.Sc (Tech) Contents: The seminar is devoted to changing current topics in audio signal processing. In fall 2008, the title of the seminar will be sonic interaction design. Objective: The seminar will introduce students to a
S-89.3640 Methods of Speech Processing P (3 cr) S-89.3650 Speech Processing Mathematics P (5 cr) 24+48 (2+4) I-II (the following time year 2008) Lecturer: doc. Tom Bäckström Contents: The basics of those mathematical methods that are commonly used within speech processing. The assumptions and applicability of methods to given problems is studied as well as their theoretical and practical performance. Topics: Enhancement in spectraland subspace-domain, Wiener- and Kalman-filters, beamforming and numerical problems. Objective: Understands basic concepts and ideas in speech enhancement and quantisation, knows the most common methods and is able to choose a suitable method according to requirements and has experience in their development and application. Requirements: Exercises and exam. Literature: Compendium Prerequisites: Two first years mathematics, basics in digital signal processing and recommended S-89.3610. Web page: http://www.acoustics.hut.fi/teaching/S89.3650/ Language: English or Finnish S-89.3680 Speech Processing Seminar (3 cr) 24 + 12 (2 + 1) I-II Lecturer: Prof Paavo Alku, Prof Unto K. Laine Contents: Varying current topics in speech processing. Objective: To be able to take advantage of the basic knowledge of speech processing in understanding stateof-the-art topics in speech science and technology. Requirements: Seminar presentations. Literature: handout. Substitutive: Replaces course: S-89.680. Web page: http://www.acoustics.hut.fi/teaching/S89.3680/ Language: Finnish or English (announce in the beginning of the course). S-89.3690 Speech Processing, special assignment P (110 cr)
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I-IV (Projects are scheduled individually) Lecturer: Prof Paavo Alku Contents: Independent research or design project in the field of speed processing. The topic of the project, which is given by the lecturer, can be within technical or multidiciplinary areas of speech processing. Objective: To be able to carry out a project on a specific topic in speech science and technology. Requirements: Instructed research or design and implementation project and documentation. Substitutive: Replaces course: S-89.690. Web page: http://www.acoustics.hut.fi/teaching/S89.3690 Language: Finnish or English. S-89.4810 Postgraduate Course in Acoustics P (8 cr) 24 + 12 (2 + 1) III-IV Lecturer: Prof Matti Karjalainen Contents: Varying current topics in acoustics. A course work is required. Objective: The seminar will introduce doctoral students to a selected area of acoustics more deeply than the regular courses can do. The goal is that each doctoral student will be involved in a specific topic so that he/she will have competence to do scientific research independently on the selected problem area. Requirements: Seminar presentations, course work and report. Target group: Only postgraduate students. Literature: To be announced in the beginning of the course. Substitutive: Replaces course: S-89.810. Web page: http://www.acoustics.hut.fi/teaching/S89.4810 Additional information: Organized together with the seminar course S-89.3480. Language: Finnish or English (to be announced in the beginning of the course). S-89.4820 Postgraduate Course in Audio Signal Processing P (8 cr) 36 + 0 (3 + 0) I-IV Lecturer: Cumhur Erkut D.Sc (Tech) Contents: The postgraduate course is devoted to changing current topics in audio signal processing. It consists of two parts: a seminar and a special assignment. The course is intended for persons who have a Master’s degree. In 2008-2009, the title of the course will be sonic interaction design. The seminar part will be arranged in fall 2008 in connection with the Audio Signal Processing
Seminar (S-89.3580). In addition, the students taking this course are asked to produce a special assignment that is related to the theme of the course. Both parts of the postgraduate course must be finished within one academic year. Objective: The seminar will introduce doctoral students to a selected area of audio signal processing more deeply than the regular courses can do. The goal is that each doctoral student will be involved in a specific topic so that he/she will have competence to do scientific research independently on the selected problem area. Requirements: Attendance, seminar paper, presentation, special assignment and report. Target group: Only postgraduate students. Literature: Parts of textbooks and papers from journals and conferences. Substitutive: Replaces course: S-89.820. Web page: http://www.acoustics.hut.fi/teaching/S89.4820 Additional information: Organized together with the seminar course S-89.3580. Language: English. S-89.4830 Postgraduate Course in Speech Processing P (8 cr) 24 + 12 (2 + 1) I-II Lecturer: Prof Paavo Alku, Prof Unto K. Laine Contents: Varying current topics in speech processing. A course work is required. Objective: The seminar will introduce doctoral students to a selected area of speech processing more deeply than the regular courses can do. The goal is that each doctoral student will be involved in a specific topic so that he/she will have competence to do scientific research independently on the selected problem area. Requirements: Seminar presentations, course work and report. Target group: Only postgraduate students. Literature: To be announced in the beginning of the course. Substitutive: Replaces course: S-89.830. Web page: http://www.acoustics.hut.fi/teaching/S89.4830 Additional information: Organized together with the seminar course S-89.3680. Language: Finnish or English (announced in the beginning of the course). TLT.kand Bachelor’s Thesis and Seminar (10 cr)
Department of Electrical Engineering BIO.kand Bachelor’s Thesis and Seminar (10 cr)
S-0.1051 Finnish Literature II (1-2 cr)
EST.kand Bachelor’s Thesis and Seminar (10 cr)
S-0.1104 Introduction to Cell Biology (6 cr)
S-0.1050 Finnish Literature I (1-2 cr)
S-0.1501 Orientation Course for Studies in
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Bioinformation technology (1 cr) Autumn Lecturer: Faculty personal Contents: General information on TKK and student union, and introduction to Bioinformation technology. Requirements: Attending lectures, library exercise, and own study plan for M.Sc. studies. Literature: Study Programme and Faculty’s own study programme Additional information: Language: Tutoring in English is possible. Language: Finnish S-17.1010 Electrical Power Technology (4 cr) S-17.2020 Electromechanics and Electric Drives (6 cr) S-17.2030 Electromechanics and Electric Drives (6 cr) III-IV Lecturer: Dr Tech Anouar Belahcen, researcher Contents: Magnetic systems, properties of ferromagnetic materials, principles of electromagnetic energy convertion, transformers. Basic principles of rotating electric machines. Commutator machines, induction machines, synchronous machines. Commutator motor drives, induction motor drives and synchronous generators, -motors and -drives. Problems and laboratory exercises. Objective: The goal of the course is to understand the three-phase electrical system and to learn the structure, operations and models of electrical machines. Requirements: Lectures, exercises and assignments. Evaluation: Examination, accepted exercises and assingment. Target group: Course is targeted for Master´s -students but everyone interested is welcome. Literature: Sen: Principles of Electric Machines and Power Electronics. Substitutive: S-17.2020 and S-17.2030 are interchangeable. Only one of the courses can be included in a degree programme. Replaces S-17.103. Web page: www.tkk.fi/Units/Electromechanics/education/index_eng lish.html Additional information: S-17.2020 and S-17.2030 are interchangeable. Only one of the courses can be included in a degree programme. Language: English S-17.3010 Numerical Methods in Electromechanics P (5 cr) 27+27 (2+2) I Lecturer: Prof. Antero Arkkio Contents: Numerical methods for the analysis of electric, magnetic and thermal fields. Field formulations and finite element method for the solution of two- and threedimensional fields. Electrical machine applications including coupled field and circuit problems, magnetically non-linear materials and modelling of motion. Objective: To learn to know the numerical methods used
for modelling electrical machines. Requirements: Examination and two exercises. Evaluation: Exam determines the grade. Approved exercises. Target group: Compulsory for level 3 module in Electromechanics. Literature: Handout. Prerequisites: S-17.2020/2030 or comparable knowledge. Substitutive: Replaces S-17.153. Web page: http://www.tkk.fi/Units/Electromechanics/education/inde x.html Language: Finnish or English. The language will be chosen at the first lecture. S-17.3020 Transient Phenomena in Electrical Machines P (5 cr) 27+27 (2+2) II Lecturer: Prof. Antero Arkkio Contents: Space vector theory, direct and quadrature axis theory. Dynamic models of rotating electric machines. Numerical and analytical methods for linear and nonlinear differential equations, and analysis of some typical transients in commutator, induction and synchronous machines. Objective: To learn the methods for modelling transient phenomena of electrical machines. Requirements: Examination and two homeworks. Evaluation: Exam results defines course grade. Target group: Compulsory in the level 3 module Electromechanics. Literature: Handouts. Prerequisites: S-17.2020/2030 or equivalent knowledge. Substitutive: Replaces S-17.162 Web page: http://www.tkk.fi/Units/Electromechanics/education/inde x.html Language: Finnish of English. The language will be chosen at the first lecture. S-17.3030 Design of Electrical Machines P (5 cr) 20+40 (2+4) III Lecturer: Prof. Antero Arkkio Contents: Dimensioning of the magnetic circuit and windings. Noise of electrical machines. Practical exercise on a transformer. Objective: To learn to design and dimension transformers and rotating electrical machines taking the economical, technical and environmental aspects into account. Requirements: A practical exercise and three calculation exercises. Evaluation: The grade of the course bases on the grades of the parctical exercise, report and calculation exercises. Target group: Compulsory in the level 3 module Electromechanics. Literature: Handouts. Prerequisites: S-17.2020 or equivalent knowledge. Substitutive: Replaces S-17.121. Web page: http://www.tkk.fi/Units/Electromechanics/education/inde
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x.html Language: Finnish or English. The language will be chosen at the first lecture. S-17.3040 Seminar on Electromechanics P (5 cr) 10+44 (1+3)IV Lecturer: Prof. Antero Arkkio Contents: The topic of the seminar is chosen annually from the field of electromechanics, such as electromechanical interactions, material modelling, thermal modelling, rotor dynamics, higher harmonics in electrical machines, special electrical machines, etc. Objective: To learn to collect and comprehend new knowledge and to present it for other people. Requirements: Five lectures will be given at the beginning of the course on the topic chosen. After the lecture period, the student prepares a seminar presentation and presents it. Evaluation: Accepted seminar presentation. The examination result defines the grade of the course. Target group: Compulsory in the level 3 module Electromechanics. Literature: Lecture material and extracts from journal articles. Web page: http://www.tkk.fi/Units/Electromechanics/education/inde x.html Additional information: The course in spring 2009 deals with the materials used in electrical machines. Language: English S-17.3050 Special Course on Electromechanics P (5 cr) 27+27 (1+1) I-II Lecturer: Prof. Antero Arkkio Contents: The topic of the seminar is chosen annually from the field of electromechanics, such as electromechanical interactions, material modelling, thermal modelling, rotor dynamics, higher harmonics in electrical machines, special electrical machines, etc. Objective: To obtain profound knowledge on a chosen topic of electrical machines. Requirements: Lectures and a practical exercise Evaluation: Examination defines the grade. The homework has to be accepted. Literature: Lecture material and extracts from literature. Web page: http://www.tkk.fi/Units/Electromechanics/education/inde x.html Additional information: The course in autumn 2008 deals with electromechanical energy conversion. Language: Finnish or English. The language will be chosen at the first lecture. S-17.3710 Electromechanics, special assignment (2-10 cr) 4+40, I, II, III, IV Lecturer: Prof. Antero Arkkio Contents: An independently conducted, supervised individual assignment on a specific topic relating to electromechanics.
Objective: To deepen the knowledge on Electromachanics, learn to used the acquired knowledge and to learn to conduct research. Requirements: A small, independent research work and reporting the results. Evaluation: The report will be assessed. Prerequisites: S-17.2020 Substitutive: Replaces S-17.170 and S-17.171. Web page: http://www.tkk.fi/Units/Electromechanics/education/inde x.html Language: Report in Finnish, Swedish or English. S-17.3720 Individual Studies in Electromechanics P (2-15 cr) I, II, III, IV Lecturer: Prof. Antero Arkkio Contents: The topic and scope of the course must be agreed with the professor. Objective: Using this course, topics which are not offered in the general study programme can be included to one’s individual studies. Substitutive: Replaces S-17.172. Web page: http://www.tkk.fi/Units/Electromechanics/education/inde x.html Language: Finnish, Swedish or English. S-17.3730 Doing Research P (1 cr) 20+0 (1+0) I-IV Lecturer: Prof. Antero Arkkio Contents: Participates report about their research work. Discussions of the problems and solutions of the problems encountered in research work. Objective: To learn to use scientific research methods or create knew knowledge. Requirements: Participation 20 times to a one hour session within one or a couple of years. Substitutive: Replaces S-17.189. Web page: http://www.tkk.fi/Units/Electromechanics/education/inde x.html Language: English S-17.4020 Postgraduate Seminar on Electromechanics P (3-10 cr) I-II Lecturer: Prof. Antero Arkkio Contents: The topic, contents and scope vary annually. Objective: To deepen one’s knowledge of Electromechanics. Requirements: Typically an intensive course with calculation and modelling exercises. Evaluation: Examination at the end of the course Target group: PhD students Literature: Lecture notes Substitutive: Replaces courses S-17.202, S-17.203, S17.204, S-17.205. Web page: http://www.tkk.fi/Units/Electromechanics/education/inde x.html
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Language: English S-17.4030 Postgraduate Seminar on Electromechanics P (3-10 cr) III-IV Lecturer: Prof Antero Arkkio Contents: The topic, contents and scope vary annually. Objective: To deepen one’s knowledge of Electromechanics. Requirements: Typically an intensive course including calculation and modelling exercises. Evaluation: Examination at the end of the course Target group: PhD students Literature: Lecture notes Substitutive: Replaces courses S-17.202, S-17.203, S17.204, S-17.205. Web page: http://www.tkk.fi/Units/Electromechanics/education/inde x.html Language: English S-17.9000 Electrical Engineering Project (5-8 cr) S-18.2103 Power Systems (5 cr) I-II Lecturer: Prof Matti Lehtonen Contents: Transmission systems, distribution networks, power system components, basics of energy markets, high voltage engineering. Objective: Aim is the student to understand the basics of transmission systems, distribution networks, power system components, energy markets, electrical safety, high voltage engineering Requirements: Examination, calculation exercises, homework and 2 laboratory assignments Literature: Handouts Web page: http://powersystems.tkk.fi/ Additional information: S-18.2103 and S-18.2104 are interchangeable. Only one of the courses can be included in a degree programme. Language: English
Calculation of transient voltages. Overvol-tages, overvoltage protection and insulation coordination. Testing and measuring techniques. Requirements: Seminar, seminar exercises, calculation and laboratory exercises, personal industrial or project task. Prerequisites: S-18.2103 or S-18.2104 Substitutive: Replaces S-18.150 Web page: http://powersystems.tkk.fi/ Additional information: S-18.3146 and S-18.3150 are interchangeable. Only one of the courses can be included in a degree programme Language: English S-18.3153 Electricity Distribution and Markets (6 cr) S-18.3154 Electricity Distribution and Markets P (6 cr) Spring (Period III) Lecturer: John Millar Contents: Planning of urban and rural electricity distribution networks and procedures in open electricity market. The course consists of problem oriented lectures, laboratory exercises and a study tour. Objective: Planning of urban and rural electricity distribution networks and procedures in open electricity market. The course consists of lectures, laboratories, tutorials, exercises and a study tour. Requirements: Examination and laboratory exercises. Literature: 1) Lakervi&Holmes: Electricity Distribution Network Design, 2nd editions. IEE 2003. 2) Lecture slides Prerequisites: S-18.2103 or S-18.2104 Substitutive: Replaces course S-18.154. Web page: http://powersystems.tkk.fi/ Additional information: S-18.3153 and S-18.3154 are interchangeable. Only one of the courses can be included in a degree programme. Language: English S-18.3156 Power Systems Engineering, special assignment (5-8 cr)
S-18.2104 Power Systems (4 cr)
S-18.3161 Applications of Electric Energy (4 cr)
S-18.3141 Substations and Power Lines (4 cr)
S-18.3200 Power Transmission Systems 1 (6 cr)
S-18.3146 High Voltage Engineering (4 cr)
S-18.3201 Power Transmission Systems 2 (4 cr)
S-18.3147 High Voltage Engineering, special assignment P (5-8 cr)
S-18.4000 Computer Applications in Power Systems P (5 cr) III Lecturer: Prof. Matti Lehtonen Contents: The most significant computer applications used in the management of power systems. Presentation of the most inportant architectures, programs, and applications. Objective: The most significant computer applications used in the management of power systems. Presentation of the most inportant architectures, programs, and applications. Requirements: Active participation, a report, a
S-18.3150 High Voltage Engineering (4 cr) III-IV Spring Lecturer: Jari Hällström D.Sc (Tech.) Contents: Insulations in electric field. Electrical discharges and insulation systems. Calculation of transient voltages. Overvoltages, overvoltage protection and insulation coordination. Testing and measuring techniques. Objective: The student will learn: Insulations in electric field. Electrical discharges and insulation systems.
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presentation and examination. Web page: http://powersystems.tkk.fi/ Additional information: Odd years, starts 2009. Language: English S-18.4001 Communication Systems in Power Systems P (5 cr) III, even years Lecturer: Prof. Matti Lehtonen Contents: The fundamental principles of communication systems for the management of power systems. Presentation of the most important systems, protocols, and interfaces. Objective: The fundamental principles of communication systems for the management of power systems. Presentation of the most important systems, protocols, and interfaces. Requirements: Active participation, a report, a presentation and examination. Web page: http://powersystems.tkk.fi/ Language: English S-18.4002 Information System Applications in Power Systems, seminar course P (6 cr) IV Lecturer: Prof. Matti Lehtonen Contents: The study period is a seminar with varying content that considers current topics related to information system applications in power systems. Objective: The student will learn working in a seminarium. The study period is a seminar with varying content that considers current topics related to information system applications in power systems. Requirements: Active participation and examination. Literature: The literature is based on books and new publications. Web page: http://powersystems.tkk.fi/ Language: English S-18.4018 Protective Relaying in Power Systems P (4 cr) I Lecturer: Prof Matti Lehtonen Contents: Protective relays in power distribution and transmission. Neutral earthing questions. Earth faults. Characteristics of power system faults. Objective: The student will learn: Protective relays in power distribution and transmission. Neutral earthing questions. Earth faults. Characteristics of power system faults. Requirements: Examination Literature: Handout. Web page: http://powersystems.tkk.fi/ Language: English S-18.4122 Postgraduate Seminar on Power Systems P (3-10 cr) S-18.4148 Postgraduate Seminar on High Voltage Engineering P (3-10 cr)
S-18.4149 Condition Monitoring of Electrical Apparatus P (4 cr) S-81.1000 Electrical Engineering Forum P (1-2 cr) 12+0 (2+0) III-IV Lecturer: prof. Jorma Kyyrä Contents: A joint lecture series organized by the Department of Electrical Engineering. The topics discussed are up-to-date in electrical engineering. They include national and international product, business and technology strategies, presentations on economic, social and juridical problems arising from the application of the latest research results and technology. Speakers are specialists in their areas; scientists, innovators, and business and technology managers. Objective: Course gives wide perspective of electrical engineering and its recent development. Requirements: For 1 credit it is required to participate and write summaries of six presentations. An additional credit is obtained from an examination of the book. Literature: Lindell: Sähkötekniikan historia, Otatieto, 1994. Prerequisites: None and the course is also recommended for the first year undergraduate students. Substitutive: Replaces S-81.002. Web page: http://powerelectronics.tkk.fi/education/s811000/ Additional information: Varying content Language: Some lectures may be held in English. S-81.1900 Electrical Engineering Project (5-8 cr) Autumn & Spring I-II, III-IV Lecturer: Prof Jorma Kyyrä, assistants and researchers Contents: Organization and follow-up of a project. Working in a project, getting familiar with engineering work. The course is intended for first year students but senior students may participate as well. Objective: To learn project work in a team and to becom familiar with some area of electrical engineering. Requirements: Active participation in the project work and reporting according to the project plan. The number of students accepted and registration are announced at the beginning of the term. The evaluation of the report is pass/fail. Evaluation: Pass / fail. Substitutive: Replaces S-81.900. Web page: http://powerelectronics.tkk.fi/education/s811900/ Language: Finnish, Swedish, English. S-81.2100 Power Electronics (4 cr) S-81.2110 Power Electronics (5 cr) 20+20 (2+2) I-II Lecturer: Prof Jorma Kyyrä Contents: The course gives an introduction to power electronics used in electric drives and power supplies. Topics discussed are: power electronic systems, power semiconductor switches, line-commutated ac-dc rectifiers, dc-dc switch-mode converters, self-commutated dc-ac inverters.
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Objective: After the course student knows the operation principles of power electrronics and the operation of the most essential converters. Requirements: Lectures, problem solving classes, learning diaries and two laboratory exercises. Evaluation: Examination, learning diaries and laboratory exercises. Literature: Part of Mohan, Undeland & Robbins: Power Electronics, John Wiley & Sons, 1995/2003. Substitutive: Replaces S-81.103. Web page: http://powerelectronics.tkk.fi/education/s812110 Additional information: Language: English Only one of the courses S-81.2100/2110 can be included in the degree programme. Language: English S-81.2200 Embedded Microprocessor Systems (3 cr) S-81.3100 Switch Mode Power Supplies (5 cr) 24 + 18 (4+3) IV Lecturer: Prof Jorma Kyyrä Contents: Topologies of most typical power supplies based on switching technique. Dc-dc converters, resonant converters, galvanic isolation, feedback control, rectification with a diode bridge and associated power factor correction. Requirements: Examination and simulation exercises. Objective: To learn operation principles of modern power supplies and dimensioning of them. Requirements: Lectures, problem solving classes, and computer simulation assignments. Evaluation: Exam and simulation exercise. Literature: Handout. Prerequisites: Basics of electrical engineering and electronics. Substitutive: Replaces S-81.141. Web page: http://powerelectronics.tkk.fi/education/s813100/ Additional information: Independent studies are possible in English. Language: Finnish S-81.3110 Converter Techniques (5 cr) 24+18 (4+3) III Lecturer: Prof Jorma Kyyrä Contents: Operation, selection and dimensioning of converters is studied more closely than in S-81.2100. Line- and self-commutated converters, voltage- and current-source converters and direct converters. In addition, harmonics and their filtering as well as protection of power semiconductor switches are discussed. Objective: To learn operating principles of various converters and to select and dimension converters according to the application. Requirements: Lectures, problem solving classes, computer simulation assignments, and laboratory exercises. Evaluation: Examination, simulation and laboratory exercises.
Literature: Handout. Substitutive: Replaces S-81.112. Web page: http://powerelectronics.tkk.fi/education/s813110/ Additional information: Independent studies are possible in English. Language: Finnish S-81.3120 Components of Power Electronics (5 cr) S-81.3200 Real-time Systems Design (3 cr) S-81.3210 Project Course on Embedded Systems (5 cr) S-81.3300 Control of Electric Drives (5 cr) 24+12 (4+2) IV Lecturer: Prof Jorma Luomi Contents: Characteristics and models of electric motors in electric drives. Current control and motion control. Control methods based on the vector model. Estimation of flux, torque and speed for sensorless control. Objective: The objective of the course is to learn methods that can be used for controlling the rotational speed and torque of electric motors fed by power electronics. Requirements: Lectures, problem solving classes, and computer simulation assignments Evaluation: Examination and simulation assignments Literature: Handout. Substitutive: Replaces S-81.310 Web page: http://powerelectronics.tkk.fi/education/s813300/ Additional information: Independent studies are possible in English. Language: Finnish S-81.3310 Design of Electric Drives (5 cr) S-81.3400 Special Assignment on Industrial Electronics and Electric Drives (2-10 cr) I-II, III-IV Autumn & Spring Lecturer: Prof Luomi, Prof Ovaska or Prof Kyyrä Contents: The course is composed of a personal special assignment or participation in some of the research projects in the laboratory. The topic of the work has to be discussed and approved before starting. Objective: The aim is to deepen one’s knowledge in some of the areas of electric drives and power electronics and to apply it. Requirements: The report describing the work is evaluated. Substitutive: Replaces S-81.131. Web page: http://powerelectronics.tkk.fi/education/s813400/ Language: Finnish, Swedish or English S-81.4100 EMC in Power Electronics P (5 cr) 20+10 (4+2) III Lecturer: Prof. Jorma Kyyrä Contents: Electromagnetic compatibility in power electronics, especially conducted emissions. An overview
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of EMC standards, conducted EMI measurements, EMI in power electronic equipment, EMI filter elements, noise suppression, EMI filter design, testing for conducting susceptibility, reduction techniques for internal EMI. Objective: To understand electromagnetice interferences in power electronics and measurement and filtering of them. Requirements: Lectures, problem solving classes, and a seminar presentation on a selected EMC topic. Evaluation: Examination and a seminar presentation on a selected EMC topic. Literature: László Tihanyi: Electromagnetic compatibility in power electronics, IEEE Press, 1995 Prerequisites: Basics of power electronics. Substitutive: Replaces S-81.135. Web page: http://powerelectronics.tkk.fi/education/s814100/ Language: English S-81.4200 Special Course in Industrial Electronics I P (5 cr) 24 (2) I-II Lecturer: Prof Seppo Ovaska Contents: Lecture and seminar course for undergraduate and postgraduate students on some timely topic of industrial electronics. The course content changes annually. More detailed information is available on the www-pages of the laboratory. Requirements: Seminars and exercises.
Substitutive: Replaces S-81.220. Web page: http://powerelectronics.tkk.fi/education/s814200/ Additional information: Varying content Language: English S-81.4210 Special Course in Industrial Electronics II P (5 cr) 24 (2) III-IV Lecturer: Prof Seppo Ovaska Contents: Lecture and seminar course for undergraduate and postgraduate students on some timely topic of industrial electronics. The course content changes annually. More detailed information is available on the www-pages of the laboratory. Requirements: Seminars and exercises. Web page: http://powerelectronics.tkk.fi/education/s814210/ Additional information: Varying content Language: English S-81.4400 Research Seminar on Industrial Electronics and Electric Drives P (1 cr) S-81.4410 Postgraduate Course on Electric Drives and Power Electronics P (5-10 cr) TLT.kand Bachelor’s Thesis and Seminar (10 cr)
Department of Communications and Networking (2 cr) BIO.kand Bachelor’s Thesis and Seminar (10 cr) EST.kand Bachelor’s Thesis and Seminar (10 cr) S-0.1050 Finnish Literature I (1-2 cr) S-0.1051 Finnish Literature II (1-2 cr) S-0.1104 Introduction to Cell Biology (6 cr) S-0.1501 Orientation Course for Studies in Bioinformation technology (1 cr) Autumn Lecturer: Faculty personal Contents: General information on TKK and student union, and introduction to Bioinformation technology. Requirements: Attending lectures, library exercise, and own study plan for M.Sc. studies. Literature: Study Programme and Faculty’s own study programme Additional information: Language: Tutoring in English is possible. Language: Finnish S-38.1105 Principles in Communication Engineering
S-38.1145 Introduction to Teletraffic Theory (3 cr) 24 + 12 (4 + 2) III Lecturer: Samuli Aalto Ph.D Contents: Teletraffic modelling. Traffic processes. Examples of data and telephone traffic. Basic probability theory recap. Poisson process. Markov processes. Birthdeath processes. Loss models. Queueing models. Sharing models. Network models. Simulation. Traffic engineering. Objective: To learn (i) to model the traffic of various telecommunication systems (e.g. a link in a data or telephone network) by Markov birth-death processes and (ii) to analyse these models to determine the quality of service (e.g. the average packet delay or the call blocking probability) or the performance (e.g. utilization) of the system under consideration. Requirements: Examination. Literature: Handout. Prerequisites: Mat-1.2600 Substitutive: S-38.145 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.1145/ Language: Lectures are given both in Finnish and in English.
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S-38.1203 Networking Technology, project course (3 cr) S-38.1600 UNIX Application Programming (5 cr) S-38.2121 Routing in Communication Networks (4 cr) 27 + 14 (2 + 1) II Lecturer: Nicklas Beijar M.Sc. (Tech.), Prof Raimo Kantola Contents: Routing in packet switched and circuit switched networks. Routing protocols in the Internet. Multicast routing. Routing in mobile networks. Objective: To learn (i) basic problems in routing and routing algorithms and (ii) the most used routing protocols. Requirements: Examination and exercises. Literature: To be announced and handout. Prerequisites: S-72.1130 Substitutive: S-38.121. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.2121/ Language: English S-38.2131 Networking Technology, laboratory course A (1-3 cr) 0 + 9 IV Lecturer: Vesa Kosonen M.Sc. (Tech.) Contents: Laboratory works which cover the basics of networking technology. Works include routing (RIP, OSPF), security, WLAN etc. Objective: Students understand how routing functions in practice. Requirements: laboratory works (2-5 works) and learning diary. Literature: Educational material and laboratory’s publications Prerequisites: S-38.2121, S-38.2188 Substitutive: S-38.2132 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.2131/ Language: English S-38.2188 Communication Networks (5 cr) 24 + 12 (4 + 2) I-II Lecturer: Jouni Karvo D.Sc.(Tech.) Contents: IP networks and routing. TCP and Internet congestion control. Some important Internet application layer sevices and protocols. Basics of network security. Objective: The student can describe the operation of Internet. Requirements: Examination, assignment. Literature: James F. Kurose, Keith W. Ross: Computer Networking - A top down approach featuring the Internet Prerequisites: S-72.1130 Substitutive: S-38.188. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.2188/ Additional information: S-38.2188 and T-110.4100 are interchangeable. Only one of the courses can be included in the degree programme. Language: English S-38.3001 Telecommunications Forum P (1-5 cr) I-II
Lecturer: Prof Heikki Hämmäinen Contents: Telecommunications Forum is a studia generalia course hosted by the Department of Communication and Networking Technology (ComNet). The course handles hot topics in Internet and wireless information technology including global and national trends, product, business and technology strategies and covers issues from recent advances in research to the social, economic and legal impact of the application of the latest technology. The guest speakers are leaders in their fields, scientists, innovators, and business and technology officers in their companies. Objective: The student can discuss the general strategy and policy issues of Internet and wireless information technology. Requirements: Attending lectures, assignment, examination. The detailed requirements will be given annually. Literature: To be announced. Prerequisites: None. Substitutive: S-38.001 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3001/ Language: English S-38.3041 Operator Business P (3-5 cr) 24 + 12 (4 + 2) I Lecturer: Prof. Heikki Hämmäinen Contents: Operator business. Value nets. Network and service business. Wireline and wireless networks. Service pricing and charging. Investments and operational costs. Regulatory issues. Objective: Learn to holistically combine the substance of earlier technology and economics courses and to apply for the business environment of (mobile) operators. Requirements: Examination Prerequisites: S-38.2188, TU-22.1130 Substitutive: S-38.041 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3041/ Language: English S-38.3042 Seminar on Networking Business P (3-8 cr) II Lecturer: Prof Heikki Hämmäinen Contents: Licentiate seminar on current topics of networking business. Objective: Learn independent business thinking, to present ideas and to defend them. Requirements: Seminar presentation, written document, acting as opponent and participation. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3042/ Additional information: Varying content. Language: English. S-38.3045 Special Assignment on Networking Business (2-6 cr) I-II, III-IV Lecturer: Prof Heikki Hämmäinen Contents: Personal assignment on networking business. The course should be completed before beginning of the Master’s thesis. The amount of credits is to be agreed with the supervising professor.
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Objective: Learn to solve problems and write independently. Substitutive: S-38.045 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3045/ Language: Finnish, Swedish and English. S-38.3115 Signalling Protocols (5 cr) 41 + 4 III-IV Lecturer: Prof Raimo Kantola Contents: Signalling in telecommunications- and datanetworks, e.g. telephonenetwork and GSM-network, 3-G-network, VoIP. Objective: The objective of the course is to give students a strong background in signaling systems used in different networks. Requirements: Examination and exercises. Literature: To be announced later. Prerequisites: S-72.1130 or equal knowledge. Substitutive: S-38.120, S-38.115. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3115/ Language: English. S-38.3119 Seminar on Networking Technology (2-4 cr) Lecturer: N.N. Contents: One or two hot topics in networking technology will be discussed in seminar form. Objective: Getting to know current research trends in the field of Delay-tolerant networking and reviewing some of the latest research in this field. Requirements: (Arranged when needed) Prerequisites: S-72.1130. Substitutive: S-38.119 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3119/ Language: English S-38.3133 Networking Technology, laboratory course B (2-5 cr) 0 + 31, I-IV Lecturer: Vesa Kosonen M.Sc. (Tech.) Contents: Laboratory works about transmission and networking technology including signalling in telephone networks, ISDN and its services, communication networks, LANs , routing protocols (OSPF, RIP, BGP), VoIP, VPN, security etc. Objective: Students understand how communication networks function in practice. Requirements: Approved laboratory works (3-9 works) and learning diary. Literature: Educational material and laboratory’s publications. Prerequisites: S-38.2131 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3133/ Language: English S-38.3134 Networking Technology, laboratory course C (1-3 cr) 0 + 9, I-IV Lecturer: Vesa Kosonen M.Sc. (Tech.) Contents: Laboratory works about transmission and networking technology including signalling in telephone networks, ISDN and its services, communication
networks, LANs , routing protocols (OSPF, RIP, BGP), VoIP, VPN, security etc. Objective: Students understand how communication networks function in practice. Requirements: Approved laboratory works (2-5 works) and learning diary. Literature: Educational material and laboratory’s publications. Prerequisites: S-38.3133 (including 5 cr = 9 works). Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3134/ Additional information: Advanced course for S-38.3133. Language: English S-38.3138 Networking Technology, special assignment (2-6 cr) I-IV Lecturer: Vesa Kosonen M.Sc. (Tech.) Contents: Special assignment is a personal study which is done before starting the Master’s thesis. The subject is selected from one of the main areas in the networking field. The amount of credits will be agreed together with the supervisor at the start of the work. Objective: Students are able to write scientific reports. Requirements: Report in writing. In addition to that there can be e.g. measurements or simulations depending on the nature of the work. Substitutive: S-38.138 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3138/ Language: English S-38.3141 Teletraffic Theory P (5 cr) 30 + 24 (5 + 2) IV Lecturer: Prof Jorma Virtamo Contents: Traffic characterisation. Dimensioning of networks. MDP theory, optimal routing. Packet level queueing models, HOL blocking in switches. Effective bandwidth. Call level blocking in multibitrate networks. Traffic control, TCP flow control. MAC protocols. Fair resource sharing, dynamic resource sharing. Objective: To learn about teletraffic problems in communication networks and and their analysis by queueing theoretic methods. Requirements: Examination. Exercises obligatory. Literature: A. Kumar, D. Manjunath, J. Kuri, Communications Networking. Prerequisites: S-38.1145, S-38.3143 Substitutive: S-38.141. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3141/ Language: English S-38.3143 Queueing Theory P (5 cr) 30+24 (5+2) II Lecturer: Prof Jorma Virtamo Contents: Principles of probability theory and stochastic processes. Simple Markovian queues. The M/G/1 queue. Blocking probability and delays. Priority queues. Open and closed queueing networks. Objective: To learn the most important queueing systems and methods for their analysis. Requirements: Examination. Exercises obligatory. Literature: Handout.
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Prerequisites: S-38.1145 Substitutive: S-38.143. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3143/ Language: English. S-38.3148 Simulation of Data Networks (5 cr) 24 + 12 (4 + 2) I-II Lecturer: Pasi Lassila, D.Sc. (Tech.) Contents: The goal, possibilities and limitations of simulation approach. Construction of a simulation model, choice of level of detail. Structure of a simulation program. Generation of stochastic variables. Description of traffic sources. Gathering and analysis of measurement data. Variance reduction methods. Building a simulation program. Applications. Objective: The course teaches the basic principles and theory of discrete event simulation. Also, skills in implementation of simulation programs by using simulation tools are developed. Requirements: Examination. Exercises. Literature: J. Banks, J.S. Carson & B.L. Nelson: DiscreteEvent System Simulation, 4th edition (2005). Prerequisites: S-38.1145, C/C++ programming skills recommended. Substitutive: S-38.148. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3148/ Language: English S-38.3151 Delay-tolerant Networking (DTN) (3 cr) I Lecturer: Prof. Jörg Ott, Teemu Kärkkäinen Contents: DTN in an emerging research area that takes a different approach to (inter)networking and allows to work in stressed as well as in highly heterogeneous environments. DTN features a number of unique properties which make this concept applicable to challenged networking environments in which traditional communication paradigms would fail or perform rather poorly: DTN uses only communication based upon asynchronous messaging, does not rely on the existence of an end-to-end path at any point in time, and combines store-and-forward message delivery with physical data carriage. DTN technologies may be applied for challenged static network setups (including, for example, inter-planetary or underwater communications) but is also applied to (sparse) mobile ad-hoc networks to enable communications. Deterministic and/or probabilistic routing mechanisms are applied depending on the respective environment. This course will introduce the fundamentals of this relatively young research area and explore some specific aspects in (practical) assignments. Objective: Obtaining an overview of the discipline of delay- and disruption-tolerant networking and various of its areas of application (including sensornets, space communications, and mobile ad-hoc networks). Understanding the issues in building networks using DTN technologies, learning protocol details, and applying this knowledge in the lab environment. Requirements: To be announced later. Literature: Stephen Farrell and Vinny Cahill: “Delay-
And Disruption Tolerant Networking” Artech House, 2005. Further material to be announced. Prerequisites: 38.2188 or similar knowledge. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3151/ Language: English S-38.3152 Networked Multimedia Protocols and Services (NMPS) (5 cr) 27 + 13 I-II Lecturer: Prof. Jörg Ott Contents: Starting with a review of the basics of IP-based multimedia communications, we will explore the details of media announcements (SAP, SDP), Internet Media Guides (IMG), media streaming (RTSP), and as the focus of the Session Initiation Protocol (SIP) as defined in RFC 3261 and may related documents. We will discuss concepts, protocol details, the concepts for SIP extensions, present SIP building blocks, and the various approaches to SIP-based service creation. Specific application scenarios to be discussed include telephony as well as instant messaging and personal presence. We will also address security and NAT/firewalls traversal. Finally, system design aspects (for endpoints as well as for infrastructures) will be investigated. Objective: Developing a thorough understanding of theory and practice of multimedia communications in IP networks. Obtaining detailed knowledge of the major IETF specifications for IP-based multimedia and learning about trends in this research field. Applying this knowledge in practical lab implementations. Requirements: examination, practical assignment. Literature: To be announced later. Prerequisites: S-38.2188 Communication networks. Substitutive: S-38.3150 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3152/ Language: English S-38.3153 Security of Communication Protocols (4 cr) 27 + 13 (4 + 2) Spring (Period IV) Lecturer: Markus Peuhkuri Lis.Sc.(Tech) Contents: Introduction to data security in communications. Principles, terms, protocols and algorithms of data security. Threats to data security. Objective: Student knows basic terms and principles of data security, the most common protocols and algorithms. Can judge if they are applicable on communication. Requirements: Examination and optional practical assignment. Literature: Book, lecture notes and additional reading. Prerequisites: S-38.2188 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3153/ Additional information: S-38.3153 and T-110.4200 are interchangeable. Only one of the courses can be included in the degree programme. Language: Finnish. Material is written in English. S-38.3155 Challenged Networks P (3 cr) Period III Lecturer: Prof Jörg Ott Contents: We will investigate (network,) transport,
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session, and application layer solutions to communications in challenged networks (with particular focus on delay-tolerant networking) as well as novel networking architectures dealing with such specific environments and also consider potential consequences for applications and user interaction paradigms. Objective: Becoming sensible for and understanding issues of protocols outside the “mainstream” deployments, in environments where common assumptions about communication characteristics (e.g., error rate, bit rate, latency) do no longer hold. Learning about protocol mechanisms to be applied in such environments and getting a snapshot of the latest research work in this field. Requirements: Seminar Literature: To be announced later Prerequisites: S-38.2188. S-38.3115 or S-38.3150 (or equal knowledge). Preferably some practical experience with protocols and systems. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3155/ Language: English S-38.3157 Protocol Design P (4 cr) Spring (Period IV) Lecturer: Prof Jörg Ott Contents: Communication protocols usually are designed with some underlying principles in mind, though these are not always made explicit. In this course, we will investigate protocol design principles, their pros and cons, and their areas of application. We will also review the various techniques used in todays communication protocols to achive certain properties (e.g., scalability, reliability, robustness). Finally, we will look a design methods and tools. The focus will be on todays Internet protocols but we may address other fields where appropriate. Note that the course content differs from previous incarnations. Objective: Understanding architectural and protocol design principles from theory as well as from practical experience. Gaining insight into technical and nontechnical design considerations, from protocol building blocks to political issues. Applying this knowledge and understanding design consequences in practical implementations. Requirements: Examination Literature: To be announced later (various articles, slides). Prerequisites: S-38.2188 Substitutive: S-38.157 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3157/ Language: English S-38.3165 Switching Technology (5 cr) Spring (Period III) Lecturer: Pertti Raatikainen Docent Contents: Structure of switching fabrics and implementation possibilities. Multistage switching fabrics, complexity, scalability and capacity. PDH- and ATM-switches, Gbit/s-routers, optical switching elements. Basics of WDM-technology: static networks, wavelenght routing, logically routed networks.
Objective: The objective of the course is to clarify what is meant by switching in transport networks and to give understanding of the basic structures, dimensioning priciples and technologies of the switching devices. After passing the course, the student knows the basic methods to design switching devices - especially how to choose and dimension a switch fabric for a specified switching application - in electronic or optical transport networks. Requirements: Examination and exercises. Literature: To be announced later. Prerequisites: S-72.1130 or equal knowledge. Substitutive: S-38.164, S-38.165. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3165/ Language: Finnish. The course can also be self-studyed in English. S-38.3184 Network Traffic Measurements and Analysis P (5 cr) IV Lecturer: Dr Aleksi Penttinen, Marko Luoma Lic.Sc. (Tech), Markus Peuhkuri Lic.Sc. (Tech) Contents: This course introduces different ways of measuring Internet traffic and analyzing the results. Course topics include packet, flow and routing related measurements and analysis. Objective: To learn about measuring network traffic and analyzing the results. Requirements: Examination and exercises. Literature: To be announced later. Prerequisites: Basics in mathematics, S-38.2188 and S38.2121 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3184/ Language: English. S-38.3191 Network Service Provisioning P (5 cr) S-38.3194 Wireless Networks (5 cr) 22+0 (4+0) I+II Lecturer: Jouni Karvo D.Sc.(Tech.), prof Jukka Manner Contents: Mobile networks, communications networks based on wireless local area networks, ad-hoc networks. Implementation of mobility and information transfer. Objective: The student knows the architectures of wireless networks, their elements and the tasks of the elements. Requirements: Examination and assignment. Literature: To be announced later. Prerequisites: S-38.2188 Substitutive: S-38.3193 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3194/ Language: English. S-38.3195 Exercise Course for Network Service Provisioning P (4 cr) III-IV Lecturer: Marko Luoma (Lic.Tech.)and N.N Contents: Planning, simulating, implementing and testing an network service for an operator network. The course contains several simulation and laboratory works, which form together an operational network service. Objective: The aim of the course is to understand the
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requirements of an operator level service network. During the course students learns how to implement a network service in an operator network. Requirements: Limited number of participants. Practical exercises and simulations. Grading is based on teamwork results. Evalution: Pass/Fail. Evaluation: Pass/Fail Prerequisites: S-38.3191 and S-38.2121. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3195/ Language: Finnish, English. S-38.3205 Individual Course on Networking Technology (1-10 cr) Autumn + Spring Lecturer: Prof Hämmäinen, Prof Kantola, Prof Virtamo, Prof Manner, Prof Ott Contents: Literature study based on material of networking technology agreed with a Professor. Objective: Will be agreed with the student. Requirements: Examination. Substitutive: S-38.205. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3205/ Language: Finnish and English S-38.3215 Special Course on Networking Technology P (2-8 cr) S-38.3310 Thesis Seminar on Networking Technology (1 cr) I, II, III, IV Lecturer: Prof Hämmäinen, Prof Kantola, Prof Virtamo, Prof Manner, prof. Ott Contents: Presentations and reports on current completed Master’s thesis work. Objective: With help of presentation tools student is capable to explain the key elements of his/her Diploma thesis. The student will get feedback about his/her research. Requirements: Seminar presentation based on the thesis and participation at least in 5 seminars. Substitutive: S-38.310 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.3310/ Language: Finnish and English S-38.4030 Postgraduate Course on Networking Technology P (5-15 cr) II + IV Lecturer: Prof Raimo Kantola Contents: Licentiate seminar on topics of current interest in networking technology. Contents to be defined each term. Objective: Will be announced at the beginning of the course. Requirements: Seminar presentation, seminar papers, exam. Prerequisites: Two of following courses: S-38.2121, S38.3115, S-38.3165 or S-38.3180. Substitutive: S-38.030 Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.4030/ Language: Finnish and English
S-38.4043 Postgraduate Seminar in Network Economics P (5-15 cr) III Lecturer: Prof. Heikki Hämmäinen Contents: This seminar focuses on a specific theoretical topic in the area of network economics. A special purpose is to elaborate on methods and theories in order to support students working toward a doctoral thesis. Objective: To learn about topical network economics research. Requirements: To be defined annually Literature: To be announced later. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.4043/ Additional information: The course content changes annually. Language: English S-38.4149 Postgraduate Course in Teletraffic Theory P (5-15 cr) 24 + 12 (4 + 2) Autumn (Period II) Lecturer: Prof Jorma Virtamo, Samuli Aalto Ph.D. Contents: This course will focus on a specific topic of interest within the field of teletraffic theory. The course will be held in the form of a seminar. Objective: To learn about topical teletraffic research. Requirements: To be defined annually. Literature: To be announced later. Web page: https://noppa.tkk.fi/noppa/kurssi/s-38.4149/ Additional information: The course content changes annually. Language: English S-38.4360 Research Seminar on Networking Technology P (1-3 cr) I, II, III, IV Lecturer: Prof Hämmäinen, Prof Kantola, Prof Virtamo, Prof Manner, Prof Ott Contents: Reports on networking technology presented by researchers and visitors as well as discussion on research on networking technology. Objective: Will be announced at the beginning of the course. Additional information: Language: Finnish and English. Language: Finnish and English. S-72.1010 Orientation Course for Studies in Communications Engineering (1 cr) 8 + 0 + 6 (2 + 0) I Lecturer: Prof. Riku Jäntti, Faculty personnel Contents: General information on TKK and student union, and introduction to Communications Engineering, study curriculum. Requirements: Attending lectures, library exercise, and own study plan for M.Sc. studies. Evaluation: Pass/fail. Literature: Study Programme and Faculty’s own study guide. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.1010/ Additional information: Replaces S-72.010. Tutoring is possible in English. Language: Finnish.
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S-72.1110 Signals and Systems (5 cr) 24 + 10 + 9 (4 + 2) II Lecturer: Prof. Riku Jäntti, laboratory exercises Seppo Saastamoinen Contents: Nature of signals, frequency analysis of signals, linear and memoryless systems and their signal analysis, arbitary signals in linear systems, modulated signals, calculation exercises and laboratory works. Objective: The student should learn the basic principles of signal and system analysis, know the most common signal transforms and understand the frequency domain representation of the signal and learn to use for signal analysis. After the course the student should master filtering of deterministic and stochastic signals with linear lowpass and bandpass filters and know the principles of analog to digital transform and the utilized mapping parameters. Requirements: Exam and laboratory exercises. Literature: Lecture notes. Prerequisites: Mat-1.1210 - 1230 and Mat-1.2600/2620 Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.1110/ Additional information: Replaces S-72.060. Language: Finnish. Laboratory works can be done in English. Course material and calculation exercises are available in English. S-72.1120 Data Transmission and Communications Protocols (2 cr) S-72.1130 Telecommunication Systems (5 cr) 24 + 12 (4 + 2) I Lecturer: doc. Timo O. Korhonen Contents: Public Switched Telephone Network (PSTN), Wireless Local Area Networks (WLANs), Digital Subscriber-lines (xDSL), basics of mobile networking, Protocols of Internet. Objective: To get an overview of telecommunication networking technologies. Requirements: Examination. Literature: Most of material in printed (or downloadable) handouts. References: James F. Kurose, Keith W. Ross: Computer Networking, 2nd ed.; A. Leon-Garcia, I. Widjaja: Communication Networks, 2nd ed. Prerequisites: Recommended S-72.1110. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.1130/ Additional information: Replaces S-72.423. Language: English. S-72.1140 Transmission Methods in Communication Systems (5 cr) 24 + 24 (4 + 4) I Lecturer: doc. Timo O. Korhonen Contents: Digital and analog baseband signals. Amplitude, phase and frequency modulation. Error performance of reference system in AWGN-channel. CDMA, OFDM and UWB modulation. Band limited carrier wave transmission. Basics of transmission channel properties (copper wire, radio channel and optical fibre). Examples of signals used in practice (e.g. ADSL, DVB, Ethernet, GSM). Literature: Handout, A.B.Carlson:
Communication Systems; Other recommended books: B.P.Lathi: Modern Digital and Analog Communication Systems (3rd ed.). Objective: To understand the basics of transmission level telecommunications. Requirements: Examination. Literature: Most of materials in printed (or downloadable) handouts. References: B. Carlson: Communication Systems IV ed. B. P. Lathi: Modern Digital and Analog Communication Systems III ed. Prerequisites: S-72.1110. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.1140/ Additional information: Replaces S-72.245. Language: English. S-72.1510 Human Factors in Telecommunications (2 cr) S-72.2205 Digital Transmission Methods (4 cr) 24 + 12 (4 + 2) II Lecturer: Prof Olav Tirkkonen, Kalle Ruttik, Lic.Sc.(Tech.) Contents: Structure and functionalities of a communication transceiver. Optimum reception principles. Signal space representation. Channel with colored noise. Source and channel coding. Fading channel models. Digital modulation over fading channels. Diversity combining and fading counter measures. CDMA and OFDM principles. Objective: To understand the basic physical layer principles of a digital communication system. Requirements: Examination, home assignments, programming assignments (matlab). Literature: Lecture notes. S. Haykin: Modern Wireless Communications. Prerequisites: S-72.1140. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.2205/ Language: English. S-72.2211 Mobile Communication Systems and Services (4 cr) 24 + 12 (4 + 2) III Lecturer: Prof Olav Tirkkonen Contents: Principles of cellular system engineering. The cellular concept. Mobile radio coverage. Service concepts. Mobile communication standards. Physical layer specification. Radio resource management, mobility management, and quality of service in GSM and UMTS. Systems beyond 3G. Objective: To understand mobile communication from a system engineering perspective. Requirements: Examination, home assignments, programming assignments (matlab). Literature: Lecture notes. Prerequisites: S-72.2205. Substitutive: Replaces S-72.610. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.2211/ Language: English. S-72.2310 Laboratory Course in Wired Communications (2-5 cr)
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0 + 8-20 III-IV Lecturer: Viktor Nässi M.Sc. (Tech.) Contents: Laboratory exercises related to communications systems, including PCM, SDH and CATV techniques etc. Objective: The purpose of the course is to make student familiar with working principles of the telecommunication equipments and the implementation at the algorithms. The student will also learn how to test the compliance of equipment to common norm and standard. Requirements: 2-5 laboratory exercises including pre and postreports. Evaluation: Pass/Fail Literature: Exercise instructions Prerequisites: S-72.1130, S-72.1140 Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.2310/ Additional information: Replaces S-72.141. Language: Finnish and English. S-72.2410 Information Theory P (5 cr) 36 + 20 (6 + 4) II Lecturer: Prof Patric Östergård Contents: Introduction to information theory and its applications to communications. Entropy, relative entropy and mutual information and their connections to channel capacity and source coding (data compression). The channel coding theorem. Law of large numbers. Huffman, Lempel-Ziv and other source coding methods. Discrete, continuous and multiuser channels. Objective: Upon completion of the course, the students will be able to I) define and apply the basic concepts of information theory (entropy, etc.); II) differentiate between lossy and lossless data compression methods, and describe the most common such methods; III) design an efficient data compression scheme for a given information source; IV) calculate the capacity of communication channels; V) sketch Shannon’s proof regarding the limits of error-free communication; and VI) explain the impact of feedback and/or many senders or receivers on the communication problem. Requirements: Examination and special project. Literature: T.M. Cover and J.A. Thomas: Elements of Information Theory, Wiley 1991. Prerequisites: Basic courses in mathematics. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.2410/ Additional information: Replaces S-72.340. Language: English. S-72.2420 Graph Theory P (5 cr) 36 + 20 (6 + 4) IV Lecturer: Prof Patric Östergård and Dr. Petteri Kaski. Contents: Introduction to graph theory. Trees, planar graphs and digraphs. Graph coloring. Symmetries and automorphism groups. Algorithms for central graph problems. Applications. Objective: Upon completion of the course the student will be able to I) define and explain basic concepts related to graphs and central graph classes; II) identify important properties of graphs and their mutual relationships; III) apply central proof techniques of
discrete mathematics; IV) apply central graph algorithms and recognize the connection between an algorithm and an underlying mathematical result; V) evaluate and implement algorithms from the literature; and VI) recognize certain computationally hard graph problems and their easier special cases. Requirements: Examination and special project/home assignments. Literature: D. B. West, Introduction to Graph Theory, 2nd ed. 2001. D. Jungnickel, Graphs Networks and Algorithms, 2nd ed. Springer, 2005. Prerequisites: Basic courses in mathematics and computer science. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.2420/ Additional information: The course also occurs with the code T-79.5203. Language: English. S-72.2510 User-Oriented Design of Telecommunications Services (5 cr) S-72.2530 Acceptability and Quality of Services P (3 cr) 24 + 12 (4 + 2) II Lecturer: doc. Timo O. Korhonen, Raila Äijö, M.Sc. (Ed.) Contents: The course discusses the quality of service, end user quality and acceptability concepts. Also it initiates students into the basics of quality measurements. Objective: The student having studied the course comprehends and can apply all the quality parameters of the telecommunication services which have effect on users subjective satisfaction. Requirements: Article presentations, tutorials, group assignment and course portfolio. Literature: Articles in scientific journals. Prerequisites: Recommended S-72.1510 and S-72.2510. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.2530/ Language: English, some student presentations will be in Finnish. S-72.3110 Individual Studies in Communications P (110 cr) I, II, III, IV Lecturer: Prof Riku Jäntti, Prof Östergård, Prof Olav Tirkkonen, Prof Jyri Hämäläinen and doc. Timo O. Korhonen Contents: Individual studies agreed with the teacher in advance. May consist of an examination on a book and/or exercises. Objective: Will be agreed with the student. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3110/ Additional information: Replaces S-72.250. Language: Finnish, Swedish, English. S-72.3120 Special Project in Communications (3-8 cr) I-IV Lecturer: Prof Patric Östergård, Prof Olav Tirkkonen, Prof Riku Jäntti, Docent Timo Korhonen and Kalle Ruttik, Lic.Sc. (Tech.) Contents: An independent planning task or investigation
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in the final stage of the Masters studies either based on a topic given by the teacher (3-8 cr) or a topic coming from outside the communications laboratory (3-5 cr). The instructor for the outside topics must be provided by the task owner and a teacher is supervisor. Objective: Students are able to write scientific reports. Requirements: A written report on the special project. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3120/ Additional information: Replaces S-72.173. Language: Finnish and English S-72.3210 Channel Modeling for Radio Communication Systems (3 cr) 24 + 12 (4 + 2) II Lecturer: Prof Hämäläinen Contents: Basic propagation mechanisms, radio channel modeling principles, average path loss vs. distance models, fading types, channel parameter statistics, LTV, channel representation, important channel models. Objective: After the course the student knows: I) basic radio wave propagation mechanisms and the multipath nature of the radio channel II) the system description of the fading radio channel III) commonly used statistical channel models. Requirements: Examimation. Literature: Lecture notes. Prerequisites: S-72.1140 Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3210/ Additional information: Replaces courses S-72.135 ja S72.232. Language: English. S-72.3220 Radio Communication Systems (3 cr) 24 + 12 (4 + 2) III Lecturer: Prof emeritus Sven-Gustav Häggman Contents: Characteristics and use of radio frequency spectrum, frequency spectrum administration, different types of radio communication systems, typical transceiver architectures, noise and interference, transceiver nonidealities, system planning principles, radio link budgeting. Radio system planning applications. Objective: After the course the student knows I) basic ideas of radio communications and typical system applications II) noise and equipment impairments which limit system performance III) how to apply the radio link power budget to the planning of different radio communications systems. Requirements: Examination Literature: Lecture notes. Prerequisites: S-72.1140. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3220/ Additional information: Replaces courses S-72.135 and S72.232. Language: English S-72.3235 Network Access P (3 cr) 24 + 12 (4 + 2) I Lecturer: Prof Riku Jäntti Contents: Basic access methods. Packet radio access. Multiple access control. Random access channels. Interaction between layers 1-4. Traffic models.
Objective: The student should learn the basic principles of the most commonly utilized Multiple Access Control (MAC) protocols and understand their merits and drawbacks in broadcast channels. After the course the student should be able to analyze the performance of MAC protocols in radio environment. Requirements: Examination and assignment. Literature: Lecture notes. Prerequisites: S-72.1140 and S-38.1145. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3235/ Language: English. S-72.3250 Laboratory Course in Wireless Communications (2-5 cr) 0 + 8-20 I-II, III-IV Lecturer: Kalle Ruttik, Lic.Sc. (Tech.) Contents: Laboratory exercises in the area of radiocommunications. Objective: The goal of the laboratory works is to familiarize students with applications in different fields of radio communications. The laboratory works provide hands on experience of calculating radio channel parameters, constructing receiver for band-limited channel, measuring performance of GSM and WLAN, and establishing connections over radio links. Requirements: 2 - 5 laboratory exercises including preand postreport. Evaluation: Pass/Fail. Literature: Exercise instructions. Prerequisites: S-72.1140, S-72.3210, S-72.3220 and S72.3230 Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3250/ Additional information: Replaces course S-72.260. Language: English. S-72.3260 Radio Resource Management Methods P (3 cr) 24 + 12 (4 + 2) II Lecturer: Prof Riku Jäntti Contents: Capacity analysis in a mobile cellular system. Resource allocation policies. Radio access control and load control. Dynamic channel allocation. Power control. Handover and mobility. Resource management in packet access systems. Packet scheduling. Flow control. Objective: The student should understand the principles of sharing the spectrum among the users and how to mitigate the multi-user interference via resource control such that quality of service constraints are met while the spectrum efficiency is maximized. Requirements: Examination and assignment. Literature: Lecture notes. Prerequisites: S-72.2210. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3260/ Language: English. S-72.3275 Cellular Radio Network Planning and Optimization (5 cr) 36 + 18 IV Lecturer: Prof Jyri Hämäläinen Contents: Planning objectives and approaches, capacity
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and coverage planning, frequency planning/code planning, network optimization. Assignment focuses on planning and optimization tasks of modern radio access networks. The network planning assignment consists of dimensioning, detailed planning, and optimization tasks. Objective: After the course the student I) understand basic ideas behind radio network planning II) knows detailed planning tasks for selected focus technology III) is able to form radio link power budgets’ Requirements: Examination and assignment. Literature: Lecture notes. Prerequisites: S-72.2210 Substitutive: Replaces courses S-72.3270 & S-72.3290 Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3275/ Language: English S-72.3281 Advanced Transmission Methods P (4 cr) 24 + 12 (4 + 2) II Lecturer: Kalle Ruttik, Lic.Sc.(Tech.), prof. Olav Tirkkonen Contents: Interference in digital receivers. equalization techniques, principles of OFDM, multiantenna transmission techniques, multiuser detection. Hidden Markov model. MLSE and Viterbi algorithm. Iterative processing for coding and equalization. Turbo principle, turbo codes. Turbo decoding algorithms. Objective: To understand advanced physical layer algorithms used in modern communication systems. To understand the interplay of receiver algorithms and transmission techniques, and the fundamentals of iterative processing. Requirements: Examination and assignments. Literature: Lecture notes. Prerequisites: S-72.1140, S-72.2205 Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3281/ Additional information: Replaces course S-72.3280. Language: English S-72.3295 Broadcasting and Distribution (3 cr) S-72.3310 Communication Transmission Lines (4 cr) 12 + 12 + 6 (2 + 2) IV Lecturer: Lauri Halme, Lic.Sc. (Tech.) Contents: Cables and optical fibres in telecommunication networks. Open generic cabling in access networks. Electromagnetic properties of cables, theory of crosstalk and screening/shielding including practical solutions. Objective: Mastering of transmission theory and measurements including the properties and use of transmission lines. Requirements: Examination and laboratory exercises. Literature: To be announced at the first lecture. Prerequisites: S-72.1110 Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3310/ Additional information: Replaces course S-72.430 Language: English S-72.3410 Coding Methods P (5 cr) 36 + 20 (6 + 4) III Lecturer: Prof Patric Östergård, Dr. Markku Liinaharja
Contents: Error-detecting and error-correcting codes for digital communication and storage. The theory of the most important code classes, including an introduction to turbo and LDPC codes. Coding/decoding algorithms. Applications. Objective: Upon completion of the course, the students will be able to I) explain the benefit from applying error control coding (and determine this more exactly in given situations); II) apply basic concepts of coding theory (including related algebra); III) differentiate between block coding and convolutional coding; IV) classify and describe the most important families of codes (in particular, state-of-the-art error-correcting codes); and V) apply a proper decoding scheme to a chosen coding method; Requirements: Examination and home assignments Literature: S.B.Wicker: Error Control Systems for Digital Communications and Storage, Prentice-Hall 1995. J. Castiñeira Moreira & P.G. Farrell, Essentials of ErrorControl Coding, Wiley 2006. Prerequisites: S-72.2410, basic courses in mathematics. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3410/ Additional information: Replaces S-72.341. Language: English. S-72.3510 Product Development of Telecommunication Systems (5 cr) 20 + 0 + 40 (4 + 0) III + IV Lecturer: doc. Timo O. Korhonen Contents: Schematic structure of product development process and inspection of related factors: product life span, generating and filtering ideas, project financial and personnel management, marketing, product usability, design and quality. Practical case studies (workshop with industrial partners). Objective: This course strives to discuss a wideperspective view to modern product/service development process in theory and in practice. Requirements: Lectures, examination and workshop report. Literature: Development of High-tech Products and Services, Timo O. Korhonen, Pearson 2007. References: Handbook of Product and Service Development in Communication and Information Technology, Kluwer Academic Press 2003, Karl T. Ulrich, Steven D. Eppinger: Product Design and Development, McGrawHill 2004. Prerequisites: The course is intended to be taken at the end of the studies before the Masters thesis. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.3510/ Additional information: Replaces S-72.124. Language: English. S-72.4110 Postgraduate Seminar in Communications Engineering P (6-12 cr) I-II Lecturer: Prof Patric Östergård, Prof Riku Jäntti, Prof Olav Tirkkonen, Prof Jyri Hämäläinen och doc. Timo O. Korhonen Contents: Seminar course with varying content of topics of telecommunications.
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Objective: Will be announced at the beginning of the course. Requirements: Seminar presentation and exercises. Prerequisites: For postgraduate students. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.4110/ Additional information: Replaces S-72.311. Language: English. S-72.4210 Postgraduate Seminar in Radio Communications P (6-12 cr) II-IV Lecturer: Prof Riku Jäntti, Prof Olav Tirkkonen, doc. Timo Korhonen Contents: Seminar course with varying content of topics
of telecommunications. Objective: The student should familiarize oneself with some current research topic or theoretical concept and learn to give seminar presentations. Requirements: Seminar presentation and exercises. Prerequisites: For post-graduated students. Web page: https://noppa.tkk.fi/noppa/kurssi/s-72.4210/ Additional information: Replaces S-72.333. Language: English. TLT.kand Bachelor’s Thesis and Seminar (10 cr) S-72.158 Master’s Thesis Seminar on Communications Engineering (1 ocr)
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FACULTY OF INFORMATION AND NATURAL SCINCES http://information.tkk.fi Degree Programme of Computer Science and Engineering Planning Officer Ms Johanna Bovellan International Master's programmes (Computer Science) Planning officer Ms Eija Kujanpää International Study Adviser
[email protected] Degree programme of Engineering Physics and Mathematics Planning Officer (Study Affairs) Ms Anna-Kaarina Hakala International Study Adviser
[email protected] Degree Programme of Industrial Engineering and Management Planning Officer Ms Tarja Timonen International Study Adviser
[email protected] Language Centre http://kielikeskus.tkk.fi/en/
Department of Biomedical Engineering and Computational Science S-114.1100 Computational Science (5 cr) S-114.1310 Introduction to Modelling and Information Theory (3 cr) S-114.1327 Physics III (Est) (6 cr) S-114.1427 Modern Physics: Computational Virtual Laboratory (Sf) (2 cr) S-114.2240 Seminar on Computational Engineering (3 cr) III-IV Lecturer: N.N. Contents: Practical work preparing a representation. Requirements: Term paper and report, aktiv participation to the seminar. Substitutive: S-114.240. Web page: http://www.lce.hut.fi/teaching/S-114.240 Additional information: Varying content (V). Language: Finnish and English.
seminar. Substitutive: Replaces S-114.502. Language: Finnish and English S-114.2510 Computational Systems Biology (5 cr) S-114.2601 Introduction to Bayesian Modelling (5 cr) Autumn I-II Lecturer: Docent Aki Vehtari Contents: Bayesian probability theory and bayesian inference. Bayesian models and their analysis. Computational methods, Markov-Chain Monte Carlo. Requirements: Examination and exercises. Literature: Gelman, Carlin, Stern & Rubin: Bayesian Data Analysis, 2nd ed. and other material announced on the lectures. Prerequisites: Basics in statistical mathematics and probability calculus. Substitutive: Replaces S-114.601. Web page: http://www.lce.hut.fi/teaching/S-114.2601/ Language: Finnish and English S-114.3155 Business Game P (3 cr)
S-114.2500 Basics for Biosystems of the Cell (5 cr) S-114.2502 Seminar on Computational and Cognitive Bioscience (2-3 cr) I-II, III-IV Autumn + Spring Lecturer: Mika Ala-Korpela Docent Contents: Seminar focuses on timely research topics on bioinformation technology. Requirements: Preparation of oral presentation and acting as opponent. Literature: Will be announced at the beginning of the
S-114.3200 Special Course in Computational Engineering I P (6 cr) I-II Lecturer: Prof Jouko Lampinen Contents: The course concentrates on non-linear statistical modeling methods. The main emphasis is on neurocomputationally based methods and their relations to other statistical modeling methods. The aim is to give theoretical and paractical readiness for planning and analyzing neural network models.
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Requirements: Examination and exercises. Literature: Special articles and C. Bishop: Neural networks for pattern recognition, Oxford Press 1995 Prerequisites: T-61.261 is recommended. Substitutive: Replaces S-114.200 Web page: http://www.lce.hut.fi/teaching/S-114.3200/ Language: Finnish and English S-114.3215 Special Project in Computational Engineering (3-8 cr) I-IV Lecturer: Academy Prof Kaski, Prof Lampinen, Academy Prof Sams, Prof Tulkki Contents: Special project related to computational engineering. Literature: Course handouts. Substitutive: Replaces S-114.215 Web page: http://www.lce.hut.fi/teaching/courses.html Language: Finnish and English S-114.3250 Special Course in Computational Science P (6 cr) Spring (Period IV) Lecturer: Riku Linna Ph.D. Contents: The aim of this course is to provide the student with an understanding of the advantages and limitations of various computer simulation methods commonly used in physics and engineering. Requirements: Homework proband Englishlems, project work. Literature: D.W. Heerman: Computer Simulation Methods in Theoretical Physics. K. Binderand D.W. Heerman: Monte Carlo Simulation in Statistical Physics. D. Frenkel, B. Smit: Understanding Molecular Simulation: From Algorithms to Applications. A. Kersh, W.J. Mokoroff: Transport Simulation in Microelectronics, Springer Verlag 1995. Prerequisites: Basic statistical physics. Substitutive: Replaces S-114.250. Web page: http://www.lce.hut.fi/teaching/S-114.3250/ Language: Finnish and English. S-114.3401 Semiconductor Quantum Structures P (5 cr) III-IV Spring (Odd years) Lecturer: Prof Jukka Tulkki, N.N. Contents: The course deals with electronic and optical properties of semiconductors and their heterostructures. The goal of the course is to provide knowledge of basic physical properties needed for understanding the working principles of electronic and photonic devices. Requirements: Examination, exercises and project work. Substitutive: Replaces S-114.401. Language: English S-114.3503 Laskennallisen ja kognitiivisen biotieteen tutkijaseminaari (2-3 cr) S-114.3520 Special Project in Computational Systems Biology (3-7 cr) III-IV
Lecturer: Jukka Heikkonen Docent, Peter Engelhardt Docent, Academy Prof Kimmo Kaski, doc. FD Mika AlaKorpela Contents: The course contains a special project related to computational systems biology. Requirements: Special project Literature: Manuals Substitutive: Replaces S-114.520. Language: Finnish and English. S-114.3530 Human-Machine Interaction (3-4 cr) The course is not lectured this year. Lecturer: Mika Ala-Korpela Docent, PhD Contents: Structure, function and interaction of living organisms and machines, human anatomy, physiology and nervous system, human and machine intelligence, implants and artificial organs, basics of system biology, basics of molecular biotechnology, stem cells and new medical treatments, future user interfaces, robots, learning and intelligent systems in consumer products, new scientific achievements - e.g. mind control and artificial eye, discussion about business opportunities, movies, future visions and ethics in the area Requirements: Examination and written exercise. Literature: Handout and given articles/references. Marie OMahony: Cyborg - the man-machine, Eero Hyvönen (Ed..): Inhimillinen kone - konemainen ihminen. Substitutive: Replaces S-114.530. Language: Finnish or English S-114.3812 Computational Neuroscience (6 cr) Lecturer: Harri Valpola Ph.D. and Jarmo Hurri Ph.D. (University of Helsinki) Contents: On this course, the participants learn how to use computational methods to quantitatively model the activity of neurons, groups of neurons and neural systems. Requirements: Examination based on literature (course book) Literature: P.Dayan & L.F.Abbot: Theoretical Neuroscience (MIT Press 2001) Web page: http://www.lce.hut.fi/teaching/S-114.3812/ Additional information: Replaces S-114.3811. Language: English S-114.4150 Complex Networks P (3-6 cr) S-114.4202 Special Course in Computational Engineering II P (3-6 cr) III-IV Lecturer: Prof Jouko Lampinen Contents: The contents of course vary yearly. The aim of the course is to give licensiate level teaching on a topic related to computational technology. The course may be given as lectures or as a seminar course. Requirements: Discuss with the teacher. Literature: Course book or a collection of articles, will be published at the beginning of the course. Substitutive: Replaces S-114.202 Web page: http://www.lce.hut.fi/teaching/S-114.4202 Additional information: Varying (V). Language:
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Language: Finnish and English. S-114.4220 Research Seminar on Computational Science P (3-6 cr) I-II, III-IV Autumn + Spring Lecturer: Prof Jouko Lampinen Contents: Course with varying content. Requirements: Seminar presentation, report and active participation. Substitutive: Replaces S-114.220. Web page: http://www.lce.hut.fi/teaching/S-114.220/ Additional information: Will be arranged both in periods I-II and III-IV if necessary. Language: Finnish and English S-114.4230 Individual Studies on Computational Engineering P (1-8 cr) I-II, III-IV Lecturer: Prof Jouko Lampinen, Prof Kimmo Kaski, Prof Jukka Tulkki, Mika Ala-Korpela Docent and Jukka Heikkonen Docent Contents: The topic and its depth shall be negotiated with one of the teachers Substitutive: Replaces S-114.230. Web page: http://www.lce.hut.fi/teaching/kurssit.html Additional information: Varying (V). Language: Finnish and English S-114.4245 Laboratory Seminar on Computational Engineering P (2-3 cr) I-IV Lecturer: Prof Lampinen, Academy Prof Sams, Prof Tulkki, Academy Prof Kaski Contents: The seminar concentrates on topics related to the research areas of the laboratory of computational engineering. The course is mainly aimed for the postgraduate students and researchers of the laboratory. Requirements: Aktiv participation to the seminar and seminar report. Substitutive: Replaces S-114.245 Web page: http://www.lce.hut.fi/teaching/S-114.4245 Additional information: Varying (V). Language: English S-114.4260 Molecular Modeling P (5-8 cr) The course is not lectured during this lecture year Lecturer: N.N. Contents: Basics concepts of molecular modeling, quantum mechanical models, empirical force fields, review of molecular dynamics and Monte Carlo, minimization methods in molecular modeling, conformational analysis, the use of molecular modeling to discover and design new drugs, future challenges in molecular modeling. Requirements: Lectures, exercises and examination: 4 cr. Lectures, exercises, examination and project work: 6 cr. Literature: A.R.Leach: Molecular Modeling. Prerequisites: S-114.3250, computational physics or corresponding. Basic statistical physics and thermodynamics. Substitutive: Replaces S-114.260.
Web page: http://www.lce.hut.fi/teaching/S-114.260/ Language: Finnish and English. S-114.4270 Computational Cell Biology P (5-7 cr) S-114.4610 Special Course in Bayesian Modelling P (1-8 cr) Spring Lecturer: Docent Aki Vehtari Contents: Course with varying content. Objective of the course is to give licentiate level teaching on a topic related to computational engineering. The course may consist of lectures or seminars. Requirements: Agreed separately for each years course. Literature: Book or collection of articles, announced at the beginning of the course. Prerequisites: Basics in Bayesian Modelling. Substitutive: Replaces S-114.610. Web page: http://www.lce.hut.fi/teaching/S-114.4610/ Language: Finnish or English S-114.4612 Special Course in Bayesian Modelling 2 P (4 cr) S-114.4761 Special Course on Communication and Cognition P (1-6 cr) I, II, III or IV, Autumn & Spring Lecturer: N.N. Contents: Varying every year and consisting of a current research problem. Requirements: Active participation and seminar presentation. Literature: To be announced Substitutive: Replaces S-114.740. Additional information: Varying (V). Language: Finnish or English S-114.4762 Research Seminar on Communication and Cognition P (1-6 cr) I, II, III or IV, Autumn & Spring Lecturer: N.N. Contents: Annually changing topic is related to current research questions. The course can be shared with other laboratories. Requirements: Active participation, seminar presentations and possibly practicals. Literature: To be announced. Substitutive: Replaces S-114.720. Additional information: Varying (V). Language: Finnish or English S-114.4772 Individual Studies in Communication and Cognition P (1-9 cr) I, II, III or IV Lecturer: Academy Prof Sams, Academy Prof Kaski, Prof Lampinen, Prof Tulkki, Prof Jääskeläinen, Jukka Heikkonen Docent, Kaisa Tiippana Ph.D., Prof KariJouko Räihä Contents: The contents and extent of individual studies to be agreed with the teacher beforehand. Substitutive: Replaces S-114.750
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Additional information: Varying (V). Language: Finnish or English Tfy-99.1291 Individual Studies (1-15 cr) Lecturer: Prof Ari Koskelainen, Prof Pekka Meriläinen, Prof Risto Ilmoniemi Contents: Individual assignments, the contents of which have been agreed with the teacher responsible. Substitutive: This course replaces the course Tfy-99.291 Individual Studies. Language: Finnish or Swedish or English Tfy-99.2220 Bioengineering laboratory course (2-3 cr) Spring Lecturer: Prof Ari Koskelainen, Prof Pekka Meriläinen, Prof Risto Ilmoniemi Contents: Getting acquainted with some measuring techniques used in biomedical engineering research via laboratory exercises. Requirements: Laboratory exercises and written reports Additional information: Instructions in Finnish. Reports can be written in English, if first language is not Finnish or Swedish. Language: Finnish Tfy-99.2261 Physiology (5 cr) Tfy-99.2262 Living State Physics I (Biophysics) (5 cr) Tfy-99.2710 Introduction to the Structure and Operation of the Human Brain (5 cr) Tfy-99.2810 Computational Medicine P (6 cr) Tfy-99.3226 Classical Theory of Electricity and Magnetism B (5 cr)
Literature: To be announced Substitutive: Replaces the course Tfy-99.269 Current methods and issues in monitoring physiological systems. Language: English Tfy-99.3274 Medical Physics II (5 cr) Spring (not lectured this academic year) Lecturer: N.N. Contents: Physics and techniques of Nuclear Medicine including basics of isotope production, imaging devices, applications of radionuclides in medical imaging, modelling of physiological systems and analyses of 3Dimaging. Requirements: Exam. Literature: To be announced. Substitutive: Replaces the course Tfy-99.274 Medical Physics II. Language: English Tfy-99.3275 Biosignal Processing P (5 cr) Autumn (alternate years, not lectured this academic year) Lecturer: Mark van Gils, Docent Contents: The aim of the course is to give an introduction to the concept of processing of biosignals. Issues that will be addressed are: what are biosignals; what kind of properties do they have; how do we record them; what kind of things can go wrong when recording them; what kind of techniques are available to process them; how to choose appropriate techniques, how to measure performance. The approach is applicationbased. Requirements: Examination (exercises can be done to gain bonus points for the exam). Literature: To be announced + lecture hand-outs Substitutive: Replaces course Tfy-99.275 Signal Processing in Biomedical Engineering Language: English
Tfy-99.3227 Electromagnetic Field Theory (5 cr) Tfy-99.3249 Biomedical Engineering, special course P (2-5 cr) Autumn or Spring Lecturer: N.N. Contents: The subject changes yearly. Substitutive: Replaces the course Tfy-99.249 Biomedical Engineering, special course. Language: English or Finnish Tfy-99.3269 Current Methods and Issues in Monitoring Physiological Systems P (5 cr) Autumn (alternate years, not lectured this academic year) Lecturer: Prof Pekka Meriläinen Contents: Introduction to key physiological systems and functions of human body, including respiration, gas exchange, circulation, oxygenation and metabolism as well as cardiac and brain function. Current measurement methods and technologies will be presented and discussed in each context with special emphasis in applications and problems of modern clinical monitoring. Requirements: Exam.
Tfy-99.3285 Research Seminar on Bipphysics and Biomedical Engineering P (3 cr) Spring (organised this academic year) Lecturer: Prof Pekka Meriläinen (responsible), Prof Ari Koskelainen, Prof. Risto Ilmoniemi Contents: Current research problems on biophysics and biomedical engineering. Requirements: Active participation and written summary reports. Substitutive: Replaces the course Tfy-99.285 Research Seminar on Biomedical Engineering. Language: English or Finnish Tfy-99.3298 Biophysics and Biomedical Engineering, special assignment (5-10 cr) Autumn & Spring Lecturer: Prof Risto Ilmoniemi, Prof Ari Koskelainen, Prof Pekka Meriläinen Contents: Independent laboratory work, planning tasks, literature surveys etc within the topics of biophysics and biomedical engineering. There are separate instructions for the assignments. Language: Finnish or Swedish or English
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Tfy-99.3720 Advanced Course on Human Brain Functioning (5 cr)
Tfy-99.4281 Image Processing in Biomedical Engineering P (5 cr)
Tfy-99.3730 Information Processing in the Brain P (5 cr)
Tfy-99.4282 Functional Imaging in Biomedical Engineering P (5 cr)
Tfy-99.3760 Exercise Course on Non-invasive Brain Imaging P (5 cr)
Tfy-99.4283 Methods in Modern Biophysics P (5 cr) Spring (alternate years, lectured this academic year) Lecturer: Prof Ari Koskelainen, Prof Jukka Tulkki, visiting lecturers Literature: Nölting: Methods in Modern Biophysics Language: English
Tfy-99.4263 Living State Physics II (Electrophysiology) P (5 cr) Tfy-99.4264 Living State Physics III (Molecular Biophysics) P (5 cr) Tfy-99.4271 Medical Physics I (5 cr) Tfy-99.4273 Seminar on Biomedical Engineering (3 cr) Spring Lecturer: Prof Ari Koskelainen, Prof Risto Ilmoniemi Contents: Student seminar on various topics in biophysics and biomedical engineering. The topics change yearly. Requirements: Active participation, seminar talk including a written report, and acting as an opponent. Substitutive: Replaces the course Tfy-99.273 Seminar on Biomedical Engineering. Language: English Tfy-99.4275 Signal Processing in Biomedical Engineering P (5 cr) Autumn (alternate years, lectured this academic year) Lecturer: Mark van Gils, Docent Contents: Modern signal processing techniques in biomedical applications are discussed. Subjects include different spectral analysis methods (incl. higher-order spectra), adaptive filters, pattern recognition methods, and time-frequency methods Requirements: Examination and exercise. Literature: To be announced + lecture hand-outs Prerequisites: T-61.246 or T-61.3010 (compulsory) Substitutive: Replaces course Tfy-99.275 Signal Processing in Biomedical Engineering. Language: English
Tfy-99.5111 Biophysics and Biomedical Engineering, special assignment (10 cr) Autumn & Spring Lecturer: Prof Risto Ilmoniemi, Prof Ari Koskelainen, Prof Pekka Meriläinen Contents: The special assignments are independent laboratory work, planning tasks, literature surveys etc within the topics of biophysics and biomedical engineering. There are separate instructions for the assignments. The role of the special assignments is explained more closely in the description of the Master’s degree. Target group: Intended for those studying under the new ECTS degree regulations for 2005. (The course Tfy99.298 is intended for those who study under the old degree regulations for 1995.) Language: Finnish or Swedish or English Tfy-99.298 Biophysics and Medical Technology, special assignment (5 ocr) Autumn & Spring Lecturer: Prof Ari Koskelainen, Prof Pekka Meriläinen, Prof Risto Ilmoniemi Contents: The special assignments are independent laboratory work, planning tasks, literature surveys etc within the topics of biophysics and biomedical engineering. There are separate instructions for the assignments. The role of the special assignments is explained more closely in the description of the Master’s degree. Language: Finnish or Swedish or English
Tfy-99.4280 Medical Imaging Methods P (5 cr)
Department of Mathematics and Systems Analysis Mat-1.1110 Basic course in Mathematics C1 (10 cr) Mat-1.1010 Basic Course in Mathematics L1 (10 cr) Mat-1.1120 Basic course in Mathematics C2 (10 cr) Mat-1.1020 Basic course in Mathematics L2 (10 cr) Mat-1.1131 Basic course in Mathematics C3-I (5 cr) Mat-1.1030 Basic course in Mathematics L3 (10 cr) Mat-1.1132 Basic course in Mathematics C3-II (5 cr) Mat-1.1040 Basic course in Mathematics L4 (10 cr) Mat-1.1210 Basic course in Mathematics S1 (10 cr)
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Mat-1.1220 Basic course in Mathematics S2 (10 cr) Mat-1.1230 Basic course in Mathematics S3 (10 cr)
Additional information: This course together with Mat1.1632 replaces Mat-1.463 and the implementation of the course depends on the number and needs of the students. Language: English
Mat-1.1310 Basic course in Mathematics K1 (10 cr) Mat-1.1320 Basic course in Mathematics K2 (10 cr) Mat-1.1331 Basic course in Mathematics KP3-I (5 cr) Mat-1.1332 Basic course in Mathematics KP3-II (5 cr) Mat-1.1410 Basic course in Mathematics P1 (10 cr) Mat-1.1420 Basic course in Mathematics P2 (10 cr) Mat-1.1510 Basic course in Mathematics 1 (10 cr) Mat-1.1520 Basic course in Mathematics 2 (10 cr)
Mat-1.1632 Mathematics 3-II (5 cr) Autumn Lecturer: Victoria Sofieva, spec. teacher Contents: Systems of differential equations. Numerical methods. Linear algebra. Introduction to partial differential equations. Literature: E. Kreyszig. Advanced Engineering Mathematics. Prerequisites: Mat-1.1610 and Mat-1.1620. Web page: http://math.tkk.fi/teaching/math3/ Additional information: This course together with Mat1.1631 replaces Mat-1.463 and the implementation of the course depends on the number and needs of the students. Language: English
Mat-1.1531 Basic course in Mathematics 3-I (5 cr) Mat-1.1710 Basic Course in Mathematics VI (10 cr) Mat-1.1532 Basic course in Mathematics 3-II (5 cr) Mat-1.1720 Basic Course In Mathematics V2 (10 cr) Mat-1.1610 Mathematics 1 (10 cr) Autumn Lecturer: Antti Rasila, researcher Contents: Analytic geometry. Differential and integral calculus for functions of one variable. Vector and matrix algebra. Complex numbers. Requirements: The course is based on e-learning. Literature: R. A. Adams: Calculus, A Complete Course. D.C. Lay: Linear Algebra and Its Applications. Additional information: Individual study in Finnish is possible. This course replaces the course Mat-1.461. Language: English Mat-1.1620 Mathematics 2 (10 cr) Spring Lecturer: N.N. Contents: Differential and integral calculus for functions of several variables. Series. Differential equations. Literature: R. A. Adams. Calculus, A Complete Course. Prerequisites: Mat-1.1610 Web page: http://math.tkk.fi/teaching/math2/ Additional information: This course replaces the course Mat-1.462 and the implementation of the course depends on the number and needs of the students. Language: English Mat-1.1631 Mathematics 3-I (5 cr) Autumn Lecturer: Victoria Sofieva, spec. teacher Contents: Complex analysis, Integral transforms, Fourier series. Requirements: Autumn Literature: E. Kreyszig. Advanced Engineering Mathematics. Prerequisites: Mat-1.1610 and Mat-1.1620 Web page: http://math.tkk.fi/teaching/math3/
Mat-1.2600 Applied Probability A (5 cr) Mat-1.2620 Applied Probability B (5 cr) Mat-1.2990 Foundations of Modern Analysis (5 cr) Mat-1.2991 Discrete Mathematics (5 cr) Mat-1.2995 Project assignment in mathematics (2-5 cr) Mat-1.3011 History of Science I P (2 cr) Autumn (I) Lecturer: Ilpo Halonen, Ph.D,
[email protected] Contents: The course examines the history of science by way of selected topics from antiquity to the twentieth century. The emphasis is on the methodological development of science and on the theories developed to deal with scientific method. Additional information: Individual study in English is possible. This course together with Mat-1.3012 replaces Mat-1.041. Language: Finnish Mat-1.3012 History of Science II P (3 cr) Autumn (II) Lecturer: Ilpo Halonen, Ph.D,
[email protected] Contents: The course enters more deeply into the themes treated in Mat-1.3011. In particular, the great scientific advances made during the 17th century, often called “the great scientific revolution”, are treated. An important theme in this revolution was the development of astronomy. Behind the central mathematical-physical discoveries during the period were persons like Kopernikus, Brahe, Kepler, Bacon, Galilei, Descartes, Newton and Leibniz. In addition the course treats certain
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parts of more recent history of science (e.g. Einstein). Prerequisites: Mat-1.3011 Additional information: Individual study in English is possible. This course together with Mat-1.3011 replaces Mat-1.041 Language: Finnish
Mat-1.3032 Fuzzy Sets P (2 cr) Mat-1.3051 Discrete Mathematical Methods P (3-6 cr) Mat-1.3081 Algebra I P (5 cr) Mat-1.3111 Number Theory P (3 cr)
Mat-1.3013 Philosophy of Science I P (2 cr) Autumn (I) Not lectured this academic year. Lecturer: Ilpo Halonen, Ph.D,
[email protected] Contents: The course deals mainly the foundations, objectives,and the methods in the mathematical and physical sciences from a philosophical point of view. The course proceeds historically from the philosophers of antiquity to the scientific revolution and from there to the essential modern philosophies. The characteristic features of science and of scientific thinking are systematically treated as well as concepts about the methods and the objectives of science and the nature of scientific knowledge during different periods. Additional information: Individual study in English is possible. This course together with Mat-1.3014 replaces Mat-1.042. Language: Finnish Mat-1.3014 Philosophy of Science II P (3 cr) Autumn (II) Not lectured this academic year. Lecturer: Ilpo Halonen, Ph.D,
[email protected] Contents: The course enters systematically more deeply into the themes treated in Mat-1.3013. Central themes are the scientific establishment of theories and concepts, scientific deduction. its nature and objectives, scientific explanations and causality problems, the ethics of science and questions pertaining to the scientific world view, growth of knowledge and the development of science. Prerequisites: Mat-1.3013 Additional information: Individual study in English is possible. This course together with Mat-1.3013 replaces Mat-1.042. Language: Finnish Mat-1.3015 Philosophy of Science I&II P (5 cr) Autumn (I-II) Not lectured this academic year. Contents: This course is a combination of the courses Mat-1.3013 Philosophy of Science I and Mat-1.3014 Philosophy of Science II. Additional information: Individual study in English is possible. Language: Finnish Mat-1.3016 History of Science I&II P (5 cr) Autumn Contents: This course is a combination of the courses Mat-1.3011 History of Science I and Mat-1.3012 History of Science II. Additional information: Individual study in English is possible. Language: Finnish
Mat-1.3281 Analysis I (5 cr) Mat-1.3282 Study Group in Analysis P (1-3 cr) Mat-1.3301 Complex analysis L (5 cr) Mat-1.3345 Inverse problems for differential equations P (4-6 cr) Mat-1.3352 Hyperbolic partial differential equations P (5 cr) Mat-1.3353 Viscosity Solution to Partial Differential Equations P (5 cr) Not lectured this academic year. Lecturer: Prof Gustaf Gripenberg Contents: Elliptic and parabolic equations, the maximum principle etc. Web page: http://www.math.hut.fi/teaching/viscosol/index.html.fi. Additional information: Individual study in English is possible. This course replaces the course Mat-1.520. Language: Finnish Mat-1.3355 Microlocal analysis P (4-6 cr) Autumn (I-II) Lecturer: Prof Matti Lassas Contents: Topics related to microlocal analysis: propagation of singularities, pseudodifferential operators, Fourier integral operators. This year 4-6 credit points. Additional information: Individual study in English is possible. Language: Finnish Mat-1.3371 Dynamical Systems P (5 cr) Mat-1.3379 Special Course in Dynamical Systems P (3-6 cr) Mat-1.3421 Basics of Fourier Analysis P (5 cr) Not lectured this academic year. Lecturer: Prof Gustaf Gripenberg Contents: Fourier series, Fourier transform of L1 - and L2 -functions and distributions, discrete Fourier transform, applications. Literature: Opetusmoniste Prerequisites: Basic courses in Mathematics 1 (and 3) Additional information: Individual study in English is possible. The course replaces the course Mat-1.158. http://www.math.hut.fi/teaching/fourier/ index.html.fi Language: Finnish
Mat-1.3031 Mathematical Logic I P (2 cr) Mat-1.3422 Wavelet Theory P (3 cr)
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Not lectured this academic year. Lecturer: Prof Gustaf Gripenberg Contents: Basic wavelet theory, multiresolutions, orthonormal bases, frames, etc. Literature: Lecture notes. Web page: http://math.tkk.fi/teaching/wavelet/index.en.html Additional information: Individual study in English is possible. This course replaces the course Mat-1.510. Language: Finnish Mat-1.3460 Principles of Functional Analysis P (5 cr) Autumn Lecturer: Prof Olavi Nevanlinna Contents: Banach- and Hilbert spaces. Theory of linear operators. Literature: E. Kreyszig, 1989. Introductory Functional Analysis with Applications, John Wiley & Sons. Prerequisites: Basic courses in Mathematics 1-2 and Mat1.2990 Additional information: Individual study in English is possible. The course replaces the course Mat-1.140. Language: Finnish Mat-1.3461 Operator algebras P (5 cr) Mat-1.3462 Applied Functional Analysis P (3-5 cr) Autumn Lecturer: Prof Matti Lassas Contents: More detailed infromation will be given later. The scope of the course is 5 cr this year. Literature: Supplementary material. Prerequisites: Mat-1.3460/Mat-1.140 Additional information: Individual study in English is possible. The course replaces the course Mat-1.141. Language: Finnish Mat-1.3530 Differential Geometry P (5 cr) Mat-1.3531 Introduction to Differential Geometry P (5 cr) Mat-1.3601 Introduction to stochastics P (5 cr) Mat-1.3602 Stochastic analysis P (3-5 cr) Mat-1.3603 Mathematical Finance P (5 cr) Mat-1.3604 Stationary processes P (5 cr) Mat-1.3605 Information and stochastic processes P (5 cr) Mat-1.3606 Seminar on stochastics P (1-3 cr) Autumn, Spring Lecturer: Prof Esko Valkeila Contents: Lectures by visitors, researchers and students. Language: English
Mat-1.3608 Markov Chains P (3-5 cr) Mat-1.3621 Statistical inference P (5 cr) Mat-1.3626 Computational methods in inverse problems P (4-6 cr) Autumn Lecturer: Prof Erkki Somersalo Contents: The contents of this course varies from year to year, the topic being computational methods for solving inverse problems in practical applications. The fall 2007 course consists of two parts: the first part focusses on klassical regularization techniques, the latter part will discuss statistical methods. The scope of the course is 5 cr this year. Literature: Material available from the lecturer. Additional information: Individual study in English is possible. Language: Finnish Mat-1.3650 Finite Element Method I P (5 cr) Spring Lecturer: N.N. Contents: Sobolev spaces, elliptic variational problems, mathematical background of finite element method, most common element types, approximation properties of polynomials, practical aspects. Literature: To be announced later. Prerequisites: Basic courses in Mathematics 1-3/4, basics in partial differential equations Additional information: Individual study in English is possible. This course replaces the course Mat-1.171 Principles of Finite Element Method. Language: Finnish Mat-1.3651 Matrix computations P (5 cr) Spring (III-IV) Lecturer: N.N. Contents: Matrix decompositions and their numerical computation, eigenvalue iterations, sparse matrices, iterative solution of linear systems. Literature: Lecture notes Additional information: The course replaces the course Mat-1.175. Language: English Mat-1.3652 Finite Difference Methods P (5 cr) Autumn (I-II) Lecturer: Prof Timo Eirola Contents: Difference methods for the numerical solutions of ordinary and partial differential equations; in particular stability and convergence. Preservation of important qualitative properties under discretization are also examined. Literature: To be announced later. Prerequisites: Basic courses in Mathematics 1-3 Additional information: This course replaces the course Mat-1.169. Language: English
Mat-1.3607 Stochastic Optimation (2-5 cr) Mat-1.3653 Theory of Approximation P (5 cr)
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Not lectured this academic year. Lecturer: Harri Hakula, lecturer Contents: Approximation of functions with polynomials, splines, trigonometric functions and wavelets in different norms. Literature: Lecture notes Prerequisites: Mat-1.2990/Mat-1.015 (or equal) Additional information: Individual study in English is possible. This course replaces the course Mat-1.170. Language: Finnish
Language: English
Mat-1.3654 Numeric and Symbolic Computation P (36 cr) Not lectured this academic year. Lecturer: Teijo Arponen, researcher Contents: The course is given in the form of weekly assignments and a larger project. The mathematical topics vary annually; suitable topics are numerical methods in general, dynamical systems (discrete and/or continuous), the mathematics of signal processing, optimization, etc. Other topics are also possible depending on the interest of participants (please contact the lecturer in advance). The mathematical software systems used are mainly Matlab and Maple. Requirements: Weekly Assignments and a Final Project work. Prerequisites: Basic courses in Mathematics 1-3 Web page: http://www.math.hut.fi/teaching/numsym/ Additional information: Individual study in English is possible. This course replaces the course Mat-1.192. Course homepage Language: Finnish
Mat-2.2103 Design of Experiments and Statistical Models (5 cr)
Mat-1.3655 Study group in numerical analysis P (1-3 cr) Autumn, Spring (I-II, III-IV) Lecturer: Prof Timo Eirola Contents: We study the most recent methods and results in numerical analysis. Language: English Mat-1.3656 Seminar on Numerical Analysis and Computational Science P (1-5 cr) Autumn, Spring (I-IV) Lecturer: Prof Timo Eirola Contents: Applications of computational methods to diverse scientific and technical problems. The seminar will meet once a week during the academic year. Suitable also for undergraduate students. Additional information: The course replaces Mat-1.600. Language: English Mat-1.3657 Computational Methods of Partial Differential Equations P (5 cr) Mat-1.3658 Special course in numeric analysis L (5 cr) Spring (III-IV) Lecturer: Prof Timo Eirola Contents: Problems of current interest in numerical analysis. Further details about the content this year will be given later.
Mat-1.3980 Special Studies in Mathematics P (10 cr) Mat-1.3990 Special assignment in mathematics (5-8 cr) Mat-1.3992 Computational Science, special assignment (5-8 cr) Mat-2.1197 Philosophy and Systems Thinking P (3 cr)
Mat-2.2104 Introduction to Statistical Inference (5 cr) Mat-2.2105 Introduction to Optimization (3 cr) Mat-2.2107 Computational Assignments in Applied Mathematics (3 cr) Mat-2.3111 Stochastic Processes P (5 cr) Mat-2.3112 Statistical Multivariate Methods P (3-6 cr) Mat-2.3114 Investment Science P (5 cr) Mat-2.3117 Risk Analysis P (5 cr) Mat-2.3118 Reliability Engineering P (5 cr) Mat-2.3128 Prediction and Time Series Analysis P (5 cr) Mat-2.3130 Mathematical Modelling P (3-6 cr) Mat-2.3132 Systems Analysis Laboratory I (5 cr) Mat-2.3134 Decision Making and Problem Solving P (5 cr) Mat-2.3139 Nonlinear Programming P (5 cr) Mat-2.3140 Linear Programming P (5 cr) Mat-2.3148 Dynamic Optimization P (5 cr) Mat-2.3152 Game Theory P (5 cr) Mat-2.3170 Simulation P (5 cr) Mat-2.4108 Independent Research Projects in Applied Mathematics (5-8 cr) Autumn & Spring Lecturer: Prof Raimo P. Hämäläinen, Prof Harri Ehtamo, Prof Ahti Salo as well as other lecturers and researchers of the laboratory Contents: An individual research project; topics from industry or from research projects of the laboratory. Students can also propose their own topics. The topics need to be discussed and approved by one of the
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teachers. One of the main aims is to get experience in writing a research report. Objective: Written and scientific reporting skills. Requirements: Written report Substitutive: This course replaces the course Mat-2.108 Independent Research Projects in Applied Mathematics Web page: https://noppa.tkk.fi/noppa/kurssi/mat-2.4108/ Language: Finnish or Swedish or English
Multiple Criteria Optimization Web page: https://noppa.tkk.fi/noppa/kurssi/mat-2.4153/ Additional information: 3 cr. Course is taken as an independent study, see the course web site for instructions Language: Finnish or English Mat-2.4174 Programming of Mathematical Algorithms P (3-6 cr)
Mat-2.4113 Queuing Theory P (3-6 cr) Mat-2.4115 Seminar on Stochastic Methods P (5 cr) Mat-2.4125 Special Topics in Stochastics P (3-6 cr)
Mat-2.4177 Seminar on Case Studies in Operation Research P (5 cr) Mat-2.4191 Postgraduate Seminar on Applied Mathematics P (5 cr)
Mat-2.4126 Statistical Quality Control P (3-6 cr) Mat-2.4129 System Identification P (5 cr) Mat-2.4133 Systems Analysis Laboratory II (5 cr) Mat-2.4136 Special Topics in Decision Making P (3-6 cr) Not lectured this academic year Lecturer: Prof Ahti Salo, Prof Raimo Hämäläinen and visiting lecturers Contents: Annually varying topics on decision making. Requirements: Varies annually Prerequisites: 1st and 2nd year math and Applied probability Mat-1.2600 or Mat-1.2620 Substitutive: This course will replace the course Mat2.136 Special Topics in Decision Making which is lectured this academic year Web page: https://noppa.tkk.fi/noppa/kurssi/mat-2.4136/ Language: Finnish and/or English Mat-2.4142 Seminar on Optimization P (5 cr) Mat-2.4143 Network Optimization P (3-6 cr) Mat-2.4144 Optimization Theory P (3-6 cr) Mat-2.4146 Integer Programming P (3-6 cr) Mat-2.4153 Multiple Criteria Optimization P (3-6 cr) Autumn & Spring Lecturer: Antti Punkka, researcher Contents: One- and multi-objective decision making, utility function, Pareto-optimality, theory of vector maximization, goal programming, interactive algorithms. Applications. Objective: to familiarize the students with multi-criteria optimization Requirements: Home assignments Target group: undergraduate and graduate students Literature: K.M. Miettinen: Nonlinear Multiobjective Optimization, Kluwer 1999 Prerequisites: Mat-2.2105 Introduction to Optimization or Mat-2.3139 Nonlinear Programming or Mat-2.3140 Linear Programming Substitutive: This course replaces the course Mat-2.153
Mat-2.4192 Systems Research Seminar P (1-6 cr) The arrangement will be announced later Lecturer: Prof Raimo P. Hämäläinen Contents: Presentations on new topics and problems in systems analysis, decision making and risk management given by participants and visitors. Requirements: Varies annually Substitutive: This course replaces the course Mat-2.192 Systems Research Seminar Web page: https://noppa.tkk.fi/noppa/kurssi/mat-2.4192/ Language: Finnish or English Mat-2.4193 Independent Studies in Systems Analysis and Applied Mathematics P (1-9 cr) Mat-2.4194 Research Course in Systems Science P (1-6 cr) Lecturer: Prof Raimo P. Hämäläinen and visiting lecturers Contents: Advanced graduate course on topics of current interest in systems research given mainly by visitors. The description of courses offered each year can be found at the homepage. Substitutive: This course replaces the course Mat-2.194 Summer School in Systems Science Web page: https://noppa.tkk.fi/noppa/kurssi/mat-2.4194/ Additional information: Credit can also be earned by individual agreement by taking courses offered by the Graduate School in Systems Analysis, Decision Making and Risk Management, see www.sal.tkk.fi/tutkijakoulu/courseseng.html Language: Finnish or English Mat-2.4195 Web-based Courses in Systems Analysis P (1-6 cr) Autumn & Spring Lecturer: Kai Virtanen, teaching research scientist Contents: Independent studies with Web-based teaching material produced by the Systems Analysis Laboratory and selected foreign universities. Currently courses (replacement courses listed in parentheses) on the following topics are available: nonlinear programming (Mat-2.3139) and mathematical modelling (Mat-2.3130). Requirements: Exam or homework Substitutive: This course replaces the course Mat-2.195
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Web-based Courses in Systems Analysis Web page: https://noppa.tkk.fi/noppa/kurssi/mat-2.4195/ Language: Finnish or English Mat-2.4198 Seminar of Creative Problem Solving P (58 cr) Mat-1.125 Individual Research Project in Mathematics (3-6 ocr) Mat-1.142 Seminar on Mathematics (P) (1.5 ocr) I-IV Lecturer: Prof Matti Lassas Contents: The purpose of the course is to practice giving mathematical talks and presentations. Specific topics of seminars are decided on the beginning of the semester. Prerequisites: Matematiikan peruskurssit sekä Mat-1.015. Additional information: Individual study in English is possible.
Language: Finnish Mat-1.218 Seminar on Inverse Problems (1.5-4 ocr) Autumn, Spring Lecturer: Prof Erkki Somersalo and Prof Matti Lassas Contents: The seminar will assemble irregularly at times to be announced separately. For seminar information, the students are asked to give their contact information to the lecturer. The topics of the seminar include actual research topics as well as topics of the diploma, licentiate and doctoral theses. Additional information: Individual study in English is possible. http://www.math.hut.fi/teaching/inversioseminaari/ Language: Finnish Mat-1.625 Special Assignment in Computational Science and Engineering (3-5 ocr)
Department of Media Technology AS-75.1102 Basics of Publication Technology (3 cr) Autumn + Spring (I-II, III-IV) Lecturer: Prof Eero Hyvönen Contents: The course deals with the technical principles related to page make-up, web page design, multimedia documents and document coding. Requirements: Based on individual practical assignments. Literature: Handouts and other material. Prerequisites: T-106.1003/T-106.003 Additional information: Replaces the course AS-75.102. Individual study in English possible. Language: Finnish AS-75.1107 Media Genres (3-4 cr) Spring (III) Lecturer: Stina Westman, M.Sc.(Tech.) Contents: Media genres; messages, media and media effects. Requirements: Examination and exercise work. Literature: Consists of articles, exact content to be announced later. Additional information: Replaces the course AS-75.1101. Individual study in English possible. Language: Finnish AS-75.1124 Basics of Imaging Technology (4-5 cr) Autumn (I-II) Lecturer: PhD Jukka Häkkinen Contents: Modelling of imaging systems using transfer system and information theories. Light, radiometry, photometry. Optics, lenses. Detection, generation, coding, characterisation and processing of image signals. Colour vision, colorimetry and colour coordinate systems, spatial vision. Requirements: Exercise work and examination. Literature: Saarelma Hannu: Kuvatekniikan perusteet,
Otatieto 601 Additional information: Replaces the course AS-75.124. Individual study in English possible. Language: Finnish AS-75.2121 Basics of Media Technology (4 cr) Spring (III-IV) Lecturer: Prof Pirkko Oittinen Contents: The course deals with the technical aspects and processes of media signals and devices, and subjective and objective measurement connicted to them. Requirements: Lectures, exercise work and final examination. Literature: Lecture notes and other material. Prerequisites: AS-75.1107 and AS-75.1124/AS75.124. Additional information: Replaces the course AS-75.121. Individual study in English possible. Language: Finnish AS-75.2128 Imaging and Display Technology P (5 cr) Autumn (I-II) Lecturer: Mikko Nuutinen, Lic.Sc.(Tech.) and Samu Kallio, M.Sc.(Tech.) Contents: Imaging and display technologies and their performance. Requirements: Lectures, 1-2 assignments and examination. Literature: Consists of articles, exact content to be announced later. Prerequisites: AS-75.2121/AS-75.121, AS-75.1124/AS75.124. Additional information: Replaces the course AS-75.128. Individual study in English possible. Language: Finnish AS-75.2300 Information Networks: Studio 2 (2 cr)
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AS-75.2500 Semantic Web P (4 cr) Spring (III-IV) Lecturer: Prof Eero Hyvönen Contents: The core content of the course consists of Semantic Web technologies and standards such as Resource Description Framework (RDF) and Web Ontology Language (OWL). Rule systems, ontology techniques and Semantic Web tools and applications will also be covered. The theoretical part of the course will be complemented by exercise work. Requirements: Examination and exercise work. Literature: G. Antoniou, F. van Harmelen, A Semantic Web Primer. MIT Press, 2004. Lecture notes and other material. Prerequisites: AS-0.1110/AS-0.110, T-106.1223/T106.253 (recommendation). Additional information: Replaces the course AS-75.105. Individual study in English possible. Language: Finnish AS-75.3118 Graphic Media Technology P (5 cr) Autumn & Spring (II-IV), will not be lectured in academic year 2008-2009. Lecturer: Prof Pirkko Oittinen Contents: The course deals with product, production and distribution technologies of media products such as newspapers, magazines, books and utility prints. Moreover, management technologies of colour, quality and workflow are dealt with. Requirements: Active attendance, seminar assignment, laboratory assignments, PBL cases and examination. Literature: Oittinen, P., Graafinen viestintätekniikka (lecture notes) and other material. Prerequisites: AS-75.2121/AS-75.121. Additional information: Replaces the course AS-75.118. Individual study in English possible. Language: Finnish AS-75.3131 Quality in Visual Media P (5-6 cr) Autumn & Spring (I-IV) Lecturer: Prof Pirkko Oittinen and Mari LaineHernandez, M.Sc. (Tech.) Contents: The course deals with the objective and subjective quality of visual media applications as well as the measurement of quality. Subjective quality will mainly be approached from the viewpoints of visual perception and user experience. Optional fields of study include still images, broadcast video, displays and print quality. Requirements: Examination and exercise work in small groups. The six-credit version of the course includes an additional individual assignment. Literature: Consists of articles, exact content to be announced later. Prerequisites: AS-75.2121/AS-75.121. Additional information: Replaces the course AS-75.3130. Individual study in English possible. Language: Finnish AS-75.3133 Media Production Processes and Systems
P (5-6 cr) Autumn & Spring (I-IV) Lecturer: Jan Kallenbach, M.Sc. (Tech.) and Pirkko Oittinen, prof. Contents: The course gives insight into the production processes and systems currently present in television, print and other media. It considers market structures and changes and focuses on their implications for media companies. The main goal of the course is the analysis and modelling of existing production processes in order to understand relationships between their different actors and systems. Objective: At the end of the course the student is expected to be able to understand media market changes & developments, to describe production stages and levels in media production, to be sufficiently familiar with modern and future media production technologies, to have basic knowledge about process & workflow management, to analyze and model activities & actors in media production processes. Requirements: Examination and exercise work in small groups. The six-credit version of the course includes an additional individual assignment. Literature: Scientific articles and other sources given in the course. Prerequisites: AS-75.2121/AS-75.121. Additional information: Replaces the course AS-75.3132. Language: English AS-75.3206 Laboratory Course in Media Technology (3-9 cr) AS-75.3300 Project Course in Visual Media P (2-8 cr) Autumn + Spring (I, II, III, IV) Lecturer: Mikko Nuutinen, M.Sc. (Tech) and prof. Pirkko Oittinen Contents: The purpose of the course is to exercise the students’ independent problem-solving skills with individual research projects from different fields of visual media. Requirements: One or two individual projects. Prerequisites: AS-75.1124/AS-75.124, AS-75.2121/AS75.121. Additional information: Replaces the courses AS-75.135, AS-75.196 and AS-75.202. Language: Finnish or English. Language: Finnish. AS-75.3400 Project Course in Knowledge media P (2-8 cr) AS-75.3600 Semantic Web Services P (4 cr) Autumn (I-II) Lecturer: Prof Eero Hyvönen and Tuukka Ruotsalo, M.Sc.(Econ.& Bus.Adm.) Contents: The basic Web Service tools and standards (e.g. SOAP, WSDL and UDDI), the representation of functional services with choreography languages, the semantic description systems of the services (e.g. OWL-S and WSMF), and the tools and applications of the area. The theory will be complemented by exercise work. Requirements: Examination and exercise work.
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Literature: The textbook will be announced later. Lecture notes and other material. Prerequisites: AS-0.1110/AS-0.110, AS-75.2500/AS75.105 (recommended) Additional information: Replaces the course AS-75.108. Individual study in English possible. Language: Finnish AS-75.3700 Research Seminar on Media Technology (3 cr) Autumn (I-II) Lecturer: Prof Pirkko Oittinen and Prof Eero Hyvönen Contents: New media technology research results will be discussed in relation to the topics of the participants’ Master’s Theses. Requirements: Active participation in the seminar. Literature: Research articles, books, standards, software etc. Prerequisites: Qualifications for Master’s Thesis work. Additional information: Language: Finnish or English. Language: Finnish AS-75.4146 Postgraduate Course on Visual Media P (3-9 cr) Spring (III-IV) Lecturer: Prof Pirkko Oittinen Contents: Individual and group assignments concerning current themes for research on visual information and its application technologies and applications. Requirements: To be agreed on case by case. Prerequisites: M.Sc. (Tech.) degree Additional information: In addition to the spring term, the course may be organized at varying times (e.g. during the summer). Replaces the course AS-75.146. Language: Finnish and English. AS-75.4210 Advanced Laboratory Course in Media Technology P (2-8 cr) Autumn + Spring (I, II, III, IV) Lecturer: Prof Pirkko Oittinen and Prof Eero Hyvönen Objective: The purpose of the course is to exercise the students’ independent problem-solving skills with individual research projects. Requirements: 1-2 individual research assignments. Prerequisites: AS-75.3206/AS-75.206. Additional information: Replaces the courses AS-75.113, AS-75.135 and AS-75.210. Language: Finnish and English. AS-75.4700 Postgraduate Seminar on Knowledge media P (3-9 cr) INF.kand Bachelor’s Thesis and Seminar (10 cr) Inf-0.1202 Philosophy (5 cr) Inf-0.1220 Sociology (5 cr) Inf-0.1300 Aesthetics (5 cr) Inf-0.3101 Principles of Complex Networks (3-5 cr)
Inf-0.4100 Information Networks: Studio X (5-8 cr) II-IV Lecturer: prof. Tapio Takala, prof. Eero Eloranta, prof. Riitta Smeds Contents: Studio X is an advanced studio course of the degree programme of Information Networks. The objective of the course is to create holistic innovative thinking and problem solving capabilities, competences and skills. Additionally, the course aims to advance entrepreneurship and business growth. Requirements: The course assignment is organized in teams. The aim is to cover the innovation process from creative idea generation and the identification of market potential to the development of product or service concept and its business model, including the business plan. Team assignment with the written documentation and oral presentation. The written report includes the description of the mock-up/prototype of the concept. The oral presentation is oriented to the “financiers” of the venture. The role of the “financiers” is played by course faculty members and real investors. Target group: Only the students of the Degree Programme of Information Networks Prerequisites: T-106.2001, AS-75.2300, TU-22.2600, T111.2210/T-111.2211, in addition each team should have members with proven knowledge of TU-91.1002, T121.2100 and TU-22.1120 Additional information: Team assignment and presentation in English Language: English and Finnish T-0.1002 Orientation Course in Computer Science and Engineering (1 cr) T-0.7050 Introduction to Postgraduate Studies in Computer Science P (2 cr) Spring Lecturer: professor Marko Nieminen and professor Marjo Kauppinen (pro tem) Contents: Basic research skills. The publishing process. Scientific presentations. Research areas in computer science. Objective: Provide a basic understanding of the scientific process and of the research paradigms relevant to research. Provide guidelines and support for planning the Ph.D. work. Provide an understanding and experience of the publishing and peer-review process in the field. Requirements: attending weekly meetings, preparing a personal research plan, giving a practice talk, and writing a course report. Target group: The course is obligatory for all new postgraduate students (admitted since 1.10.2002) at Computer Science and Engineering. Web page: http://tieto.tkk.fi/Opinnot/T0.7050/index.html Additional information: It is strongly recommended that the course is taken during the first year of the postgraduate studies. Language: English
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T-111.2211 Information Networks: Studio 4 (4 cr) T-111.5020 Visual Expression (3 cr) T-111.2350 Multimedia Technology (4 cr) Spring Lecturer: prof. Petri Vuorimaa. Contents: Basic concepts of multimedia, application areas, and convergence of digital media. Multimedia systems both at hardware and software level. Audio and video coding and compression. Interchange formats, basics of XML markup language, and content production tools. Quality of service, multicast, multimedia communications, and access networks. Requirements: Exam and laboratory exercise. Literature: Li & Drew, 2004. Fundamentals of Multimedia. Prentice Hall. Prerequisites: T-106.1200 Basics of Programming. Substitutive: Replaces the course T-111.350. Additional information: One can get full (3 points) extra grade from the laboratory exercise to the final grade. The exam has to be passed with minimum grade of one (1), though. Can be taken in English upon request. Language: Finnish T-111.4300 Fundamentals of Computer Graphics (3 cr) Autumn (Period II) Lecturer: lecturing researcher Timo Tossavainen Contents: Graphic devices, 2- and 3-dimensional drawing, geometric modeling, use of colors, algorithms of computer graphics Requirements: Exam and assignment. Literature: Hearn & Baker, 2003. Computer Graphics with OpenGL (3rd ed.), Prentice Hall. Prerequisites: Basics of programming Substitutive: Replaces course T-111.301. Additional information: Can be taken in English upon request. Language: Finnish T-111.4360 Design of WWW Services (4 cr) Spring Lecturer: prof. Petri Vuorimaa Contents: The course deals with designing and implementing WWW sites and interactive services on the web. Some of the topics covered are web service implementation techniques, usability, web service life span, graphic design and information security. The project work consists of designing and implementing a WWW service. Requirements: A project work done in groups. Literature: online material Substitutive: Replaces courses T-111.361, T-111.362. Additional information: All lectures are held during period III. Can be taken in English upon request. Language: Finnish T-111.5006 Conceptualization and scriptwriting (4 cr) T-111.5007 Multimedia Project (5 cr) T-111.5015 Film Narrative (5 cr)
T-111.5025 Sound Design (3 cr) T-111.5030 3D Production (5 cr) Autumn (every other year; lectured 2008-2009) Lecturer: prof. Tapio Takala Contents: 3D modeling and animation with professional software. Basics of animation production, geometric modeling, textures and materials, illumination models, key-frame techniques, kinematics, special effects and sound synchronization. Requirements: Several assignments. Literature: Isaac Victor Kerlow, 2000. The Art of 3-D Computer Animation and Imaging. Wiley. Prerequisites: T-111.4300 and in addition either T111.5005 or T-111.5015 Substitutive: Replaces course T-111.030. Additional information: Can be taken in English upon request. Language: Finnish T-111.5070 Special Course in Content Production (2-6 cr) Autumn (Period I) & Autumn (Period II) & Spring (Period III) & Spring (Period IV) Lecturer: prof. Tapio Takala Contents: Course content varies from year to year. Requirements: Announced later. Substitutive: Replaces course T-111.070. Additional information: The contents of the course vary. May be graded with pass/fail. Can be taken in English upon request. Language: Finnish T-111.5077 Special Project on Content Production P (6-9 cr) Autumn + Spring Lecturer: prof. Tapio Takala Contents: Students create innovative content concepts and applications of new media in small groups. The theme of the course varies every year. Requirements: Special assignment. Prerequisites: T-111.5007 or good experience on the tool and methods for content production. Substitutive: Replaces course T-111.077. Additional information: Can be taken in English upon request. Language: Finnish T-111.5080 Seminar on Content Production P (4-8 cr) T-111.5300 Advanced Course in Computer Graphics (4 cr) Spring Lecturer: prof. Lauri Savioja Contents: Programming oriented course that goes deeper in computer graphics algorithms and their implementation with OpenGL API. Requirements: Several assignments.
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Literature: Hearn & Baker, 2003. Computer Graphics with OpenGL (3rd Edition). Prentice-Hall. Prerequisites: T-111.4300, C-language Substitutive: Replaces the course T-111.300 together with T-111.4300. Additional information: Can be taken in English upon request. Language: Finnish T-111.5350 Multimedia Programming (4 cr) Autumn Lecturer: prof. Petri Vuorimaa Contents: The topic of the course is multimedia terminal application development. Key topics include, for example, embedded operating systems and most important application programming interfaces. Requirements: The course is composed of lectures, student presentations and small case programming assignment. Literature: To be announced later. Prerequisites: T-111.2350 Multimedia Technology. Language: English. T-111.5360 WWW Applications P (4 cr) Spring Lecturer: prof. Petri Vuorimaa Contents: The topic of the course is XML markup language and its use in www-applications. The objective is to get familiar with different XML based markup languages under development and how they are used together. In addition, the course will study the use of XML languages in the implementation of WWW services. Requirements: The course is composed of lectures and student presentations. To pass the course one has to follow lectures, give a presentation, and do a small exercise. Literature: On-line material. Prerequisites: T-111.4360 Language: English. T-111.5400 Virtual Reality P (4 cr) Spring (Period III) Lecturer: prof. Lauri Savioja Contents: Learning the tools and concepts for simulation and manipulation of 3D virtual worlds. Topics include physiology of sensing and immersive (visual, aural, and haptic) I/O-devices, and applications of virtual reality. Requirements: Exam and a brief written report. Literature: W.R. Sherman and A.B. Craig, 2003. Understanding Virtual Reality. Morgan Kaufman. Prerequisites: T-111.4300 recommended. Substitutive: Replaces the course T-111.400. Additional information: Can be taken in English upon request. Language: Finnish T-111.5450 Computer Animation P (6 cr) Autumn (every other year; not lectured 2008-2009) Lecturer: prof. Tapio Takala Contents: Hands-on programming course. Methods and
algorithms to implement movement of geometrical objects. The programming assainments include keyframe techniques, kinematics, physically-based modeling, particle systems, and artificial life. Requirements: Exam and assignment. Literature: Rick Parent, 2001. Computer Animation Algorithms and Techniques, Morgan Kaufmann. Prerequisites: T-111.5300 Substitutive: Replaces course T-111.070. Additional information: Can be taken in English upon request. Language: Finnish T-111.5500 Seminar on Computer Graphics P (4-8 cr) Spring Lecturer: prof. Lauri Savioja, prof. Tapio Takala Contents: Varying topics in computer graphics and its applications (modelling, animation, visualization, virtual reality). Requirements: Seminar. Prerequisites: T-111.5300 Substitutive: Replaces course T-111.500. Additional information: The contents of the course vary. Can be taken in English upon request. Language: Finnish T-111.5550 Seminar on Multimedia P (4-8 cr) Autumn Lecturer: prof. Petri Vuorimaa Contents: Varying seminar on current topics in multimedia, hypermedia or interaction technology. Requirements: Participation on seminar sessions and seminar presentation. Prerequisites: T-111.2350 Additional information: The contents of the course vary. Language: English T-111.5600 Special Assignment in Digital Media P (24 cr) Spring (Period II) Lecturer: N.N. Contents: An assignment is done in small groups (2-4 students). The topic of the assignment is related to the courses lectured in period III. This work is planned, implemented, and reported scientifically, so that scientific research work and reporting of the research results are learned at the same time. Requirements: An assingment and report. Prerequisites: T-111.5360 or T-111.5400 Substitutive: Replaces the course T-111.595. Additional information: Can be taken in English upon request. Language: Finnish T-111.5700 Special Course on Digital Media P (2-8 cr) T-111.6595 Individual Studies in Digital Media P (210 cr) Autumn & Spring Lecturer: prof. Lauri Savioja, prof. Tapio Takala, prof. Petri Vuorimaa
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Contents: Contents and requirements are to be agreed with the professor. Requirements: To be agreed later. Prerequisites: T-111.5300 Substitutive: Replaces the course T-111.595. Additional information: The contents of the course vary. Can be taken in English upon request. Language: Finnish T-111.7590 Research Seminar on Digital Media P (4-8 cr) Autumn, Spring Lecturer: prof. Lauri Savioja, prof. Tapio Takala, prof.
Petri Vuorimaa Contents: The course aims to familiarize the students with modern computer graphics and multimedia research fields. Requirements: Seminar. Prerequisites: T-111.5300 Substitutive: Replaces the course T-111.590. Additional information: The contents of the course vary. Can be taken in English upon request. Language: Finnish TIK.kand Bachelor’s Thesis and Seminar (10 cr)
Department of Engineering Physics Mat-5.3701 Analytical Mechanics L (5 cr) Not lectured this academic year. Lecturer: prof. Rolf Stenberg Contents: A second course in theoretical mechanics. Newton’s, Lagrange’s and Hamilton,s mechanics. Symmetries and conservation laws. Noether’s theorem. Liouville’s theorem. Dynamics of rigid bodies. Geometrical principles of mechanics. Literature: V. I. Arnold. Mathematical Methods of Classical Mechanics. Springer Graduate Texts in Mathematics 60. J. V. José, E. J. Saletan Classical Dynamics : A Contemporary Approach. Cambridge University Press 1998. Additional information: English Mat-5.3702 Advanced Course in Theoretical Mechanics (5 cr) Not lectured this academic year. Lecturer: Prof Rolf Stenberg Contents: To be specified later Additional information: Individual study in English is possible. Language: Finnish Mat-5.3703 Multibody Systems and Numerics P (5 cr) Spring (Not lectured this academic year) Lecturer: Teijo Arponen, researcher Contents: Equations of motion for multibody systems with constraints. Numerically solving differentialalgebraic equations by linear multistep- and nonlinear Runge-Kutta methods. Literature: E. Eich-Soellner, C. Führer: Numerical Methods in Multibody Dynamics. Lund, 2002. Prerequisites: First and second year mathematics basic courses. Additional information: Individual study in English is possible. Language: Finnish Mat-5.3740 Continuum mechanics (5 cr) Autumn Lecturer: Prof. Rolf Stenberg Contents: A basic course in continuum mechanics,
providing the basis for further study in both fluid and solid mechanics. Literature: O. Gonzalez, A. M. Stuart. A First Course in Continuum Mechanics. Cambridge Texts in Applied Mathematics 2008. Prerequisites: The basic courses in mathematics Additional information: Individual study in English is possible. This course replaces the course Mat-5.188 Continuum mechanics. Language: Finnish Mat-5.3741 Theory of Elasticity P (5 cr) 36+24 (3+2), III-IV Lecturer: Mikko Lyly, Docent Contents: Linear elasticity. Variational principles of elasticity. Models for thin structures: beams and plates. Composite structures. Eigenvalue problems: free vibrations, buckling. Literature: Feng Kang & Shi Zhong-Ci. Mathematical Theory of Elastic Structures. Springer-Verlag 1996. Language: English Mat-5.3750 Speciacourse in Computational Mechanics P (5 cr) Autumn, Spring (II-IV) Lecturer: Prof Rolf Stenberg Contents: A second course in the finite element method. A-posteriori error estimates. Saddle-point problems. The Timoskenko beam. Plate models. Stokes equations. The discontinuous Galerkin method. Literature: D. Braess. Finite Elements. Theory, fast solvers, and applications in solid mechanics. Cambridge University Press. Additional information: Individual study in English is possible. Language: Finnish Tfy-0.1011 Physics IA (4 cr) Tfy-0.1012 Physics IB (4 cr) Tfy-0.1023 Physics IIA (5 cr)
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Tfy-0.1024 Physics IIB (5 cr) Tfy-0.2011 Physics IIIA (5 cr)
0.3252/etusivu Additional information: Replaces the course Tfy-3.363 Introduction to Soft Matter Physics. Language: English
Tfy-0.2012 Physics IIIB (5 cr) Tfy-0.2113 Theoretical Mechanics (5 cr) Tfy-0.2124 Quantum Mechanics (5 cr) Tfy-0.3131 Thermodynamics (5 cr) Tfy-0.3141 Electricity and Magnetism (5 cr)
Tfy-0.4800 Physics Research Seminar P (4 cr) I-II, III-IV Lecturer: Mikko Alava, Docent Contents: Seminar series on current research topics in physics and its applications, with contributions by both invited guest speakers, post-doctoral researchers and graduate students. The students may earn credits by attending and presenting a talk. Language: English
Tfy-0.3201 Applied Physics, laboratory course (5 cr) Tfy-0.3211 Continuation course in quantum mechanics (5 cr) Tfy-0.3223 Statistical Physics (5 cr) 36 + 24 (3 + 2) III-IV Lecturer: N.N. Contents: Introduction to equilibrium statistical physics of many-particle systems. Review of basic concepts in equilibrium thermodynamics. Review of probability theory. Ensemble theory of statistical physics. Statistical properties of classical and quantum harmonic oscillators. Ideal bosonic and fermionic quantum gases. Introduction to hydrodynamics and transport theory. Requirements: Two mid-term exams or a final exam. Literature: L. E. Reichl, A Modern Course in Statistical Physics, Second Edition (Wiley 1998). Jouko Arponen, Statistinen fy-siikka (Limes 1994) Substitutive: Together with Tfy-0.3131 Thermodynamics replaces the course Tfy-3.365 Statistical Physics and Thermodynamics. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy0.3223/etusivu Language: English Tfy-0.3233 Materials Physics I (5 cr) Tfy-0.3243 Nuclear and Elementary Particle Physics (5 cr) Tfy-0.3252 Soft Matter Physics (5 cr) 24 + 24 (4 + 4) II Lecturer: Emppu Salonen, PhD Contents: The course provides the essentials of soft matter systems (including colloids, polymers, liquid crystals, surface active agents, and biological systems). The structure and physico-chemical properties, basic interactions, principles of self-assembly, research methods for studies of soft matter, applications. The course provides a foundation for follow-up courses dealing with soft matter and biological systems. Requirements: Exam. Literature: Lecture notes and as is suited Richard A. L. Jones, Soft Condensed Matter (Oxford, 2002) Prerequisites: Tfy-0.3131 Thermodynamics Web page: https://noppa.tkk.fi/noppa/kurssi/tfy-
Tfy-105.5111 Computational Physics, special assignment (10 cr) 0 + 200 I, II, III, IV Lecturer: Prof Tapio Ala-Nissilä, Prof Risto Nieminen, Prof Martti Puska and Prof Päivi Törmä Contents: Special assignments are independent research or programming projects, literature reviews etc within the field of the chair of Physics,Tfy-3 and the chair of Computational Physics, Tfy-105. There are special guidelines for performing the assignments. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy105.5111/etusivu Additional information: Intended for those studying under the new ECTS degree regulations for 2005. (The course Tfy-3.393 is intended for those who study under the old degree regulations for 1995.) Language: English Tfy-125.2013 Modern Chemistry for Physicists (4 cr) Tfy-125.4001 Nanoscience I: Introduction to Nanoscience (3 cr) Autumn (Period I) Lecturer: Acad Prof Olli Ikkala Additional information: Lectured jointly with University of Helsinki (experts from the Kumpula, Viikki and Meilahti campuses). Language: English Tfy-125.4002 Nanoscience II: Nanostructures P (5 cr) Not lectured this academic year. Lecturer: Acad Prof Olli Ikkala Additional information: lectured jointly with University of Helsinki (experts from the Kumpula, Viikki and Meilahti campuses) Not lectured this academic year. However, final exams can be arranged based on the material on the web. Please, contact the lecturer. Language: English Tfy-125.4003 Nanoscience III: Molecular Nanoscience P (5 cr) Spring (Period III) Lecturer: Acad Prof Olli Ikkala and Prof Janne Ruokolainen Additional information: lectured jointly with University of Helsinki (experts from the Kumpula, Viikki and
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Meilahti campuses) Language: English Tfy-125.4004 Nanoscience IV: Bionanoscience P (5 cr) Spring (Period IV) Lecturer: Acad Prof Olli Ikkala Additional information: lectured jointly with University of Helsinki (experts from the Kumpula, Viikki and Meilahti campuses) Language: English Tfy-125.4313 Microscopy of Nanomaterials P (5 cr) Spring Lecturer: Prof Janne Ruokolainen and Dr. Hua Jiang Contents: The course gives basic knowledge of the microscopy of materials nanoscale structures - including soft and hard materials. Lectures will concentrate on transmission electron microscopy (TEM), cryo-electron microscopy, high resolution imaging, electron diffraction and analytical microscopy by using elemental analyses (EDX, EELS). Additionally scanning electron microscopy (SEM), atomic force microscopy (AFM) and methods to prepare samples are lectures. Literature: to be announced Substitutive: This course replaces the course Tfy-125.313 Microscopy of Nanomaterials. Language: English Tfy-125.4314 Microscopy of Nanomaterials, laboratory course P (5 cr) Spring (Period IV) Lecturer: Prof Janne Ruokolainen, Prof Matti Kaivola Contents: As practical exercises nanostructured materials are studied with various microscopy methods. Course includes all the basic sample preparation methods for both hard and soft materials and practical microscopy exercises by using transmission electron microscopy (TEM), scanning electron microscopy (SEM) and atomic force microscopy (AFM). Additional information: Number of students participating to the course will be limited. (approx. 9) Language: English Tfy-125.4321 Laser Technology and Optics (5 cr) Autumn Lecturer: Prof Matti Kaivola Contents: A general course on the foundations of optics with emphasis on lasers and their most important applications. Princi¬ples of laser operation, types of lasers, fundamentals of modern optics from an application point of view, laser applications, detection of light, laser safety. Requirements: Two midterm exams or a final exam. Literature: to be announced Substitutive: This course replaces the course Tfy-125.321 Laser Technology and Optics. Language: English Tfy-125.4341 Polymer Physics (5 cr) Autumn, alternate years, not lectured autumn 2008 Lecturer: Prof Janne Ruokolainen
Contents: This course deals with how the structure of polymers will affect their physical properties. Linear and non-linear deformation mechanics, visco-elastic and mechanical properties. Literature: to be announced Prerequisites: Classical mechanics, basic statistical mechanics, elementary thermodynamics. Substitutive: This course replaces the course Tfy-125.312 Polymer Physics. Language: English Tfy-125.4423 Modern Optics P (5 cr) Spring, alternate years, lectured spring 2009 Lecturer: Prof Matti Kaivola Contents: An advanced course in modern optics, dealing with some aspect of physical, statistical, non-linear or quantum optics, and their modern applications. Requirements: Exam Prerequisites: Tfy-125.321/Tfy-125.4321 Substitutive: This course replaces the course Tfy-125.423 Modern Optics. Language: English Tfy-125.4432 Colloquium on New Materials P (1-6 cr) Autumn & Spring Lecturer: Acad Prof Olli Ikkala, Acad Prof Risto Nieminen Contents: Recent achievements in modern materials science are covered in talks by specialists of their respective fields. Substitutive: This course replaces the course Tfy-125.432 Colloquium on New Materials. Language: English Tfy-125.4433 Laser Physics P (5 cr) Spring, alternate years, not lectured spring 2009 Lecturer: Prof Matti Kaivola Contents: Physical foundation for lasers. Interaction phenomena between light and matter, propagation of laser beams, optical resonators, rate equations for lasers, transient phenomena, some topical laser application as a case study. Requirements: Two midterm exams or a final exam. Literature: O. Svelto, Principles of Lasers, Plenum Press, 1998 Prerequisites: Tfy-125.321/Tfy-125.4321 Substitutive: This course replaces the course Tfy-125.422 Laser Physics. Language: English Tfy-125.4480 Microsensing P (5 cr) Spring, alternate years, not lectured spring 2009 Lecturer: Tomi Mattila, Docent Contents: Design, optimization and readout techniques of mod¬ern microsensors based on silicon micromachining and other high-volume production technologies. Examples include capaci¬tive MEMS sensors, wireless and optical sensors, biosensors. Substitutive: This course replaces the course Tfy-3.480 Microsensing. Language: English
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Tfy-125.4910 Individual Studies P (1-10 cr) Autumn & Spring Lecturer: Acad Prof Olli Ikkala, Prof Matti Kaivola, Prof Janne Ruokolainen Contents: The contents and scope of the individual course should be agreed upon with the teacher in charge. Language: English Tfy-125.5111 Physics, special assignment (10 cr) Autumn & Spring Lecturer: Acad Prof Olli Ikkala, Prof Matti Kaivola and Prof Janne Ruokolainen Contents: The special assignments are independent laboratory assignments, planning jobs, literature reviews, etc. from the subject areas of molecular materials and optics. There are written instructions on how to fulfill these assignments. The role of the special assignments is explained more closely in the description of the Master’s degree. Target group: Intended for those studying under the new ECTS degree regulations for 2005. (The course Tfy125.398 is intended for those who study under the old degree regulations for 1995.) Language: English Tfy-3.1181 Physics IA (3 cr) Tfy-3.1182 Physics IB (3 cr) Tfy-3.1193 Physics IIA (3 cr) Tfy-3.1194 Physics IIB (3 cr) Tfy-3.1241 Physics IA (3 cr) Tfy-3.1242 Physics IB (3 cr) Tfy-3.1253 Physics IIA (3 cr) Tfy-3.1254 Physics IIB (3 cr)
TIK. Literature: Will be announced later in Noppa Substitutive: Replaces the first part of the course Tfy3.138 Physics I. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.1381/etusivu Language: English Tfy-3.1382 Physics IB (3 cr) 0 + 24 II (Only exercise sessions) Lecturer: Javad Hashemi, M.Sc. Contents: Basic physics for engineering studies. Vibrations and waves. Fluid mechanics. Basic statistical mechanics and thermodynamics. Requirements: Exam. Target group: Intended for the degree programmes KEM, GMA, KON, ENE, MTE, PUU, RYT, RRT, YYT, TIK. Literature: Will be announced later in Noppa Substitutive: Replaces the second part of the course Tfy3.138 Physics I. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.1382/etusivu Language: English Tfy-3.1393 Physics IIA (3 cr) 0 + 24 III (Only exercise sessions) Lecturer: Javad Hashemi, M.Sc. Contents: Basic physics for engineering studies. Static electric and magnetic fields. Electric current and dc circuits. Electromagnetic induction and ac circuits. Electromagnetic fields in matter. Requirements: Exam. Target group: Intended for the degree programmes KEM, KON, ENE, GMA, MTE, PUU, RYT, RRT, YYT, TIK. Literature: Will be announced later in Noppa Substitutive: Replaces the first part of the course Tfy3.139 Physics II. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.1393/etusivu Language: English
Tfy-3.1361 Physics IA (3 cr) Tfy-3.1362 Physics IB (3 cr) Tfy-3.1373 Physics IIA (3 cr) Tfy-3.1374 Physics IIB (3 cr) Tfy-3.1381 Physics IA (3 cr) 0 + 24 I (Only exercise sessions) Lecturer: Javad Hashemi, M.Sc. Contents: Kinematics. Dynamics of particles and rigid bodies. Work and energy. Interactions. Conservation laws. Physics’ mathematic facilities; vectors, derivation and integration. Objective: Basic physics for engineering studies. Requirements: Exam. Target group: Intended for the degree programmes KEM, GMA, KON, ENE, MTE, PUU, RYT, RRT, YYT,
Tfy-3.1394 Physics IIB (3 cr) 0 + 24 IV (Only exercise sessions) Lecturer: Javad Hashemi, M.Sc. Contents: Basic physics for engineering studies. Electromagnetic waves. Basic optics. Special theory of relativity. Quantum physics. Nuclear physics. Structure of matter. Requirements: Exam. Target group: Intended for the degree programmes KEM, KON, ENE, GMA, MTE, PUU, RYT, RRT, YYT, TIK. Literature: Will be announced later in Noppa Substitutive: Replaces the second part of the course Tfy3.139 Physics II Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.1394/etusivu Language: English
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Tfy-3.1500 Extended physics laboratory experiments (5 cr) Tfy-3.1530 Concise physics laboratory experiments (2 cr) Tfy-3.1540 Physics, laboratory course I (3 cr) Tfy-3.1550 Physics, laboratory course II (2 cr) Tfy-3.1560 Physics laboratory experiments in English (2-5 cr) 0 + 12-36 I, II, III or IV Lecturer: Jani Sainio, D.Sc.(Tech.) Contents: Learning to perform guided experiments, process the measured data, estimate the accuracy and precision, and to report the results. Mechanics, thermodynamics, optics, electricity and magnetism, atomic and nuclear physics. Substitutive: This course can be used to replace any of the courses Tfy-3.15XX. This course replaces Tfy-3.156 Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.1560/etusivu Language: English Tfy-3.3400 Measurements in Physics P (1-4 cr) Autumn & Spring Lecturer: Jouko Lahtinen, Docent Contents: Personal student exercises in experimental physics, measurement technology and data analysis. Substitutive: Replaces course Tfy-3.340 Measurements in Physics. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.3400/etusivu Language: English Tfy-3.4311 Materials Physics II P (5 cr) Autumn Lecturer: Prof Martti Puska Contents: Selected topics in materials physics: Physics of semiconductors, lattice defects, dielectric properties, magnetism, superconductivity Requirements: Two mid-term exams or a final exam Literature: Ibach, Lüth: Solid State Physics Prerequisites: Tfy-0.3233 Substitutive: This course replaces the course Tfy-3.461 Materials Physics II Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4311/etusivu Language: English Tfy-3.4323 Quantum Physics P (5 cr) Spring Lecturer: Prof Päivi Törmä Contents: Perturbation theory, interaction of a two-level system with a (quantized) field, basics of the many-body formalism, quantum coherence in modern physics (quantum information, Bose-Einstein and Fermi condensates, superconducting nanodevices). Requirements: Two mid-term exams or a final exam Literature: Will be announced later in Noppa
Prerequisites: Tfy-0.2124, recommended Tfy-0.3211 Substitutive: This course replaces the course Tfy-44.130 Quantum Mechanics II Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4323/etusivu Additional information: The text book is used also in the courses Tfy-0.2124 Quantum mechanics and Tfy-0.3211 Follow-up course in quantum mechanics. Language: English Tfy-3.4331 Surface Physics P (5 cr) 36 + 24 (3 + 2) I-II will be lectured for the first time in autumn 2009 Lecturer: N.N. Substitutive: This course will replace course Tfy-3.468 Surface Physics. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4331/etusivu Language: English Tfy-3.4343 Nanophysics P (5 cr) 36 + 24 (3 + 2) III-IV (will be lectured for the first time during the academic year 2008-2009) Lecturer: Prof Sebastiaan van Dijken Contents: The course reviews current topics in nanophysics including low-dimensional semiconductor systems (quantum wells, superlattices, quantum wires/dots), the physics of fullerenes and nanotubes, spindependent transport in magnetic nanodevices, and techniques for the fabrication and characterization of nanostructures Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4343/etusivu Language: English Tfy-3.4361 Advanced Statistical Physics P (5 cr) Autumn Lecturer: Prof. Tapio Ala-Nissilä Contents: Review of thermodynamics and statistical physics. Percolation theory and thermodynamics of interfaces. Fundamentals of phase transitions. Critical phenomena in fluids. Landau theory. Fluctuations and the breakdown of Landau theory. Anomalous dimensions. Scaling theory. The renormalization group. Special topics. Objective: Systematic treatment of advanced techniques in statistical physics. Target group: Recommended for advanced undergraduate and graduate students. Literature: N. Goldenfeld: Lectures on Phase Transitions and the Renormalization Group. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4361/etusivu Language: English Tfy-3.4411 Experimental Methods in Physics P (5 cr) Autumna, will be lectured for the first time in autumn 2009 Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4411/etusivu Additional information: This course will replace the
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course Tfy-3.441 Experimental Methods in Physics. Language: English Tfy-3.4423 Computational Physics P (5 cr) Spring Lecturer: Ari Harju, Docent Contents: The course involves various ways to use computers to solve physical problems. The aim is to provide an overview of the field and discuss various simulation techniques of both classical and quantum systems, ranging from Monte Carlo calculation of integrals to electronic structure calculations of quantum systems. Actual implementations are presented using Fortran 90/95 pro¬gramming language (no need of previous knowledge of it). Substitutive: This course will replace the course Tfy3.475 Computer simulation methods in physics Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4423/etusivu Language: English Tfy-3.4510 Special Course in Physics P (3-10 cr) Lecturer: Prof Martti Puska Contents: The course is held by the staff or by visiting scientists. The topics of the course change every year. For example, during the academic year 2008 - 2009 the following course will be given: Introduction to structural materials: Multiscale modelling of metals and metal alloys (5 cr, Period I, Prof. Paola Folegati). For details, contact the teachers or see the course webpages. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4510/etusivu Language: English Tfy-3.4520 Special Course in Theoretical Physics P (310 cr) Contents: The course is held by the staff or by visiting scientists. The topics of the course change every year. For example, during the academic year 2008 - 2009 the following courses will be given: Advanced mathematical methods in physics I (6 cr, Periods I-II, Prof. Tapio AlaNissilä). Introduction to electronic structure simulaions (8 cr, Periods I-II, Dr. Adam Foster and Dr. Arkady Krasheninnikov). For details, contact the teachers or see the course webpages. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4520/etusivu Language: English
Tfy-3.4850 Research Seminar in Low Temperature Physics P (2 cr) I, II, III, IV Lecturer: Tero Heikkilä, Doc. and Dr. Vladimir Eltsov Contents: Includes the seminars - Nano seminar (Doc. Tero Heikkilä) - Nano Journal Club (Doc. Tero Heikkilä) - Seminar on Low Temperature Quantum Systems (Dr. Vladimir Eltsov) Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4850/etusivu Additional information: https://ltl.tkk.fi/wiki/Courses Language: English Tfy-3.4910 Individual Studies in Physics P (1-10 cr) Lecturer: Prof Tapio Ala-Nissilä, Prof Sebastiaan van Dijken, Prof Esko Kauppinen, Prof Risto Nieminen, Prof Martti Puska and Prof Päivi Törmä Contents: The course can include topics not covered by the regular curriculum. The contents and requirements for the individual studies have to be agreed upon by the teachers responsible. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4910/etusivu Language: English Tfy-3.5111 Physics, special assignment (10 cr) 0 + 200 I, II, III, IV Lecturer: Prof Sebastiaan van Dijken, Prof Esko Kauppinen and Jouko Lahtinen, Docent Contents: Special assignments are independent experiments, programming tasks, literature surveys on the topics of applied physics. There are special guidelines for performing the assignments. Target group: Intended for those studying under the new ECTS degree regulations for 2005. (The course Tfy3.394 is intended for those who study under the old degree regulations for 1995.) Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.5111/etusivu Language: English Tfy-56.4113 Advanced Energy Technologies, laboratory course (5 cr) Tfy-56.4211 Introduction to Nuclear Engineering (5 cr) Tfy-56.4221 Introduction to Nuclear Reactors (5 cr)
Tfy-3.4801 Low Temperature Physics P (5-6 cr) Autumn Contents: Includes the topics - Basics of Cryoengineering (Doc. Juha Tuoriniemi, next course to be lectured in fall 2009) - Theory of Superconductivity (Prof. Nikolai Kopnin, next course to be lectured in fall 2008) Nanoelectronics (Doc. Tero Heikkilä, next course to be lectured in fall 2009) Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.4801/etusivu Additional information: https://ltl.tkk.fi/wiki/Courses Language: English
Tfy-56.4232 Radiation Physics and Radiation Safety (5 cr) Tfy-56.4243 Nuclear Engineering, advanced course P (5 cr) Tfy-56.4311 New Energy Sources P (5 cr) Tfy-56.4323 Solar Energy Engineering P (5 cr) Tfy-56.4332 Fuel Cells and Hydrogen Technology P (5
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cr) Tfy-56.4344 Advanced Wind Power Technology P (5 cr)
Autumn (II) Spring (III-IV) Lecturer: Prof Rolf Stenberg Contents: Lectures given by visitors, reseachers of the laboratory and postgraduate students. Language: English
Tfy-56.4414 Fusion Energy Technology (5 cr) Tfy-56.4423 Plasma Physics P (5 cr) Tfy-56.5111 Advanced Energy Technologies, special assignment (10 cr) Autumn & Spring Lecturer: Prof Rainer Salomaa, Prof Peter Lund Contents: Special assignments are unique, independent laboratory measurements, design tasks, literature reviews etc. within the range of the chair Tfy-56. There are specific instructions on the procedure for doing special assignments. The role of the special assignments is explained more closely in the description of the Master’s degree. Additional information: Intended for those studying under the new ECTS degree regulations for 2005. (The course Tfy-56.198 is intended for those who study under the old degree regulations for 1995.) Language: Finnish, Swedish or English Language: Finnish or Swedish or English Tfy-56.5121 Special Course in Advanced Energy Technologies P (1-10 cr) Autumn & Sprinf (period) Lecturer: Prof Rainer Salomaa, Prof Peter Lund Contents: Special course whose topic changes yearly; given possibly by a guest lecturer. Additional information: Language: Finnish or English Language: Finnish Tfy-56.5131 Individual Studies (1-10 cr) Tfy-56.5141 Special Course in Advanced Energy Technologies P (1-10 cr) (period) I, II, III, IV Lecturer: Prof Rainer Salomaa, Prof Peter Lund Contents: Special course whose topic changes yearly; given possibly by a guest lecturer. Language: English Tfy-56.5151 Individual Studies P (1-10 cr) Autumn & Spring Lecturer: Prof Rainer Salomaa, Prof Peter Lund Contents: The contents and the scope of individual studies are to be settled in advance with the teacher in charge. Language: English Mat-5.002 Individual Research Projects in Mechanics (3-6 ocr) Mat-5.100 Individual Studies (2-10 ocr) Mat-5.196 Postgraduate and Research Seminar on Computational Dynamics L (3-5 ocr)
Tfy-0.002 Orientation Course for Studies in Engineering Physics (0.5 ocr) Autumn + Spring Lecturer: Researchers and teachers of the degree programme in engineering physics, study advisors and Anna-Kaarina Hakala, planning officer Contents: Degree progrmmess tutor guidance. Tutoring aims to motivate students and help them study correctly. Requirements: Four meetings with the tutor during the first four terms. Target group: Intended for those studying under the old degree regulations for 1995. Language: Finnish or Swedish or English Tfy-125.398 Physics, special assignment (5 ocr) Autumn & Spring Lecturer: Acad Prof Olli Ikkala, Prof Matti Kaivola and Prof Janne Ruokolainen Contents: The special assignments are independent laboratory assignments, planning jobs, literature reviews, etc. from the subject areas of Tfy-125. There are written instructions on how to fulfil these assignments. The role of the special assignments is explained more closely in the description of the Master’s degree. Language: Finnish or Swedish or English Tfy-3.393 Computation Physics, special assignment (5 ocr) 0 + 200 I, II, III, IV Lecturer: Prof Tapio Ala-Nissilä, Prof Risto Nieminen, Prof Martti Puska and Prof Päivi Törmä Contents: Special assignments are independent research or programming projects, literature reviews etc within the field of the chair of Physics,Tfy-3. There are special guidelines for performing the assignments. The role of the special assignments is explained more closely in the description of the Master’s degree. Requirements: Autumn (Period I & Period II) & spring (period III & Period IV) Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.393/etusivu Language: Finnish or Swedish or English Tfy-3.394 Physics, special assignment (5 ocr) 0 + 200 I, II, III, IV Lecturer: prof. Sebastiaan van Dijken, Prof Esko Kauppinen and Jouko Lahtinen, Docent Contents: Special assignments are independent experiments, programming tasks, literature surveys on the topics of applied physics. There are special guidelines for performing the assignments. Substitutive: Replaces course Tfy-3.392 Applied Physics, special assignment. Web page: https://noppa.tkk.fi/noppa/kurssi/tfy3.394/etusivu
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Language: Finnish or Swedish or English Tfy-44.198 Materials Physics, special assignment (5 ocr) Autmun & Spring Lecturer: Prof Matti Kaivola and Prof Martti Puska Contents: The special assignments are independent laboratory assignments, planning jobs, literature reviews, etc. from the subject areas of Tfy-44. There are written instructions on how to fulfil these assignments. The role of the special assignments is explained more closely in the description of the Master’s degree. Additional information: Language: Finnish or English Tfy-56.181 Postgraduate Seminar on Nuclear and Energy Engineering (P) (3 ocr) Tfy-56.185 Postgraduate Course on Nuclear Engineering (P) (3-6 ocr) Tfy-56.191 Individual Studies (P) (1-6 ocr)
Tfy-56.195 Special Course in Technical Physics (P) (36 ocr) Tfy-56.198 Nuclear and Energy Engineering, special assignment (5 ocr) Autumn & spring, organized for the last time during the academic year 2008-2009 Lecturer: Prof Rainer Salomaa, Prof Peter Lund Contents: Special assignments are unique, independent laboratory measurements, design tasks, literature reviews etc. within the range of the chair Tfy-56. There are specific instructions on the procedure for doing special assignments. The role of the special assignments is explained more closely in the description of the Master’s degree. Target group: Intended for those studying under the old degree regulations for 1995. (The course Tfy-56.5111 is intended for those who study under the new ECTS degree regulations for 2005.) Language: Finnish or Swedish or English
Department of Information and Computer Science INF.kand Bachelor’s Thesis and Seminar (10 cr) Inf-0.1202 Philosophy (5 cr) Inf-0.1220 Sociology (5 cr)
111.2210/T-111.2211, in addition each team should have members with proven knowledge of TU-91.1002, T121.2100 and TU-22.1120 Additional information: Team assignment and presentation in English Language: English and Finnish
Inf-0.1300 Aesthetics (5 cr) Inf-0.3101 Principles of Complex Networks (3-5 cr)
T-0.1002 Orientation Course in Computer Science and Engineering (1 cr)
Inf-0.4100 Information Networks: Studio X (5-8 cr) II-IV Lecturer: prof. Tapio Takala, prof. Eero Eloranta, prof. Riitta Smeds Contents: Studio X is an advanced studio course of the degree programme of Information Networks. The objective of the course is to create holistic innovative thinking and problem solving capabilities, competences and skills. Additionally, the course aims to advance entrepreneurship and business growth. Requirements: The course assignment is organized in teams. The aim is to cover the innovation process from creative idea generation and the identification of market potential to the development of product or service concept and its business model, including the business plan. Team assignment with the written documentation and oral presentation. The written report includes the description of the mock-up/prototype of the concept. The oral presentation is oriented to the “financiers” of the venture. The role of the “financiers” is played by course faculty members and real investors. Target group: Only the students of the Degree Programme of Information Networks Prerequisites: T-106.2001, AS-75.2300, TU-22.2600, T-
T-0.7050 Introduction to Postgraduate Studies in Computer Science P (2 cr) Spring Lecturer: professor Marko Nieminen and professor Marjo Kauppinen (pro tem) Contents: Basic research skills. The publishing process. Scientific presentations. Research areas in computer science. Objective: PProvide a basic understanding of the scientific process and of the research paradigms relevant to research. Provide guidelines and support for planning the Ph.D. work. Provide an understanding and experience of the publishing and peer-review process in the field. Requirements: attending weekly meetings, preparing a personal research plan, giving a practice talk, and writing a course report. Target group: The course is obligatory for all new postgraduate students (admitted since 1.10.2002) at Computer Science and Engineering. Web page: http://tieto.tkk.fi/Opinnot/T0.7050/index.html Additional information: It is strongly recommended that the course is taken during the first year of the
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postgraduate studies. Language: English
request. Language: Finnish
T-61.2010 From data to knowledge (4 cr) Autumn (Period II) Lecturer: Prof Heikki Mannila, Prof Erkki Oja Contents: Introduction to the methods that can be used to obtain information from large data sets. Digital signal, speech and image processing, fundamentals of estimation and pattern recognition, neural networks and web-search methods and the structure of sequences. Requirements: Examination and exercise work. Literature: Handouts. Prerequisites: Basic mathematics. Additional information: Can be taken in English upon request. Language: Finnish
T-61.3040 Statistical Signal Modeling (5 cr) Autumn Lecturer: Jaakko Peltonen, Dr.Sc (Tech) Contents: Modeling and filtering random processes, power spectrum, linear time-series models, and introduction to adaptive filtering. Requirements: Examination and exercise work. Literature: M. Hayes, 1996. Statistical Digital Signal Processing and Modeling. Wiley. Prerequisites: Basic mathematics and probability courses. Additional information: Replaces study period T-61.238 Statistical Signal Modeling. Can be taken in English upon request. Language: Finnish
T-61.2020 From Data to Knowledge Exercise Project (1 cr) Spring (Period III) Lecturer: Prof Heikki Mannila, Prof Erkki Oja Contents: Exercise project on the topics of course T61.2010 From Data to Knowledge. Requirements: Exercise work. Literature: Handout. Prerequisites: T-61.2010 Additional information: Can be taken in English upon request. Language: Finnish
T-61.3050 Machine Learning: Basic Principles (5 cr) Autumn Lecturer: Kai Puolamäki, lecturing researcher Contents: The topics include the background principles needed to understand and apply the models of machine learning. After the course, the student is able to apply the basic methods to data and understand new models based on these principles. Requirements: Examination and exercise work. Literature: Announced later. Prerequisites: Basic mathematics and probability courses. Additional information: Replaces course T-61.3030 Principles of Neural Computing. Language: English
T-61.3010 Digital Signal Processing and Filtering (6 cr) Spring Lecturer: Prof Olli Simula Contents: Principles of digital filtering: difference equations, transfer functions, and realization forms; digital filter design: FIR and IIR filters, finite word length effects, multirate systems. Requirements: Examination (or part exam) and exercise work. Literature: Mitra, 2005. Digital Signal Processing, 3rd edition. McGraw-Hill. Prerequisites: Basic course in signal processing, e.g. T61.2010, T-61.140 or S-72.1110/S-72.060. Additional information: Replaces study period T-61.246 Digital Signal Processing and Filtering. Lectures in Finnish, one group in English. Language: Finnish T-61.3020 Principles of Pattern Recognition (4 cr) Spring (Period III) Lecturer: Prof Erkki Oja Contents: The course provides basic knowledge about statistical and neural network methods for pattern recognition and their applications. Requirements: Examination and exercise work. Literature: S Theodoridis, K. Koutroumbas, 2003. Pattern Recognition, 2nd edition. Academic Press. Prerequisites: Basic mathematics and probability courses. Additional information: Can be taken in English upon
T-61.5010 Information visualization P (5 cr) Spring (Period III) Lecturer: Kai Puolamäki, lecturing researcher Contents: The course teaches how to visualize information effectively by using the statistical methods, combined with knowledge of the human perception and the basics of data graphics. Requirements: Examination and exercise work. Literature: Announced later; lecture notes. Prerequisites: Basic mathematics courses. Additional information: Replaces study period T-61.271 Information visualization. Language: English T-61.5020 Statistical Natural Language Processing P (5 cr) Spring Lecturer: Krista Lagus, D.Sc. (Tech.) Contents: The course gives an overview of the application of statistical and adaptive methods for analysis of natural language, for example, the organization and search from text collections, speech recognition, and statistical machine translation. Requirements: Examination and exercise work. Literature: C. Manning, H. Schütze, 1999. Foundations of Statistical Natural Language Processing. The MIT Press; Lecture notes. Prerequisites: Basic mathematics and probability courses.
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Additional information: Replaces study period T-61.281 Statistical Natural Language Processing. Language: English T-61.5050 High-Throughput Bioinformatics P (5-7 cr) Spring Lecturer: Jarkko Salojärvi, lecturing researcher Contents: The course introduces computational and statistical methods for analyzing modern high-throughput biological data, in particular microarray data, and their use in systems biology. Necessary biological background is reviewed briefly. Requirements: Examination and exercise work. Literature: Sorin Draghici, 2003. Data analysis tools for DNA microarrays, Chapman & Hall/CRC, USA. Other literature is announced during lectures. Prerequisites: The basic mathematics courses; and S114.2510 Computational Systems Biology or equivalent background. Additional information: The course has two variants, 5 or 7 cr. The longer contains exercise work. Language: English T-61.5060 Algorithmic methods of data mining P (5 cr) Autumn (Period II) Lecturer: Prof Heikki Mannila Contents: The course covers general topics in data mining, such as pattern discovery, clustering of data, and approximation of probability distributions. A special emphasis is put on algorithmic techniques to analyze discrete data. Requirements: Examination and exercise work. Literature: Announced later. Prerequisites: T-106.1220/T-106.250 and basic mathematics courses. Additional information: Replaces the study period T122.103 Algorithmic Methods of Data Mining. Language: English T-61.5070 Computer Vision P (5 cr) T-61.5080 Signal Processing in Neuroinformatics P (5 cr) I-II Lecturer: Ricardo Vigário, docent Contents: The goal of the seminar is to give an overview of some of the main biomedical signal processing techniques, with clear emphasis to EEG and MEG. There, we should see something about modeling, artifact identification and removal, nonparametric and modelbased spectral analysis, segmentation and joint timefrequency analysis. Some closer attention will be given as well to the analysis of event related data. Additional topics include independent component analysis, biorhythms and sleep and synchrony. The material for these extra topics in the form of several journal papers. Requirements: Course presentation; exercises and project work. Literature: Announced later. Prerequisites: Basic mathematics and signal processing
courses. Basic neurophysiology knowledge helps. Language: English T-61.5090 Image Analysis in Neuroinformatics P (5 cr) III-IV Lecturer: Ricardo Vigário, docent Contents: The goal of the course is to give an overview of some of the main biomedical image processing techniques, with clear emphasis to neuronal data. Topics range from artifact removal and image enhancement to pattern classification and diagnostic decision. Requirements: Course presentation; exercises and project work. Literature: Announced later. Prerequisites: Basic mathematics and image analysis courses. Basic neurophysiology knowledge helps. Language: English T-61.5100 Digital Image Processing P (5 cr) Autumn Lecturer: Jorma Laaksonen, lecturing researcher Contents: Basics of digital image processing, image transformations, image enhancement, restoration, encoding, segmentation, and analysis. Requirements: Examination and exercise work. Literature: R. Gonzalez, R. Woods, 2008. Digital Image Processing, Third edition. Prentice Hall; Lecture notes. Prerequisites: Basic mathematics, T-61.3010/T-61.246. Additional information: Replaces study period T-61.247 Digital Image Processing. Language English, some arrangements in Finnish. Language: Finnish T-61.5110 Modeling biological networks P (5-7 cr) Autumn Lecturer: Prof Samuel Kaski Contents: Models of biological cellular-level networks: gene regulation, signaling, metabolism. Methods for inference of networks from data, and prediction using the models. Mainly probabilistic and machine learning models. Requirements: Intensive course or to be agreed individually with the lecturer.. Literature: Lecture notes and a collection of articles. Prerequisites: Basic mathematics courses: basic bioinformatics courses help.. Language: English T-61.5120 Computational genomics P (4-7 cr) Autumn Lecturer: Sampsa Hautaniemi, Docent Contents: Algorithms and models for biological sequences and genomics. Requirements: Examination and exercises. Literature: Mount, 2004. Bioinformatics: Sequence and genome analysis, 2nd edition. Cold Spring Harbor Laboratory Press. Prerequisites: Basic mathematics courses, T-106.1220/T106.250. Language: English
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T-61.5130 Machine Learning and Neural Networks P (5 cr) Autumn (Period II) Lecturer: Prof Juha Karhunen Contents: Introduction to neural networks, multilayer perceptron networks, principal component analysis and its extensions, model assessment and selection, radialbasis function networks, support vector machines, independent component analysis, self-organizing maps and learning vector quantization, treatment of temporal information in neural networks, applications. Requirements: Examination and exercise work. Literature: F. Ham, I. Kostanic, 2001. Principles of Neurocomputing for Science & Engineering. McGrawHill. Lecture notes. Prerequisites: Basic mathematics and probability courses. T-61.3050 Machine Learning: Basic Principles is recommended but not a necessary prerequisite. Additional information: Replaces course T-61.5030 Advanced Course in Neural Computing. Language: English T-61.5140 Machine Learning: Advanced Probabilistic Methods P (5 cr) Spring Lecturer: Jaakko Hollmén, lecturing researcher Contents: The course covers probabilistic concepts in machine learning: independece, conditional independence, mixture models, EM algorithm, Bayesian networks, computational algorithms for exact and approximate inference, sampling, prior distributions. The course emphasizes understanding fundamental principles and their use in practical machine learning problems. Requirements: Examination and exercise work. Literature: Announced later. Prerequisites: T-61.3050 Additional information: Replaces course T-61.5050 Learning Models and Methods. Language: English T-61.5150 Speech Recognition P (5 cr) Autumn (Period II) Lecturer: Mikko Kurimo, lecturing researcher Contents: Preprocessing and feature extraction for speech, phoneme models, decoding, lexicon and language models, recognition and retrieval of continuous speech. Objective: To become familiar with speech recognition methods and applications. Additionally, to learn to understand the structure of a typical speech recognition system and to know how to construct one in practice. Requirements: Exercises and project work. Literature: Announced later. Prerequisites: Basic mathematics and probability courses. Language: English. T-61.5900 Computer and Information Science, Special Assignment (5-10 cr) Autumn (Period I) & Autumn (Period II) & Spring (Period III) & Spring (Period IV)
Contents: The purpose of this course is to prepare the student for individual work. The special assignment can be a laboratory work, design project, or literary survey from any of the fields of Computer and Information Science. Requirements: Approval of the work by the supervisor. Instructions will be provided by the supervisor. Prerequisites: Prerequisites include laboratorys other courses.The course is suitable for the fourth years tudents. Additional information: With at least 7 cr replaces study period T-61.195 Computer and Information Science, Special Assignment I OR T-61.196 Computer and Information Science, Special Assignment II. The contents of the course vary. Language: English T-61.5910 Research Project in Computer and Information Science P (5-10 cr) Autumn Contents: A project work, usually done in a group, from the field of computer and information science. Language: English T-61.6010 Special Course in Computer and Information Science I P (3-7 cr) Autumn Lecturer: Prof Erkki Oja, Prof Olli Simula, Prof Juha Karhunen, Prof Heikki Mannila, Prof Samuel Kaski Contents: Postgraduate level knowledge from one of the fields of computer and information science. The actual contents of the course vary from year to year. The course can be lectured, or arranged in seminar form. Requirements: Announced later. Literature: Usually some new study book or collection of articles. Additional information: Replaces study period T-61.181 Special Course in Computer and Information Science I. The contents of the course vary. Language: English T-61.6020 Special Course in Computer and Information Science II P (3-7 cr) Spring Lecturer: Prof Erkki Oja, Prof Olli Simula, Prof Juha Karhunen, Prof Heikki Mannila, Prof Samuel Kaski Contents: Postgraduate level knowledge from one of the fields of computer and information science. The actual contents of the course vary from year to year. The course can be lectured, or arranged in seminar form. Requirements: Announced later. Literature: Usually some new study book or collection of articles. Additional information: Replaces study period T-61.182 Special Course in Computer and Information Science II. The contents of the course vary. Language: English T-61.6030 Special Course in Computer and Information Science III P (3-7 cr) Spring
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Lecturer: Prof Erkki Oja, Prof Olli Simula, Prof Juha Karhunen, Prof Heikki Mannila, Prof Samuel Kaski Contents: Postgraduate level knowledge from one of the fields of computer and information science. The actual contents of the course vary from year to year. The course can be lectured, or arranged in seminar form. Requirements: Announced later. Literature: Usually some new study book or collection of articles. Additional information: Replaces study period T-61.183 Special Course in Computer and Information Science III. The contents of the course vary. Language: English T-61.6040 Special Course in Computer and Information Science IV P (3-7 cr) Autumn Lecturer: Prof Erkki Oja, Prof Olli Simula, Prof Juha Karhunen, Prof Heikki Mannila, Prof Samuel Kaski Contents: Postgraduate level knowledge from one of the fields of computer and information science. The actual contents of the course vary from year to year. The course can be lectured, or arranged in seminar form. Requirements: Announced later. Literature: Usually some new study book or collection of articles. Additional information: Replaces study period T-61.184 Special Course in Computer and Information Science IV. The contents of the course vary. Language: English T-61.6050 Special Course in Computer and Information Science V P (3-7 cr) Autumn Lecturer: Prof Heikki Mannila Contents: Postgraduate level knowledge from one of the fields of computer and information science, especially computational methods within data analysis. The actual contents of the course vary from year to year. The course can be lectured, or arranged in seminar form. Requirements: Announced later. Literature: Usually some new study book or collection of articles. Additional information: Replaces study period T-122.101 Special Course in Computer and Information Science V. The contents of the course vary. Language: English T-61.6060 Special Course in Computer and Information Science VI P (3-7 cr) Spring Lecturer: Prof Heikki Mannila Contents: Postgraduate level knowledge from one of the fields of computer and information science, especially computational methods within data analysis. The actual contents of the course vary from year to year. The course can be lectured, or arranged in seminar form. Requirements: Announced later. Literature: Usually some new study book or collection of articles. Additional information: Replaces study period T-122.102
Special Course in Computer and Information Science VI. The contents of the course vary. Language: English T-61.6070 Special Course in Bioinformatics I P (3-7 cr) Spring Lecturer: Prof Samuel Kaski, Prof Heikki Mannila Contents: The purpose of this course is to give postgraduate level knowledge on bioinformatics or a related field. The actual contents of the course vary from year to year. The course can be lectured, or arranged in seminar form. Requirements: Announced later. Literature: Usually some new study book or collection of articles. Additional information: Replaces study period T-61.188 Special Course in Bioinformatics I. The contents of the course vary. Language: English T-61.6080 Special Course in Bioinformatics II P (3-7 cr) Autumn Lecturer: Prof Samuel Kaski, Prof Heikki Mannila Contents: The purpose of this course is to give postgraduate level knowledge on bioinformatics or a related field. The actual contents of the course vary from year to year. The course can be lectured, or arranged in seminar form. Requirements: Announced later. Literature: Usually some new study book or collection of articles. Additional information: The contents of the course vary. Language: English T-61.6090 Special Course in Language Technology P (3-7 cr) Autumn Contents: The purpose of this course is to give postgraduate level teaching in some subfield of language technology. The precise topics of the course vary yearly. The course can be lectured or arranged in seminar form. Requirements: The requirements are determined yearly. Literature: Usually some new study book or a collection of articles. Additional information: Replaces study period T-61.186 Special Course in Language Technology. The contents of the course vary. Language: English T-61.6900 Individual Studies P (1-10 cr) Autumn (Period I) & Autumn (Period II) & Spring (Period III) & Spring (Period IV) Lecturer: Prof Erkki Oja, Prof Olli Simula, Prof Juha Karhunen, Prof Heikki Mannila, Prof Samuel Kaski Contents: The contents and extent of the course are to be agreed with the Professors before commencing the course. The contents may for instance include a postgraduate level exam on a tex book in the field. Requirements: According to agreement.
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Additional information: Replaces study period T-61.190 Individual Course. The contents of the course vary. Language: English T-79.1001 Introduction to theoretical computer science T (4 cr) 24 + 24 (2 + 2) I-II Lecturer: Harri Haanpää, Teaching Research Scientist Contents: Finite automata and regular languages. Context-free grammars and pushdown automata. Context-sensitive and unrestricted grammars. Turing machines and computability. Requirements: Exam and compulsory home assignments. Literature: Lecture notes; M. Sipser: Introduction to the Theory of Computation. Prerequisites: First term’s mathematics courses. Basic familiarity with computer programming an asset. Substitutive: Replaces former course T-79.148 Introduction to theoretical computer science. Web page: http://www.tcs.hut.fi/Studies/T-79.1001/ Additional information: There is also sufficient material in English. Language: Finnish T-79.1002 Introduction to theoretical computer science Y (2 cr) 12 + 12 (2 + 2) I Lecturer: Harri Haanpää, Teaching Research Scientist Contents: Finite automata and regular languages. Context-free grammars. Requirements: Exam and compulsory home assignments. Literature: Lecture notes; M. Sipser: Introduction to the Theory of Computation. Prerequisites: First term’s mathematics courses. Basic familiarity with computer programming an asset. Web page: http://www.tcs.hut.fi/Studies/T-79.1002/ Additional information: There is also sufficient material in English. Language: Finnish T-79.3001 Logic in computer science: foundations (4 cr) 24 + 24 (2 + 2) III-IV Lecturer: Tomi Janhunen, Docent Contents: Propositional and predicate logic, their syntax, semantics, and proof theory. Applications of logic in computer science. Requirements: Exam and compulsory home assignments. Literature: Lecture notes. Prerequisites: T-79.1001/1002. Substitutive: Replaces former course T-79.144 Logic in computer science: foundations. Web page: http://www.tcs.hut.fi/Studies/T-79.3001/ Additional information: There is also sufficient material in English. Language: Finnish T-79.4001 Seminar on theoretical computer science (3 cr) 24 + 0 (2 + 0) III-IV Lecturer: Prof Ilkka Niemelä
Contents: Current research topics in theoretical computer science. The topic in Spring 2009 will be computational logic. Requirements: Seminar. Substitutive: Replaces former courses T-79.192 Special course in theoretical computer science and T-79.194 Seminar on theoretical computer science. Web page: http://www.tcs.hut.fi/Studies/T-79.4001/ Additional information: The contents of the course vary. Language: English. T-79.4002 Introduction to Advanced Computing Research (2 cr) 24 + 0 (2 + 0) I-II Lecturer: Keijo Heljanko, Docent Contents: Introduction to research topics and practices in advanced computing. Requirements: Seminar and home assignments. Target group: Students of the Master’s Programme in Foundations of Advanced Computing. Web page: http://www.tcs.hut.fi/Studies/T-79.4002/ Language: English. T-79.4201 Search problems and algorithms (4 cr) 24 + 12 (2 + 1) I-II Lecturer: Prof Ilkka Niemelä, Prof Pekka Orponen Contents: Search spaces and search methods. Backtracking, local and heuristic search. Representing and solving search problems using propositional satisfiability, constraint programming and integer programming techniques. Requirements: Exam and programming assignments. Literature: Lecture notes. Prerequisites: T-79.1001, T-79.3001, T-106.1220; also T106.3101 recommended. Web page: http://www.tcs.hut.fi/Studies/T-79.4201/ Language: English. T-79.4301 Parallel and distributed systems (4 cr) 24 + 12 (2 + 1) I-II Lecturer: Keijo Heljanko, Docent Contents: Modelling of systems. Computer-aided verification of properties. Requirements: Exam and project assignments. Prerequisites: T-79.1001/1002, T-79.3001, and the compulsory mathematics studies of the study programme. Substitutive: Replaces former courses T-79.179 Parallel and distributed digital systems and T-79.231 Parallel and distributed digital systems. Web page: http://www.tcs.hut.fi/Studies/T-79.4301/ Language: English. T-79.4501 Cryptography and data security (4 cr) 24 + 12 (4 + 2) I Lecturer: Prof Kaisa Nyberg Contents: Data and communications security. Principles of cryptographic security. Symmetric cryptosystems. Stream ciphers. Block ciphers: DES, IDEA, AES. Modes of operation. Asymmetric cryptosystems. Digital signatures. Authentication and key agreement.
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Applications of cryptography: SSL, TLS, IPSec, GSM, Bluetooth. Requirements: Exam. Literature: W. Stallings: Cryptography and Network Security: Principles and Practices, 3rd or 4th edition, Prentice Hall. Prerequisites: Basic knowledge in discrete mathematics and some computer or communication network recommended. Substitutive: Replaces former course T-79.159 Cryptography and data security. Web page: http://www.tcs.hut.fi/Studies/T-79.4501/ Language: English. T-79.5001 Student project in theoretical computer science (5 cr) 0 + 0 (0 + 0) I, II, III, IV Lecturer: T-79 professors and teaching research scientists Contents: Independent student project on a subject from the field of theoretical computer science. Requirements: The project is done in groups of up to three people. Prerequisites: Level 2 module in theoretical computer science. Substitutive: Replaces former course T-79.189 Student project in theoretical computer science. Web page: http://www.tcs.hut.fi/Studies/T-79.5001/ Language: English. T-79.5101 Advanced course in computational logic P (4 cr) 24 + 12 (2 + 1) III-IV Lecturer: Prof Ilkka Niemelä Contents: Basics of modal logic. Current applications in computer science and engineering. Requirements: Exam and home assignments. Literature: Lecture notes and articles. Prerequisites: T-79.3001. Substitutive: Replaces former course T-79.146 Logic in computer science: special topics I. Web page: http://www.tcs.hut.fi/Studies/T-79.5101/ Language: English. T-79.5102 Special course in computational logic P (4 cr) 24 + 12 (2 + 1) I-II Lecturer: Tomi Janhunen, Docent Contents: Knowledge representation, reasoning, and decision-making. Automated reasoning. Requirements: Exam, project work, and/or seminar talk. Prerequisites: T-79.3001. Substitutive: Replaces former courses T-79.154 Logic in computer science: special topics II and T-79.230 Foundations of agent-based computing. Web page: http://www.tcs.hut.fi/Studies/T-79.5102/ Additional information: The contents of the course vary. Language: English. T-79.5103 Computational complexity theory P (5 cr) 36 + 24 (3 + 2) I-II Lecturer: Prof Ilkka Niemelä
Contents: NP-completeness. Randomized algorithms. Cryptography. Approximation algorithms. Parallel algorithms. Polynomial hierarchy. PSPACEcompleteness. Requirements: Home assignments and part exams. Literature: C. Papadimitriou: Computational Complexity, Addison-Wesley, 1994. Prerequisites: T-79.1001. Substitutive: Replaces former course T-79.240 Special course in computational complexity. Web page: http://www.tcs.hut.fi/Studies/T-79.5103/ Language: English. T-79.5201 Discrete structures P (4 cr) 24 + 12 (2 + 1) I-II Lecturer: Prof Pekka Orponen Contents: Annually varying topics concerned with the basic structures and methods of computer science theory. The course in Autumn 2008 will be concerned with enumerative combinatorics, i.e. the counting of combinatorial objects by means of their complex-valued generating functions. Requirements: Tutorials and examination. Literature: Lecture notes. Prerequisites: First two years’ mathematics courses including introductory discrete mathematics (Mat1.2991) and complex analysis (Mat-1.1131). Familiarity with algorithm design (T-106.4100) an asset. Substitutive: Replaces former course T-79.149 Discrete Structures. Web page: http://www.tcs.hut.fi/Studies/T-79.5201/ Additional information: The contents of the course vary. Language: English. T-79.5202 Combinatorial algorithms P (4 cr) 24 + 12 (2 + 1) III-IV Lecturer: Harri Haanpää, Teaching Research Scientist Contents: Basic algorithms and computational methods for combinatorial problems. Combinatorial structure generation (e.g. permutations). Search methods. Graph algorithms and combinatorial optimization. Symmetries of combinatorial structures. Requirements: Exam and obligatory home assignments. Literature: D. L. Kreher and D. R. Stinson: Combinatorial Algorithms; Generation, Enumeration and Search, CRC Press, 1998. Prerequisites: Basic knowledge in discrete mathematics and programming. Substitutive: Replaces former course T-79.161 Combinatorial algorithms. Web page: http://www.tcs.hut.fi/Studies/T-79.5202/ Language: English. T-79.5203 Graph theory P (5 cr) 36 + 20 (6 + 4) IV Lecturer: Petteri Kaski, Specialist Teacher, Prof Patric Östergård Contents: Introduction to graph theory. Trees, planar graphs and digraphs. Graph coloring. Random graphs. Algorithms for central graph problems. Applications. Requirements: Exam and special project/home
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assignments. Literature: D. B. West: Introduction to Graph Theory, second ed., Prentice Hall, 2001; D. Jungnickel: Graphs, Networks and Algorithms, second ed., Springer, 2005. Prerequisites: Compulsory mathematics studies of the study programme and basic knowledge in programming. Substitutive: Replaces former course T-79.165 Graph theory. Web page: http://www.tcs.hut.fi/Studies/T-79.5203/ Additional information: The course also occurs with the code S-72.2420. Language: English.
analysis of parallel and distributed systems. Binary decision diagrams. Bounded model checking. Requirements: Seminar presentations and project assignments. Prerequisites: T-79.1001/1002, T-79.3001, T-79.4301, and the compulsory mathematics studies of the study programme. Substitutive: Replaces former courses T-79.185 Verification and T-79.193 Formal description techniques for concurrent systems. Web page: http://www.tcs.hut.fi/Studies/T-79.5302/ Language: English.
T-79.5204 Combinatorial models and stochastic algorithms P (6 cr) 48 + 24 (4 + 2) III-IV (Lectured every other year, lectured 2008-2009) Lecturer: Prof Pekka Orponen Contents: Combinatorial system models: random graphs, spin glasses, NK-systems. Fitness landscapes of combinatorial optimisation problems. Markov chains and MCMC sampling. Stochastic algorithms: MCMC-based approximation algorithms, simulated annealing, evolutionary algorithms. Special topics: structure of fitness landscapes, combinatorial phase transitions. Requirements: Tutorials, programming assignment and exam. Literature: Lecture notes. Prerequisites: First two years’ mathematics courses including introductory probability theory (e.g. Mat1.2600), and programming skills (e.g. T-106.1200). Familiarity with stochastic processes (Mat-2.3111), discrete mathematics (Mat-1.2991), algorithm design (T106.4100) and computational complexity theory (T79.5103) an asset. Substitutive: Replaces former course T-79.250 Combinatorial models and stochastic algorithms. Web page: http://www.tcs.hut.fi/Studies/T-79.5204/ Language: English.
T-79.5304 Formal conformance testing P (4 cr) 24 + 12 (2 + 1) I-II (Lectured every other year, lectured 2008-2009) Lecturer: Antti Huima, Specialist Teacher Contents: Introduction to conformance testing. Formal conformance testing and its automatization. On testing timed and infinite-state systems. Estimation of testing coverage. Requirements: Exam. Literature: Lecture notes. Prerequisites: T-79.5301. Substitutive: Replaces former course T-79.190 Testing of concurrent systems. Web page: http://www.tcs.hut.fi/Studies/T-79.5304/ Language: English.
T-79.5301 Reactive systems P (4 cr) 24 + 12 (2 + 1) III-IV Lecturer: Keijo Heljanko, Docent Contents: Specification and verification of reactive systems with temporal logic. Basics of computer-aided verification methods and algorithms. Requirements: Seminar talks, home exercises, and a project. Prerequisites: T-79.3001, T-79.4301, and the compulsory mathematics studies of the study programme. Substitutive: Replaces former courses T-79.186 Reactive systems and T-79.193 Formal description techniques for concurrent systems. Web page: http://www.tcs.hut.fi/Studies/T-79.5301/ Language: English. T-79.5302 Symbolic model checking P (4 cr) 36 + 0 (3 + 0) I-II (Lectured every other year, not lectured 2008-2009) Lecturer: Tommi Junttila, Specialist Teacher Contents: Symbolic methods for efficient qualitative
T-79.5305 Formal Methods P (4 cr) 24 + 12 (2 + 1) I-II (Lectured every other year, lectured 2008-2009) Lecturer: Tommi Junttila, Specialist Teacher Contents: Annually varying topics on formal methods. Requirements: Seminar. Prerequisites: T-79.3001, T-79.4301, and the compulsory mathematics studies of the study programme. Substitutive: Replaces former course T-79.157 Formal description and verification of computing systems. Web page: http://www.tcs.hut.fi/Studies/T-79.5305/ Additional information: The contents of the course vary. Language: English. T-79.5501 Cryptology P (5 cr) 24 + 24 (2 + 2) III-IV Lecturer: Prof Kaisa Nyberg Contents: Mathematical properties of modern cryptographic methods. Information theory of encryption. Basic building blocks for stream ciphers and block ciphers and their analysis. Hash-functions. Information theory of authentication. Message authentication. Public key cryptosystems. Requirements: Exam. Literature: D. R. Stinson: Cryptography: Theory and Practice, third ed., CRC Press, 2005; and additional material (available on the course homepage). Prerequisites: Recommended courses are either T79.4501 Cryptography and data security, or T-110.5210 Cryptosystems, and courses Mat-1.2991 Discrete mathematics and Mat-1.3081 Algebra I. Substitutive: Replaces former course T-79.503
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Foundations of cryptology. Web page: http://www.tcs.hut.fi/Studies/T-79.5501/ Language: English. T-79.5502 Advanced course in cryptology P (5 cr) 24 + 0 (4 + 0) II (Lectured every other year, not lectured 2008-2009) Lecturer: Prof Kaisa Nyberg Contents: Cryptographic security models and provable security. Requirements: Exam and seminar. Literature: W. Mao: Modern Cryptography: Theory and Practice, Prentice-Hall, 2004. Prerequisites: T-79.5501 required. Substitutive: Replaces former courses T-79.513 Seminar on cryptography and security protocols, T-79.514 Special course on cryptology, and T-79.515 Cryptology: special topics. Web page: http://www.tcs.hut.fi/Studies/T-79.5502/ Language: English. T-79.7001 Postgraduate course in theoretical computer science P (2-10 cr) 36 + 12 (3 + 1) I-II, III-IV Lecturer: Prof Kaisa Nyberg, Keijo Heljanko, Docent Contents: Current research problems in theoretical computer science. Requirements: Seminar and home assignments. Prerequisites: Level 3 module in theoretical computer science. Substitutive: Replaces former course T-79.300 Postgraduate course in theoretical computer science. Web page: http://www.tcs.hut.fi/Studies/T-79.7001/ Additional information: The contents of the course vary
from term to term. Prof Nyberg is responsible for the course in Autumn 2008 and docent Heljanko is in charge in Spring 2009. The topics of the Autumn and Spring terms will be Boolean functions and cryptography, and distributed systems, respectively. Language: English. T-79.7002 Individual studies P (1-10 cr) 0 + 0 (0 + 0) I, II, III, IV Lecturer: T-79 professors Contents: The contents and extent of the course are to be agreed with a professor before commencing the course. Substitutive: Replaces former course T-79.295 Individual studies. Web page: http://www.tcs.hut.fi/Studies/T-79.7002/ Additional information: The contents of the course vary. Language: English. T-79.7003 Research course in theoretical computer science P (1-10 cr) 0 + 0 (0 + 0) I, II, III, IV Lecturer: T-79 professors Contents: Courses given by visiting lecturers on current research topics in theoretical computer science. Web page: http://www.tcs.hut.fi/Studies/T-79.7003/ Additional information: The contents of the course vary. Language: English. TIK.kand Bachelor’s Thesis and Seminar (10 cr) T-61.152 Seminar on Computer and Information Science (2 ocr)
Department of Computer Science and Engineering INF.kand Bachelor’s Thesis and Seminar (10 cr) Inf-0.1202 Philosophy (5 cr) Inf-0.1220 Sociology (5 cr) Inf-0.1300 Aesthetics (5 cr) Inf-0.3101 Principles of Complex Networks (3-5 cr) Inf-0.4100 Information Networks: Studio X (5-8 cr) II-IV Lecturer: prof. Tapio Takala, prof. Eero Eloranta, prof. Riitta Smeds Contents: Studio X is an advanced studio course of the degree programme of Information Networks. The objective of the course is to create holistic innovative thinking and problem solving capabilities, competences and skills. Additionally, the course aims to advance entrepreneurship and business growth. Requirements: The course assignment is organized in teams. The aim is to cover the innovation process from
creative idea generation and the identification of market potential to the development of product or service concept and its business model, including the business plan. Team assignment with the written documentation and oral presentation. The written report includes the description of the mock-up/prototype of the concept. The oral presentation is oriented to the “financiers” of the venture. The role of the “financiers” is played by course faculty members and real investors. Target group: Only the students of the Degree Programme of Information Networks Prerequisites: T-106.2001, AS-75.2300, TU-22.2600, T111.2210/T-111.2211, in addition each team should have members with proven knowledge of TU-91.1002, T121.2100 and TU-22.1120 Additional information: Team assignment and presentation in English Language: English and Finnish T-0.1002 Orientation Course in Computer Science and Engineering (1 cr)
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T-0.7050 Introduction to Postgraduate Studies in Computer Science P (2 cr) Spring Lecturer: professor Marko Nieminen and professor Marjo Kauppinen (pro tem) Contents: Basic research skills. The publishing process. Scientific presentations. Research areas in computer science. Objective: PProvide a basic understanding of the scientific process and of the research paradigms relevant to research. Provide guidelines and support for planning the Ph.D. work. Provide an understanding and experience of the publishing and peer-review process in the field. Requirements: attending weekly meetings, preparing a personal research plan, giving a practice talk, and writing a course report. Target group: The course is obligatory for all new postgraduate students (admitted since 1.10.2002) at Computer Science and Engineering. Web page: http://tieto.tkk.fi/Opinnot/T0.7050/index.html Additional information: It is strongly recommended that the course is taken during the first year of the postgraduate studies. Language: English T-106.1003 IT Services at TKK (2 cr) Autumn (Period I) 8 + 8 Lecturer: Aura Paloheimo Contents: Basic computer terminology. Use of common applications in Unix, WWW and MS Windows environments. Objective: To familiarize the student with the use of information systems at Helsinki University of Technology. Requirements: Lectures, obligatory exercises and an examination. Evaluation: The course is graded as passed. Literature: Lecture notes, manuals. Prerequisites: None. Substitutive: Replaces the course T-106.003. Additional information: Course assistant is Wilhelm von Konow. Language: English T-106.1041 Information Technology - Basic Course (3 cr) 24 + 0 (2 + 0) Autumn I-II Lecturer: Aura Paloheimo Contents: Computer science basics. Objective: To familiarize the student with essential fields of computer science. Requirements: Lectures, home works and examination. Literature: To be announced on course’s Noppa page: https://noppa.tkk.fi/noppa/kurssi/t-106.1041 Prerequisites: None. Substitutive: Replaces the course T-106.041. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Equivalent course in English T-106.1043.
Language: Finnish. T-106.1043 Information Technology - Basic Course (3 cr) 0 + 0 (0 + 0) I-II (Autumn) Lecturer: Aura Paloheimo Contents: Computer science basics. Objective: To familiarize the student with essential fields of computer science. Requirements: Lectures, home works and examination. Literature: To be announced on course’s Noppa page: https://noppa.tkk.fi/noppa/kurssi/t-106.1043 . Prerequisites: None Substitutive: Replaces the course T-106.043. Additional information: Equivalent course in Finnish is T-106.1041. During academic year 2008-2009 no teaching activities are arranged. However, a student may conduct this course via a book examination. On this course the grade ‘pass’ can be given for accepted study attainments. Language: English T-106.1061 Information Technology - Laboratory Course (3 cr) 18 + 18 (2 + 2) III-IV (Spring) Lecturer: Aura Paloheimo Contents: Training of MS Office tools, HTML, CSS and elementary programming with Visual Basic for Applications. Objective: To familiarize the student with MS Office tools, HTML, CSS and elementary programming with Visual Basic for Applications. Requirements: Lectures, exercises and final project. Literature: To be announced on course’s Noppa-page: https://noppa.tkk.fi/noppa/kurssi/t-106.1061 . Prerequisites: None. Substitutive: Replaces the course T-106.061. Additional information: Equivalent course in English T106.1063. Note that the number of participants for the course can be limited. On this course the grade ‘pass’ can be given for accepted study attainments. Language: Finnish T-106.1063 Information Technology - Laboratory Course (3 cr) 0 + 18 (0 + 2) III-IV Lecturer: Aura Paloheimo Contents: Training of MS Office tools, HTML, CSS and elementary programming with Visual Basic for Applications. Objective: To familiarize the student with MS Office tools, HTML, CSS and elementary programming with Visual Basic for Applications. Requirements: Exercises and final project. Literature: To be announced on course’s Noppa-page: https://noppa.tkk.fi/noppa/kurssi/t-106.1063 . Prerequisites: None Substitutive: Replaces the course T-106.063. Additional information: Note that the number of participants for the course can be limited. On this course the grade pass’ can be given for accepted study
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attainments. Language: English T-106.1111 Introduction to Studies and Information Systems at TKK (2 cr) T-106.1200 Basics of Programming T (Java) (5 cr) T-106.1203 Basics of Programming L (Java) (5 cr) T-106.1207 Basics of Programming (Java) (5 cr) T-106.1208 Basics of Programming Y (Python) (5 cr) T-106.1220 Data Structures and Algorithms T (5 cr) 38 + 24 (3 + 2) III-IV (Spring) Lecturer: Ari Korhonen, lecturing researcher Contents: Linear data structures, trees, graphs. Searching and sorting methods. Principles of algorithm analysis. Objective: To know the most important data structures and algorithms manipulating them. Understanding of how and when to apply an algorithm to solve a given problem. Requirements: Examination, personal home exercises and project work. Target group: The course is intended only for students of the Degree Programme of Computer Science and Engineering. Literature: To be announced later. Prerequisites: T-106.1200 or T-93.211. Substitutive: Replaces the course T-106.250. Web page: https://noppa.tkk.fi/noppa/kurssi/t-106.1220/ Additional information: Lectures in Finnish only. Exercises and examination available in English, too. Language: Finnish T-106.1223 Data Structures and Algorithms Y (5 cr) 40 + 0 (3 + 0) III-IV (Spring) Lecturer: Ari Korhonen, lecturing researcher Contents: Linear data structures, trees, graphs. Searching and sorting methods. Principles of algorithm analysis. Objective: To know the most important data structures and algorithms manipulating them. Understanding of how and when to apply an algorithm to solve a given problem. Requirements: Examination, personal home exercises and projectwork. Target group: This course is intended for students other than those of the Degree Programme in Computer Science and Engineering. Literature: To be announced later. Prerequisites: T-106.1203/1206/1207/1208 or T106.213/216/217. Substitutive: Replaces the course T-106.253. Web page: https://noppa.tkk.fi/noppa/kurssi/t-106.1223/ Additional information: Lectures in Finnish only. Exercises and examination available in English, too. Language: Finnish T-106.1225 Project Work of Data Structures and Algorithms (1-5 cr)
T-106.1240 Intermediate Course in Programming T1 (Java) (6 cr) 20 + 20 (2 + 2) I-II (Autumn, only in 2008), III-IV (Spring) Lecturer: Otto Seppälä Contents: Object-oriented programming in Java, introduction to program design, basic data structures and algorithms. Good programming style. Programming methodology. The course is intended only for students of Degree Programme of Computer Science and Engineering. Requirements: Home exercises and project work. Literature: To be announced later. Prerequisites: T-106.1220/1223/T-106.250/253 and T93.211 / T-106.1200 or equivalent. Substitutive: Replaces the course T-106.235. Additional information: Lectures only in Finnish, all relevant course material and all exercises available also in English. The course is lectured twice during the study year 2008-2009. Students enrolled in the bachelor program in 2007 are advised to take the autumn version as suggested in the model schedule. The spring course is designed to be taken simultaneously with T-106.1220 and does not require it as a prerequisite. Language: Finnish T-106.1243 Intermediate Course in Programming L1 (Java) (6 cr) 20 + 20 (2 + 2) I-II (Autumn, only in 2008), III-IV (Spring) Lecturer: Otto Seppälä Contents: Object-oriented programming in Java, introduction to program design, basic data structures and algorithms. Good programming style. Programming methodology. Requirements: Home exercises and project work. Literature: To be announced later. Prerequisites: T-106.1220/1223/T-106.250/253 and T106.1203/1206 or equivalent. Substitutive: Combined with T-106.1203/1206 the two courses replace the course T-106.213/216. Additional information: Lectures only in Finnish, all relevant course material and all exercises available also in English. This course is lectured twice during the study year 2008-2009. The spring course is intended to be taken with the course T-106.1223 (and correspondingly does not require it as a prerequisite). Language: Finnish T-106.1250 Programming Course for Information Networks (10 cr) T-106.2001 Information Networks: Studio 1 (4 cr) T-106.3101 Intermediate Course in Programming T2 (6 cr) 20 + 10 (4 + 2) III-IV (Spring) Lecturer: N.N. Contents: Programming language C, low level programming, execution model of the program.
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Implementation of data structures and algorithms. Version management, programming as team work. Objective: To learn to use C programming language in practice and to work in a programming team. Requirements: Home exercises and project work. Literature: To be announced later. Prerequisites: T-106.1240/1243 and T-106.1220/1223. Substitutive: Replaces course T-106.3100. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Lectured in Finnish. Course material available in English. Language: Finnish T-106.3105 Project Work of Programming (1-5 cr) T-106.4000 Laboratory Course in Software Techniques (3-8 cr) 10 + 10 III-IV (Spring), not lectured during study year 2008-2009 Lecturer: Prof Lauri Malmi Contents: Experimental algorithm research, technology evaluation, writing scientific article. Project assignments deal, for example, with efficiency evaluation of complex data structures and algorithms, programming languages or software systems. Objective: The goal of the course is to obtain basic understanding of experimental research, test planning and writing scientific reports. Requirements: Project work. Target group: The course is intended only for students of the Degree Programme in Computer Science and Engineering. Literature: Lecture notes. Prerequisites: T-106.1220/T-106.250, T-106.1240/T106.235, T-106.3100/T-106.3101 and Mat-1.2600/Mat1.2620/Mat-2.090/Mat-2.091. Substitutive: Replaces the course T-106.290. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Lectured in Finnish. Course material available in English. Language: Finnish T-106.4100 Design and Analysis of Algorithms (5 cr) 30 + 22 (5 + 4) II (Autumn) Lecturer: Kerttu Pollari-Malmi, lecturer Contents: During the course the students will acquire knowledge of some fundamental algorithms, and of the design and analysis techniques of algorithms. Objective: The course is designed to answer questions of the following type: How does one find an efficient algorithm to solve a given computational problem. How can one estimate the efficiency of an algorithm. Requirements: Examination and compulsory exercises. Possibility to get extra credits from exercises. Literature: Cormen, Leiserson, Rivest, Stein: Introduction to Algorithms, The MIT Press, 1996 or 2nd Edition 2001. Prerequisites: T-106.1220/1223/T-106.250/253 and T106.1240/T-106.235. Substitutive: Replaces the course T-106.410. Web page: https://noppa.tkk.fi/noppa/kurssi/t-106.4100
Additional information: Lectures are in Finnish, exercises are in English. Language: Finnish T-106.4155 Operating Systems (5 cr) 24 + 0 (4 + 0) I (Autumn) Lecturer: Vesa Hirvisalo, lecturing researcher Contents: Operating system structure, processes, memory management, file system, parallel programming. Requirements: Examination. Literature: William Stallings: Operating Systems: Internals and Design Principles, 5th edition, 2005. Prerequisites: S-87.3190 and T-106.3100/T-106.3101. Substitutive: Replaces the course T-106.4150, that replaces the course T-106.430 Operating Systems. Additional information: Can be taken in English upon request. Language: Finnish T-106.4200 Introduction to Compiling (5 cr) 24 + 6 (4 + 1) I (Autumn) Lecturer: Prof Jorma Tarhio Contents: Translation of high-level languages to machine code. Lexical analysis, syntax analysis, syntax-directed compilation, type checking, naive code generation. The students construct a compiler producing executable code. Objective: To understand the principles of compiling. To provide skill to make a compiler for a small application oriented language. Requirements: Examination, exercises and programming assignment. Literature: To be announced later. Prerequisites: T-79.1001/T-79.148 and T-106.1240/T106.235/T-93.270. Additional information: Lectures are in Finnish. Exercises are also in English. Can be taken in English upon request. The programming assignment is in Period II. Language: Finnish T-106.5150 Operating Systems Project (5 cr) 0 + 6 III-IV (Spring) Lecturer: Vesa Hirvisalo, lecturing researcher Contents: The aim is to extend a small operating system. Requirements: Assignments. Literature: Handout. Prerequisites: S-87.3190, T-106.3100/T-106.3101, T106.4150/T-106.4155 Substitutive: Replaces the course T-106.435. Participation can be restricted. Additional information: Participation can be restricted. Language: English T-106.5220 Transaction Management in Databases P (4 cr) 26 + 10 (4 + 2) Spring (Period III) Lecturer: Prof Eljas Soisalon-Soininen Contents: Logical databases and database transactions. Log maintenance and buffer management. Rollback of transactions and database recovery. Transaction isolation
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and concurrency control, locking methods. Recovery of physical database structures. Requirements: Examination. Literature: Lecture notes. Prerequisites: T-76.2143/T-76.143 and T106.1220/1223/T-106.250/253. Substitutive: Replaces the course T-106.5200. Additional information: Can be taken in English upon request. Language: Finnish T-106.5240 Distributed Databases P (4 cr) 26 + 10 (4 + 2) II (Autumn) Lecturer: Prof Eljas Soisalon-Soininen Contents: Data distribution and distributed query processing. Processing of distributed transactions. Management of a replicated database. Parallel databases. Page-server and shared-disks systems. Systems for processing distributed transactions. Requirements: Examination. Literature: Lecture notes. Prerequisites: T-106.5220/T-106.5200. Additional information: Can be taken in English upon request Language: Finnish T-106.5250 Distributed Systems (5 cr) 32 + 0 (2 + 0) I-II (Autumn) Lecturer: Esko Nuutila, lecturing researcher Contents: Architecture and implementation techniques of distributed systems. Requirements: Examination. Literature: George Coulouris, Jean Dollimore, Tim Kindberg: Distributed Systems: Concepts and Design, 4th edition, 2005. Prerequisites: T-106.4155/T-106.4150/T-106.430. Additional information: Can be taken in English upon request. Language: Finnish T-106.5300 Embedded Systems (5 cr) 40 + 14 (3 + 1) III-IV (Spring) Lecturer: Olli Seppälä, M.Sc.(Tech.) Contents: Development of embedded systems, their hardware solutions and application areas. Programming with real time, fault tolerance, and correctness requirements. A somewhat extensive team project is required to pass the course. Requirements: Mandatory team project, examination. Literature: Lecture notes. Books on the subject recommended during the course. Prerequisites: (T-106.3100/T-106.3101/T-106.237 or AS0.1101/AS-0.101 or some other course on programming with C) and T-106.4150/T-106.4155/T-106.430. Substitutive: Replaces the course T-106.530. Language: English T-106.5400 String Algorithms P (5 cr) 36 + 14 (3 + 1) III-IV (Spring, not lectured during study year 2008-2009) Lecturer: Prof Jorma Tarhio
Contents: Exact and approximate string matching. Indexing. Text compression. Objective: To learn fundamental algorithms of string matching and text compression. Requirements: Examination, exercises and programming assignment. Literature: Handout. Prerequisites: T-106.4100/T-106.410. Substitutive: Replaces the course T-106.540. Additional information: Can be taken in English upon request. Language: Finnish T-106.5450 Advanced Course on Compilers P (5 cr) 22 + 0 (2 + 0) III-IV (Spring) Lecturer: Vesa Hirvisalo, lecturing researcher Contents: Programming language translation, static program analysis, program manipulation, optimization and applications. Requirements: Examination. Literature: Aho, Lam, Sethi, Ullman: Compilers. Principles, Techniques & Tools, second edition. Prerequisites: T-106.4200 and T-79.3001/T-79.144. Additional information: Can be taken in English upon request. Language: Finnish T-106.5550 Research methods P (5-8 cr) 18 + 0 (3 + 0) III (Spring) Lecturer: Päivi Kinnunen, Lic.A.(Educ.) Contents: Various research processes and methods, which relate to research made in different areas of information technology. Research methods that can be applied to study learning in the area of information technology are one central area of the course. Course content varies yearly. Objective: The objective of the course is that the student gains basic knowledge concerning the research process and different kinds of research methods. The course discusses especially research methods that are used in educational research. After the course the student should be able to evaluate the appropriateness of different research methods to their own research question and to perform the study. Requirements: To be announced separately. Evaluation: On this course the grade ‘pass’ can be given for accepted study attainments. Prerequisites: Course is intended for PhD students who are planning or just starting their research. Graduate students who are planning their masters thesis may benefit from this course, also. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.5600 Concurrent Programming P (5 cr) 40 + 0 ( 3 + 0) I-II (Autumn) Lecturer: Prof Heikki Saikkonen Contents: Principles of concurrent programming, synchronization and communication mechanism. Concurrent and distributed algorithms, Concurrent and
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distributed systems. Requirements: Lectures, examination and programming exercises. Literature: Handout; Ben-Ari: Principles of Concurrent and Distributed Programming; Goetz, Peierls, Bloch, Bowbeer: Java Concurrency in Practice. Prerequisites: Principles of computer architecture, operating system and run-time system from software perspective. Eg. courses: S-87.3190, T-106.4155, T106.3101. Java programming experience. Substitutive: Replaces the course T-106.430. Language: English T-106.5700 Project in Software Techniques (5-12 cr) I-II (Autumn) & III-IV (Spring) Lecturer: Vesa Hirvisalo, Ari Korhonen, Esko Nuutila, lecturing researchers Contents: A learning project on a separately agreed technical topic in the area of software technology. The topic should include both learning goals and constructive work. Requirements: Project is done in a group of 3 to 4 students. The group completes a common project work aimed at learning a particular topic and whose results are documented in a set of technical/scientific reports. In addition, each member of a group prepares a personal learning portfolio about his or her work and studying. Prerequisites: Bachelor degree and preferably also courses from module A3. Substitutive: Replaces the course T-106.720. Additional information: The course is intended only for students with major in Software Techniques. On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary Language: Finnish T-106.5720 Project in Distributed Systems (5-10 cr) Autumn & Spring Lecturer: Esko Nuutila, lecturing researcher Contents: A learning project on a separately agreed technical topic in the area of distributed systems. The topic should include both learning goals and constructive work. Requirements: Project is done in a group of 3 to 4 students. The group completes a common project work aimed at learning a particular topic and whose results are documented in a set of technical/scientific reports. In addition, each member of a group prepares a personal learning portfolio about his or her work and studying. Prerequisites: Bachelor degree and preferably also courses from module A3. Additional information: The course is intended only for students with major in Software Techniques. On this course the grade ‘pass’ can be given for accepted studyattainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.5740 Project in Embedded Systems (5-10 cr) I-II (Autumn) & III-IV (Spring)
Lecturer: Vesa Hirvisalo, lecturing researcher Contents: A learning project on a separately agreed technical topic in the area of embedded systems. The topic should include both learning goals and constructive work. Requirements: Project is done in a group of 3 to 4 students. The group completes a common project work aimed at learning a particular topic and whose results are documented in a set of technical/scientific reports. In addition, each member of a group prepares a personal learning portfolio about his or her work and studying. Prerequisites: Bachelor degree and preferably also courses from module A3. Additional information: The course is intended only for students with major in Software Techniques. On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.5800 Seminar on Software Techniques P (3-10 cr) Lecturer: Prof Heikki Saikkonen, Prof Eljas SoisalonSoininen, Prof Jorma Tarhio, and Prof Lauri Malmi Contents: The contents of this course vary. Please see https://noppa.tkk.fi/noppa/kurssi/t-106.5800 for the information about seminar sessions. Substitutive: Replaces the course T-106.850. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.5820 Seminar on Distributed Systems P (3-10 cr) Lecturer: Esko Nuutila, lecturing researcher Contents: The contents of this course vary. Please see https://noppa.tkk.fi/noppa/kurssi/t-106.5820 for the information about seminar sessions. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. The contents of the course vary. Language: English T-106.5840 Seminar on Embedded Systems P (3-10 cr) Lecturer: Vesa Hirvisalo, lecturing researcher Contents: The contents of this course vary. Please see https://noppa.tkk.fi/noppa/kurssi/t-106.5840 for the information about seminar sessions. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. The contents of the course vary. Language: English T-106.6100 Supplementary Course (1-8 cr) Lecturer: Prof Heikki Saikkonen, Prof Eljas SoisalonSoininen, Prof Jorma Tarhio, and Prof Lauri Malmi Contents: The contents and extent of the course must be agreed on with the teacher. The course is intended for situations, for example, when a student has transferred to
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Helsinki University of Technology from some other university. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. More information from the WWW page https://noppa.tkk.fi/noppa/kurssi/t-106.6100 . Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.6200 Special Course in Software Techniques P (1-8 cr) Lecturer: Prof Jorma Tarhio Contents: The contents of this course vary. Lectured according to agreement. Substitutive: Replaces the course T-106.810. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.6300 Special Assignment in Software Techniques P (5-8 cr) Lecturer: Prof Jorma Tarhio Contents: Independent exercise. Prerequisites: Courses of module A3. Substitutive: Replaces the course T-106.830. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.6320 Special Assignment in Distributed Systems P (5-8 cr) Lecturer: Esko Nuutila, lecturing researcher Contents: Independent exercise. Prerequisites: Courses of module A3 are recommended. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.6340 Special Assignment in Embedded Systems P (5-8 cr) Lecturer: Vesa Hirvisalo, lecturing researcher Contents: Independent exercise. Prerequisites: Courses of module A3 are recommended. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.6400 Individual Studies P (1-15 cr) Lecturer: Prof Heikki Saikkonen, Prof Eljas SoisalonSoininen, Prof Jorma Tarhio, and Prof Lauri Malmi Contents: The contents and extent of the course are to be agreed on with a professor before commencing the
course. Substitutive: Replaces the course T-106.870. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.6500 Special course in Computing Education Research P (1-10 cr) Lecturer: Prof Lauri Malmi Contents: The course discusses varying themes, literature, systems and research, which are related to computing education research. Organized by agreement. Contents and requirements vary each year. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.6520 Personal assignment in Computing Education Research P (1-10 cr) Lecturer: Prof Lauri Malmi Contents: In this course students study specific themes related to computing education research. The requirements are agreed on personally with the teacher. Contents and requirements vary each year. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.6540 Seminar in computing education research P (3-10 cr) Lecturer: Prof Lauri Malmi Contents: The seminar discusses varying themes related to computing education research. Contents and requirements vary each year. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-106.6560 Research seminar in computing education research P (1-5 cr) Lecturer: Prof Lauri Malmi Contents: In this seminar researchers present their own work and current research themes are discussed. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-109.4300 Network Services Business Models (3 cr) 24 + 0 (2 + 0) III-IV, Spring Lecturer: Lecturing researcher Sakari Luukkainen Contents: The course focuses on theoretical models of
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the network services commercialization process as well as practical case examples related to mobile multimedia services. Objective: The goal of the course is to describe the challenges service providers face in offering new mobile services taking into consideration both the business aspects and the fast developing technology requirements and possibilities. Requirements: Exam Literature: Andersson, Freeman, James, Johnston, Ljung: Mobile Media and Applications - From Concept to Cash. Successful Service Creation and Launch. 2006. Wiley. Language: English T-109.5410 Technology Management in the Telecommunications Industry (3 cr) 24 + 0 (2 + 0) I-II, Autumn Lecturer: Lecturing researcher Sakari Luukkainen Contents: The course handles the structure of the telecommunications industry and its innovation characteristics, technology choices, R&D financing, standardization and product strategy. Objective: The goal of the course is to describe technology management as a part of the business process of a telecommunications company. Requirements: Exam Literature: Varian: Information Rules, A Strategic Guide to the Network Economy, 1999, McGrath: Product Strategy for High Technology Companies, 2001. Prerequisites: TU-91.2005 Language: English T-109.7510 Research Seminar on Telecommunications Business P (5 cr) 24 + 0 (3 + 0) III-IV, Spring Lecturer: Lecturing researcher Sakari Luukkainen Contents: The participants will make a study related to telecommunications business and present it during the seminar. Objective: The goal of the course is to learn scientific writing and how to make a research study as an introduction for the Master’s or PhD thesis. Requirements: Active participation, preparation and presentation of a research report during the seminar, acting as opponent, written summary of all presentations. Literature: To be announced later. Prerequisites: T-109.5410 Additional information: The contents of the course vary. Language: English T-109.7553 Individual Studies in Telecommunications Business P (2-15 cr) I-IV, Autumn + Spring Lecturer: Lecturing researcher Sakari Luukkainen Contents: The content and extent of the course will be decided with the responsible teacher. Requirements: To be decided. Additional information: The contents of the course vary. Can be taken in Finnish or in Swedish. Language: English
T-110.1100 Introduction to Datacommunications and Multimedia Technology (5 cr) 26 + 0 (2 + 0) III-IV, Spring Lecturer: Ursula Koivikko, M.Sc. (Tech.) Contents: Introductory course on data communications and digital media. Networking and communications in data and telecommunication networks. Security: basic concepts and meaning. Overview of digital media technology and production. Requirements: Final exam or mid-term exams, home assignments. Literature: see course homepage Prerequisites: Computer as a tool or equivalent skills. Additional information: Can be taken in Swedish or in English upon request. Language: Finnish T-110.2100 Introduction to Datacommunications (5 cr) T-110.2105 Introduction to Datacommunications (5 cr) T-110.4100 Computer Networks (4 cr) T-110.4200 Information Security Technology (3 cr) T-110.4206 Information Security Technology (3 cr) 24 + 0 ( 4 + 0) II, Autumn Lecturer: Lecturer Timo Kiravuo Contents: The course covers basic methods for implementing security and applying them. Building safe systems. Identification, authentication and access control. Possiblities offered by cryptography. Security models. Security of operating systems and services. Requirements: Final exam and mandatory homework. Literature: Please see course homepage. Prerequisites: T-110.2100 equivalent skills. Additional information: Equivalent course: T-110.4200 Language: English T-110.4400 Datacommunications Software Project (5 cr) T-110.5100 Laboratory Works in Datacommunications Software (4 cr) 0 + 16 (0 + 0 ) I-II, Autumn Lecturer: Janne Lindqvist, M.Sc.(Tech.) Contents: The course consists of laboratory works related to using, managing and designing telecommunications software and networks. On the course, you will familiarize yourself with popular networking solutions and analysis tools. Requirements: Participation to the first lecture. Laboratory works. Literature: RFCs, software documentation Prerequisites: T-110.4100, basic unix skills Language: English T-110.5110 Computer Networks II - Advanced
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Features P (4 cr) 24 + 0 ( 4 + 0) I-II, Autumn Lecturer: prof. Sasu Tarkoma (pro tem) Contents: Advanced features of Internet Protocol based computer networks. Focus is on mobility management, authentication, authorization and accounting services, session management and quality of service architectures. Requirements: Exam Literature: RFCs and scientific publications Prerequisites: T-110.2100, T-110.4100, T-110.4200 Additional information: Equivalent coruse in English T110.5116 Language: Finnish T-110.5116 Computer Networks II - Advanced Features P (4 cr) 24 + 0 (4 + 0) I-II, Autumn Lecturer: prof. Sasu Tarkoma (pro tem) Contents: Advanced features of Internet Protocol based computer networks. Focus is on mobility management, authentication, authorization and accounting services, session management and quality of service architectures. Requirements: Exam Literature: RFCs and scientific publications Prerequisites: T-110.2100, T-110.4100, T-110.4200 Additional information: Equivalent course in Finnish T110.5110 Language: English T-110.5120 Next Generation Wireless Networks P (4 cr) 24 + 0 (2 + 0) II, Autumn Lecturer: Lecturer Timo Kiravuo Contents: This seminar will provide advanced knowledge about the next generation of wireless networks (UMTS, WLAN, Bluetooth etc.) The course will cover network architectures, basics of the radio technologies, core network, services and security issues. Requirements: Presentation and/or a written study. Literature: Please see course homepage. Prerequisites: T-110.2100 or equivalent skills and a seminar like T-110.5190 or T-110.5290. Additional information: The number of participants is limited. Language: English T-110.5130 Mobile Systems Programming (5 cr) 36 + 24 (3 + 2) III-IV, Spring Lecturer: prof. Antti Ylä-Jääski Contents: The course covers the general properties of mobile systems. In addition, you will familiarize yourself with the special features and most useful design patterns of mobile system programming. Special attention will be given to J2ME and Symbian environments. Requirements: Assignments and exam. Literature: Tommi Mikkonen: Programming Mobile Devices: An Introduction for Practitioners, Wiley. Prerequisites: T-106.3100 Additional information: Lectured via videoconference from Tampere. Language: English
T-110.5140 Network Application Frameworks P (5 cr) 24 + 0 (2 + 0) III-IV, Spring Lecturer: prof. Sasu Tarkoma (pro tem) Contents: The course covers the fundamentals of modern distributed application and service programming with the focus on current and emerging topics in IETF and W3C. Topics include the Internet Architecture, Web Services and middleware, and mobile middleware. Requirements: Exam and assignments. Literature: Please see course homepage. Prerequisites: T-110.4100 and T-110.5100. Language: English T-110.5190 Seminar on Internetworking P (4 cr) III-IV, Spring Lecturer: prof. Antti Ylä-Jääski Contents: The course addresses current issues concerning the Internet. The topical area varies year to year covering research questions in Internet network architectures, protocols, network middleware, applications, services and service management. Requirements: Preparing a written article and making a seminar presentation of it. Acting as a referee and opponent. Active participation in the seminar. Literature: Please see course homepage. Prerequisites: T-110.4100 Additional information: The number of participants is limited. The contents of the course vary. Language: English T-110.5200 Laboratory Works on Information Security (4 cr) 0 + 16 (0 + 0) I-II, Autumn Lecturer: Janne Lindqvist, M.Sc.(Tech.) Contents: The course consists of laboratory works related to security in telecommunications software and networks. On the course, you will familiarize yourself with popular security solutions and analysis tools. Requirements: Participation to the first lecture. Laboratory works. Literature: RFC:s, software documentation Prerequisites: T-110.4100, T-110.4200, basic unix skills Language: English T-110.5211 Cryptosystems (4 cr) 24 + 0 (2 + 0) I-II, Autumn Lecturer: Sami Vaarala, Lic. Sc. (Tech.) Contents: Applying cryptology in practical information systems to improve system security. Covers basics of cryptosystems but emphasizes the practical aspects of cryptosystem implementation. Course assignment is a practical implementation of a cryptosystem. Objective: Understand basics of cryptosystems. Know common cryptographic primitives and systems. Understand security challenges of implementing cryptosystems. Requirements: Final exam and assignment. Literature: See the course homepage Prerequisites: Basic skills in programming (Java) and system design
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Language: English T-110.5220 Information Security and Usability (3 cr) 18 + 0 (3 + 0) III, Spring Lecturer: Kristiina Karvonen, D. Sc. (Tech.) Contents: Security from a user’s point of view. The role of usability in secure information systems. Special properties in usability of security. Requirements: Lectures and essay Literature: Please see course homepage. Prerequisites: T-110.4200 and T-121.2100 or equivalent Language: English T-110.5230 Special course in Practical Security of Information Systems P (4 cr) III-IV, Spring Lecturer: Sami Vaarala, Lic.Sc. (Tech.) Contents: Threats and vulnerabilities of information systems. Performing practical attacks against information systems in pairs to learn about information systems in practice. The course aims at learning practical skills of identifying assets, threats, vulnerabilities, and attacks, and how to protect againts attacks in practice. Objective: Understand thread modeling of systems from practical point of view. Understand and can apply attack methods in practice and can develop countermeasures against attacks. Requirements: Assignment on chosen topic, presentation. Prerequisites: T-110.4200, T-110.4100 (or equivalent skills). T-79.4501 or T-110.5210 recommended for cryptographic topics. Language: English T-110.5290 Seminar on Network Security P (4 cr) I-II, Autumn Lecturer: prof. Tuomas Aura Contents: The course addresses varying issues in communications networks security. Every participant must prepare a written presentation and present their work during a two day seminar. Requirements: Active participation, preparation of a written presentation, and its presentation during the seminar, and acting as opponent. Prerequisites: T-110.4200 Language: English T-110.5600 Introduction to Corporate Security (3 cr) 28 + 0 (4 + 0) III, Spring Lecturer: Teemupekka Virtanen, D.Sc.(Tech.) Contents: Security, including information security, consists of several different kinds of operation. There are several courses about technical methods of information security but they only cover a small area of security. In this course these non-technical aspects of security are introduced. The main topics are the business model of security, security management, risk management and security in personnel and premises management. Requirements: Final exam. Literature: Handouts Language: English
T-110.5620 Developing Process for Information Security P (4 cr) T-110.6000 Internet and Computing Forum P (2 cr) 28 + 0 (2 + 0) III-IV, Spring Lecturer: prof. Antti Ylä-Jääski Contents: The Internet and Computing Forum is a wideranging industry forum. The topics of the forum focus on new trends, hot areas and future opportunities in computer science and Internet technologies. The guest speakers are leaders in their fields in industry - top technical experts, scientists and innovators. This forum provides you a unique opportunity to learn about the latest technical trends explored on the Internet and Computing domains in the industry. Requirements: Mandatory lectures and home assignments Prerequisites: The forum does not require prior knowledge on computer science Additional information: The contents of the course vary. Language: English T-110.6100 Special Assignment in Datacommunications Software P (2-10 cr) I-II, III-IV, Autumn & Spring Lecturer: prof. Antti Ylä-Jääski Contents: In the special work, the student will independently implement a solution to a programming assignment related to telecommunications software. Possible topics are Internet technologies, computer network applications, service frameworks, service management or network interworking. The special work offers a good means for learning some special telecommunications software topic in depth and for practicing the implementation and reporting of an individual programming project. Requirements: Planning, implementation and testing of a software solution, presentation and analysis of the results and a written report. Evaluation: May be graded with pass/fail Literature: Agreed upon separately. Prerequisites: T-110.4100 and T-110.5100 Additional information: Topics will be given on the course web page. The student can also suggest an own topic. Group work possible if agreed upon separately. The contents of the course vary. Language: English T-110.6110 Individual Studies in Datacommunications Software P (2-10 cr) I-II, III-IV, Autumn & Spring Lecturer: prof. Antti Ylä-Jääski Contents: Possible topics are Internet technologies, computer network applications, service frameworks, service management or network interworking. The study can be based on professional literature or scientific articles. The individual work offers a good means for learning some special telecommunications software topic in depth and for practicing the writing of a scientific thesis, especially in the doctoral studies.
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Objective: In the individual work, the student will independently make a study on a topic related to telecommunications software. Requirements: Presentation or a written academic study. Evaluation: May be graded with pass/fail. Literature: Agreed upon separately. Additional information: Topics will be given on the course web page. The student can also suggest an own topic. Group work possible if agreed upon separately. The contents of the course vary. Language: English T-110.6120 Special Course in Data Communication Software (2-10 cr) T-110.6200 Special Assignment in Information Security P (2-10 cr) I, II, III, IV, Autumn & Spring Lecturer: prof. Tuomas Aura Contents: Independent scientific research or software desing project in the field of information security. Can also be literary research. With a prior agreement the work can also be carried out in groups. Requirements: Preparation and presentation of the research work or software project. Evaluation: May be graded with pass/fail. Additional information: The contents of the course vary. Language: English T-110.6210 Individual Studies in Information Security P (2-10 cr) I, II, III, IV, Autumn & Spring Lecturer: prof. Tuomas Aura Contents: The content and scope of the individual course must be agreed beforehand with the lecturer. The subject may be a study of a particular book on the subject or literary research work on the subject belonging to the study area of postgraduate studies. Requirements: Announced later. Evaluation: May be graded with pass/fail. Additional information: The contents of the course vary. Language: English T-110.6220 Special Course in Network Security (2-10 cr) I, II, III, IV, Autumn & Spring Lecturer: prof. Tuomas Aura Contents: This course has a varying topic and is arranged subject to availability of a lecturer. When arranged, the course may be given in English. Information about the arrangement and the beginning of the course will be published in the webpages. Requirements: Announced later. Prerequisites: Announced later. Additional information: May be graded with pass/fail. The contents of the course vary. Language: English T-110.7100 Applications and Services in Internet P (4 cr) I-II, Autumn
Lecturer: prof. Antti Ylä-Jääski Contents: The course focuses on current issues concerning the design, development, deployment and management of applications and services in Internet. The topical areas vary yearly covering system architectures, service architectures, service management and related technical development issues. Some of the focal areas are peer-to-peer technologies, systems and services in comparison to more traditional client-server systems. Requirements: Preparing own seminar presentations and reports. Active participation in the discussions of the interactive lectures. Literature: Announced on the homepage. Prerequisites: T-110.4100 Additional information: The contents of the course vary. Language: English T-110.7110 Internet Technologies for Mobile Computing P (4 cr) III-IV, Spring Lecturer: prof. Sasu Tarkoma (pro tem) Contents: Variable content course addressing advanced, current issues in the mobile computing domain. The topical areas vary yearly covering research questions in mobile technologies, mobile networking, applications and services in mobile networks and standardisation forums for mobile computing. Requirements: Preparing own seminar presentations and reports. Active participation in the discussions of the interactive lectures. Literature: Announced on the homepage. Prerequisites: T-110.4100 Additional information: The course is intended for postgraduate students. The contents of the course vary. Language: English T-110.7190 Research Seminar on Datacommunications Software P (3-5 cr) I-II, III-IV, Autumn & Spring Lecturer: prof. Antti Ylä-Jääski Contents: The course addresses advanced issues concerning the Internet. The topical area varies yearly covering research questions in Internet network architectures, protocols, network middleware, applications, services and service management. Requirements: Preparing a written conference article and presenting it in a seminar. Acting as a referee and opponent. Literature: Announced on the homepage. Prerequisites: T-110.5190 or T-110.5290 Additional information: The course is intended for postgraduate students. The number of participants is limited. The contents of the course vary. Language: English T-110.7200 Special Course in Operating System Security P (3-8 cr) T-110.7210 Special Course in Communication Security P (3-8 cr)
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T-110.7290 Research Seminar on Network Security P (4 cr) I-II, III-IV, Autumn & Spring Lecturer: prof Tuomas Aura Contents: The course addresses varying issues in communications network security. Every participant must prepare a scientific article and present their work during a conference. Requirements: Active participation, preparation of a written article and its presentation during a conference, and acting as an opponent. Prerequisites: T-110.5290 Additional information: The contents of the course vary. Language: English T-121.2100 Introduction to User-Centred Product Development (2 cr) III Lecturer: Johanna Viitanen, prof. Marko Nieminen Contents: Basics in user interfaces, usability and usercentred product development. Requirements: Lectures and examination. Literature: Materials are announced in course web site. Prerequisites: None. Substitutive: Replaces T-121.100 Introduction to UserCentred Product Development. Additional information: Can be taken in English upon request. Language: Finnish. T-121.3110 Exercise on User-Centred Product Development (3 cr) III-IV Lecturer: Johanna Viitanen, prof. Marko Nieminen Contents: Exercises for different phases of user-centred product development. Requirements: Exercise sessions and exercises. Literature: Materials are announced in course web site. Prerequisites: T-121.2100, can be taken simultaneously. Substitutive: Replaces T-121.110 Exercise in usercentred product development. Additional information: Restricted number of participants (150). Can be taken in English upon request. Language: Finnish. T-121.5150 Methods for User-Centred Product Development (2 cr) I Lecturer: Lecturing researcher Sirpa Riihiaho Contents: Literature based exam of the methods for usercentred product development, user research and usability evaluation. Requirements: Exam. Literature: Materials are announced in course web site. Prerequisites: T-121.2100. Additional information: The course is a prerequirement for courses T-121.5401 and T-121.5601. Can be taken in English upon request. Language: Finnish.
T-121.5200 Human Characteristics and User Interfaces (3 cr) T-121.5300 User Interface Construction (3-4 cr) II Lecturer: Prof. Marko Nieminen, prof Petri Vuorimaa Contents: The design and construction of user interfaces. Use of basic user interface elements and style guides. Requirements: Lectures and examination, assignments. Literature: Materials are announced in course web site. Prerequisites: T-121.2100 Substitutive: Replaces T-121.300 User interface construction and T-121.310 User interface construction project, and the course T-111.310 Interactive technology. Additional information: Restricted number of participants (100). Can be taken in English upon request. Language: Finnish. T-121.5401 User Research P (3 cr) T-121.5500 Special Assignment in User-Centred Product Development (1-8 cr) I-IV Lecturer: Prof. Marko Nieminen, lecturing researcher Mika P. Nieminen. Contents: To be defined individually in advance with the teacher. Requirements: Assignment. Prerequisites: None. Substitutive: Replaces T-121.500 Special assignment in user-centred product development. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish. T-121.5601 Usability Evaluation P (5 cr) T-121.5700 User-centred Concept Design P (4 cr) T-121.5850 Individual Course on Usability P (1-10 cr) I-IV (Agreed separately) Lecturer: Prof. Marko Nieminen, lecturing researcher Mika P. Nieminen Contents: To be defined individually in advance with teacher. Requirements: Assignment. Prerequisites: None. Substitutive: Replaces T-121.850 Individual course on usability. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish. T-121.5900 Seminar on User Interfaces and Usability P (3-8 cr) IV Lecturer: Prof. Marko Nieminen; lecturing researcher Mika P. Nie Contents: Current topics in usability and user-centred
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product development. The contents of the seminar vary. Requirements: Participation in seminars, seminar report and presentation. Prerequisites: T-121.3110 and at least one of T-121.5xxx courses. Substitutive: Replaces T-121.900 Seminar on User Interfaces and Usability. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish. T-121.5950 Thesis Seminar P (2 cr) I-IV Lecturer: Prof. Marko Nieminen Contents: Basics and guidance about thesis research (methodology, process). Thesis requirements. Presentation of own ongoing thesis work and evaluation of other thesis (opponent). Requirements: Participation in seminars, seminar presentations. Literature: Materials are announced in course web site. Prerequisites: None. Substitutive: T-121.950 Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish. T-124.4100 Informaatioverkostot: Networked Business Forum (2 cr) T-124.5100 Networked business processes and models (4 cr) 24 + 12 (2 + 0) I-II, Autumn Lecturer: Prof Riitta Smeds Contents: The course gives theoretical foundations to understand the development and management of business processes and business models in the networked business environment. - The course includes also invited lectures about core business process development in companies. Requirements: Lectures, learning diary, team assignment, examination. Literature: Lecture handouts; Wheelwright, S. C. and Clark, K. B. (1992) Revolutionizing Product Development. Quantum Leaps in Speed, Efficiency and Quality. The Free Press, New York. Michael Hammer and James Champy (2001): Reengineering the Corporation. Prerequisites: TU-22.1101, TU-22.1130, TU-53.1100, TU-53.1308, TU-91.1002, TU-91.1003 Web page: http://www.simlab.tkk.fi/ Additional information: Can be taken in English upon request Language: Finnish T-124.5200 Business process development methods (3 cr) 26 + 0 (4 + 0) III, Spring Lecturer: Dan Soback, inquiries: Prof Riitta Smeds Contents: The course enhances scientific and practical knowledge and mastery of business process development,
consulting and scientific methods and related skills, such as development of interaction, communication and group facilitation skills. Requirements: Active participation in lectures; problem based field study of BPD in consulting companies with seminar presentation and written report; planning and realizing an experimental process simulation; reading seminar on consulting and scientific methods, learning diary. Literature: Lecture handouts and scientific articles Prerequisites: T-124.5100 Web page: http://www.simlab.tkk.fi/ Additional information: Max 20 students. Can be taken in English upon request. Language: Finnish T-124.5300 Development of Business Processes, project assignment (5 cr) I, II, III, IV, Autumn & Spring Lecturer: Dan Soback, inquiries: Prof Riitta Smeds Contents: The course deepens the student’s capabilities in developing and managing networked business processes, and in conducting empirical research in the field. The student works as member of SimLab’s research team, or conducts an independent assignment in a company, applying process development methods to a real business process development project. Requirements: Project plan, final project report, research plan/essay, reflection essay. Activity in all phases of the project, and active participation in the sessions. Target group: Only for students of the Degree Programme of Information Networks, in the major / module Business Process Networks. Prerequisites: T-124.5200 Web page: http://www.simlab.tkk.fi/ Additional information: Can be taken in English upon request Language: Finnish T-124.5400 Theoretical perspectives on business processes (4 cr) 24 + 0 (2 + 0) I-II, Autumn Lecturer: Senior researcher Miia Jaatinen Contents: The course presents theoretical approaches from different disciplines to the study of business processes and business models. Central topics include learning, innovation, management and communication. The course provides a multidisciplinary approach to the problem based scientific research on business processes, and supports the development of research topics. Requirements: Lectures and seminar sessions. Study diary. Literature: Lecture handouts and scientific articles. To be announced at the lectures. Prerequisites: T-124.5100, T-124.5200 Web page: http://www.simlab.tkk.fi/ Additional information: Maximum 20 students. Can be taken in english. The course will not be arranged in the fall term 2008. Language: English
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T-124.5500 Business Process Networks, Master’s Thesis seminar (1 cr) I-IV, Autumn & Spring Lecturer: Prof Riitta Smeds Contents: Introductory lecture and seminar sessions. Each student gives a presentation about a finished Master’s Theses, presents the plan of his/her own Thesis, one intermediate version, and the final Master’s Thesis (official Master’s Thesis presentation). Each student also peer-reviews another student’s intermediate version. Requirements: The seminar presentations and active participation in the sessions Target group: Only for the students of the Degree Programme of Information Networks. The students participate in the seminar in their Master’s Thesis phase. Literature: Will be announced at the introductory lecture. Web page: http://www.simlab.tkk.fi Additional information: Arranged on demand. Can be taken in English upon request Language: Finnish T-124.5600 Business Game P (3 cr) 5 + 24 III, Spring Lecturer: Dr.Sc. (Tech.), Dr.Sc. (Econ. & Bus. Adm.) Juuso Töyli Contents: The game provides the students with a thorough picture of the different functions of an enterprise and the interdependencies between them. The game also gives the students an opportunity to practice strategic, operations and growth management. The business game makes it possible for the students to test their knowledge and skills in business without actual financial risks, and also train team work under time pressure. Requirements: Companies formed by a team of four students compete against each other in the same game. Decisions are made in a computer class during guided game sessions. All participants must be present in every game session. In addition to the game passing the course requires handing in a written business plan and an end report on the students’ own game company. Literature: The case description of the game is handed out on the starting lecture of the course. Web page: http://www.lce.hut.fi/teaching/S-114.3155/ and http://www.simlab.tkk.fi Additional information: Course is also arranged under the code S-114.3155. Can be taken in English upon request. Language: Finnish T-124.5700 Global Virtual Collaboration Project (3 cr) III-IV, Spring Lecturer: Prof Riitta Smeds Contents: An international virtual project course, realized in international student teams from TKK, Columbia University (New York), and Indian Institute of Technology in Madras (Chennai). The course develops international collaboration, communication and problem-solving skills in process development projects across cultures, applying SimLab’s group work space,
telepresence and virtual tools. Requirements: Team sessions in virtual teams, seminars at TKK and Columbia University, written final report, presentation at end seminar. Target group: The participation to the course is limited to 6-10 students from the Degree Programme of Information Networks, in the major / module Business Process Networks. Prerequisites: T-124.5100, T-124.5200, T-124.5300 Web page: http://www.simlab.tkk.fi Language: English T-124.7100 Doctoral research seminar in business process networks P (3 cr) 24 + 0 (2 + 0) I-II, III-IV, Autumn & Spring Lecturer: Prof Riitta Smeds Contents: Introductory lecture and seminar sessions. Each participant analyzes a selected Doctoral Theses related to the field of business process networks, and presents and discusses his/her own research plan for a Doctoral or Licentiate’s Thesis. Each participant also peer-reviews another participant’s research plan. Requirements: Presentations and active participation in the seminar sessions. Target group: The course is targeted for students who are beginning to write their Doctor’s or Licentiate’s Theses in the research area ‘business process networks in digital economy’. Literature: Will be announced at the seminar. Prerequisites: TU-22.1191 Web page: http://www.simlab.tkk.fi Additional information: Arranged on demand. Can be taken in English upon request. Language: Finnish T-124.7200 Scientific Writing Seminar in Business Process Networks P (3-6 cr) 24 + 0 (2 + 0) I-II, III-IV, Autumn & Spring Lecturer: Prof Riitta Smeds Contents: The structure of scientific articles, and scientific reasoning in the written text. Review criteria of scientific journals. Planning, writing and presenting of own manuscript for a conference paper or journal article, and peer-reviewing manuscripts of the other participants. Requirements: Presentations and active participation in the seminar sessions. Target group: Only for post-graduate students who are in the process of writing their Doctoral or Licentiate’s Theses in the research area ‘business process networks in digital economy’. Prerequisites: T-124.7100 Web page: http://www.simlab.tkk.fi Additional information: Arranged on demand. Can be taken in English upon request. Language: Finnish T-124.7300 Individual course in Business Process Networks P (1-15 cr) I-IV Lecturer: Prof Riitta Smeds Contents: Current literature in Business Process
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Networks. Requirements: Agreed upon individually Target group: Only for post-graduate students in the research area ‘business process networks in digital economy’. Literature: Agreed upon individually Prerequisites: Agreed upon individually Web page: http://www.simlab.tkk.fi Additional information: Arranged on demand. The contents of the course vary. Can be taken in English upon request. Language: Finnish T-128.4101 Introduction to Software Business (2 cr) 24 + 0 (2 + 0) I, Autumn Lecturer: Prof. (pro tem) Jussi Autere Contents: The course presents the differences between traditional products versus software-based products, such as the role of development and manufacturing, the digital nature of software, role of system integration, complexity, role of software-based services and the impact of Internet-facilitated product distribution. The course discusses how these characteristics influence strategy, R&D management and marketing. Requirements: Exam. Literature: E. Hyvönen (toim): Ohjelmistoliiketoiminta, 2003, WSOY Additional information: It is recommended that students have obtained basic information about business. Such basic information is provided by courses Inroduction to Industrial Management and Engineering, Principles of Strategic Management, New Venture Development ja Strategic Management of Technology and Innovation. In addition, knowledge of software engineering basics is necessary for students. Language: Finnish. Can be taken in English upon request. Language: Finnish T-128.4200 Management of a Software Company P (6 cr) 36 + 12 (3 + 1) III-IV, Spring Lecturer: Petteri Vainikka Contents: Strategy formulation in software business: vertical and horizontal positioning, balance and choice between product and service focus, complementary effects between product and service offering, platform strategies, position in value networks. Requirements: Exam and exercises. Literature: Cusumano, M.: The Business of Software: What Every Manager, Programmer, and Entrepreneur Must Know to Thrive and Survive in Good Times and Bad, Free Press 2004; Messerschmitt, D.G. and Szyperski, C.: Software Ecosystem: Understanding an Indispensable Technology and Industry, MIT Press 2005 Prerequisites: T-128.4101 Introduction to Software Business B. Substitutive: Replaces course T-76.640 Software Business, former name of the course: T-128.4200 Software Business I. Additional information: Can be taken in English upon request.
Language: Finnish T-128.5300 Advanced Course in Software Business P (4 cr) 24 + 12 (2 + 1) I-II, Autumn Lecturer: Petteri Vainikka Contents: Evolution of software companies, critical success factors and business models, management of product innovations, product strategies, product portfolio, product architecture, product platforms, alignment of platform strategies, network structures of software companies, assessment and improvement of product development and globalization of software companies. Requirements: Exam and Exercises Literature: To be announced later Prerequisites: T-128.4200 Management of a Software Company Additional information: Can be taken in English upon request. Language: Finnish T-128.5400 Software Entrepreneurship Seminar P (4 cr) T-128.5540 Pricing and Positioning of Software P (4 cr) I-IV (2008-2009, according to agreement) Lecturer: Prof (pro tem) Jussi Autere Contents: Price-setting and positioning strategies and practices for software products and product-related services. Requirements: Book examination. Literature: To be announced later Prerequisites: T-128.4200 Management of a Software Company, T-128.5300 Advanced Course in Software Business Language: English T-128.5720 Seminar in Software Business P (4-10 cr) I-IV (2008-2009, according to agreement) Lecturer: Prof (pro tem) Jussi Autere Contents: A literature study on a timely, relevant topic in software business. Topic and plan need to be approved in advance. Requirements: Research paper and presentation. Literature: To be announced later Prerequisites: T-128.4200 Management of a Software Company, T-128.5300 Advanced Course in Software Business Substitutive: Replaces course T-76.648 Seminar in Software Business. Additional information: The contents of the course vary. Language: English T-128.5740 Special Assignment in Software Business P (3-10 cr) I-IV, Autumn & Spring (2008-2009, arranged according to agreement) Lecturer: Prof. Jussi Autere Contents: A research report on a timely, relevant topic in software business. Topic and plan need to be approved in
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advance. Requirements: Research paper and presentation. Literature: To be announced later Prerequisites: T-128.4200 Management of a Software Company, T-128.5300 Advanced Course in Software Business Substitutive: Replaces course T-76.649 Special Assignment in Software Business. Additional information: The contents of the course vary. Language: English T-128.5780 Invidual Study in Software Business P (316 cr) I-IV, Autumn & Spring (2008-2009 arranged according to agreement) Lecturer: Prof. (pro tem) Jussi Autere Contents: Varies according to situation and agreement. Requirements: Varies according to situation and agreement. Literature: Sopimuksen mukaan Additional information: The contents of the course vary. Language: English T-128.6790 Special Course in Software Business P (310 cr) I-IV, Autumn & Spring (2008-2009, arranged according to agreement) Lecturer: Mika Ahokas Contents: Varies according to situation and agreement. Requirements: Varies according to situation and agreement. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish T-76.1143 Database Management (5 cr) 30 + 30 (3 + 2) I, Autumn Lecturer: Juha Puustjärvi, Docent Contents: Basic concepts and methods in database systems. Special attention is paid to the design and implementation of databases based on the relational and object oriented models. Requirements: Final examination and programming assignment. Literature: To be announced later. Prerequisites: T-106.1220/T-106.1223 Data Structures and Algorithms Substitutive: Replaces former course T-76.143 Database Management. Additional information: Can be taken in English upon request. Language: Finnish T-76.3601 Introduction to Software Engineering (5 cr) III-IV, Spring Lecturer: Teaching researcher Casper Lassenius Contents: The course provides a broad, but practical view of major areas in software realization. Among others, the course deals with project specification, cost estimation and guidance, quality and quality control, software metering, process estimation and development.
The course consists of lectures and exercises during which topics discussed during lectures are realized. Requirements: Examination and exercises. Literature: Roger S. Pressman: Software Engineering: A Practitioners Approach, 6th edition. McGraw Hill 2005. Prerequisites: Basics in programming. Substitutive: Replaces former course T-76.601 Introduction to Software Engineering. Language: English T-76.4115 Software Development Project I (5-8 cr) I-III, Autumn & Spring Lecturer: researcher Jari Vanhanen Contents: Studying software engineering tools and practices in the context of a software development project done as a team for a real customer. The project includes project planning, requirements specification, technical design, coding, quality assurance, system delivery and producing documentation related to the previous activities. Course participants generally work in activities related to the technical implementation of the system. Requirements: Project work. Prerequisites: T-76.3601 Introduction to Software Engineering (mandatory), T-76.4602 Software development methods(recommended) Substitutive: T-76.4115 (8 cr) replaces former course T76.115 Individual Project. Additional information: Students from the T-76.5115 course take the managerial roles in the projects. Lectures in Finnish, course materials in English. Language: Finnish T-76.4602 Software development methods (6 cr) I-II Lecturer: Marjo Kauppinen Contents: The course provides basic understanding to software development methods in different development phases. After the course, the student will have a broad understanding of software development methods as a whole and can effectively participate in software development projects. The detailed topics will be announced later. The course consists of lectures and exercises during which topics discussed during lectures are realized. Requirements: Examination and exercises. Literature: To be announced later. Prerequisites: T-76.3601 Introduction to Software Engineering Substitutive: Replaces former course T-76.611 Software Design and Specification Methods, T-76.614 Software Product Management. Additional information: Can be taken in English upon request. Language: Finnish T-76.5050 Methods for Software Engineering and Business Research P (3-5 cr) III-IV, Spring Lecturer: prof. Tomi Männistö Contents: The goal is to introduce the participants to research methods, approaches and processes in software
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engineering. In addition, the course provides students practice on formulating research questions and planning empirical studies. Requirements: To be announced later. Literature: To be announced later. Substitutive: Replaces former course T-76.050 Methods for software business and engineering research. Additional information: The contents of the course vary. Language: English T-76.5115 Software Development Project II (6-8 cr) I-III, Autumn & Spring Lecturer: researcher Jari Vanhanen Contents: Studying software engineering tools and practices in the context of a software development project done as a team for a real customer. The project includes project planning, requirements specification, technical design, coding, quality assurance, system delivery and producing documentation related to the previous activities. Course participants generally work as a project manager or in some other managerial role. Requirements: Project work. Prerequisites: T-76.4115 (mandatory), other software engineering courses at SoberIT (recommended). Additional information: Students from the T-76.4115 course take the roles related to the techical implementation work. Lectures in Finnish, course materials in English. Language: Finnish T-76.5145 Semantic Data Management (4 cr) II, Autumn Lecturer: Docent Juha Puustjärvi Contents: Basic concepts and methods of semantic data management. Requirements: Final examination and assignment. Literature: To be announced later. Prerequisites: T-76.1143 Database Management 5 cr Substitutive: Replaces the course T-76.5144 Managing Data in the Semantic Web 4 cr. Language: English T-76.5150 Software Architectures P (5 cr) III-IV, Spring Lecturer: Prof. Tomi Männistö Contents: The goal of the course is to introduce the students with software architectures. The course addressed the main rationale behind the use of software architectures, their design and the mechanism for describing and evaluating software architectures. The mechanisms are related to the different needs, such as qualities of the system, arising from stakeholders of the system. Requirements: Exam and assignments. Literature: To be announced later. Prerequisites: T-76.3601 Introduction to Software Engineering, T-76.4602 Software development methods. Substitutive: Replaces former course T-76.150 Software Architectures. Language: English
T-76.5158 Special Assignment in Software Engineering P (2-10 cr) Lecturer: Prof Reijo Sulonen, Prof Tomi Männistö Contents: Independent scientific essay on an assigned problem from the field of Software Engineering. Requirements: Independent scientific essay on an assigned problem from the field of Software Engineering. Substitutive: Replaces former course T-76.158 Special Assignment in Software Engineering. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish T-76.5612 Software Project Management P (3 cr) III, Spring Lecturer: Tuomas Niinimäki, researcher Contents: Software project planning and management. Project organization, project/process models, different project types (bespoke, software product and distributed projects), communication and informing, planning, control and quality management. Subcontracting. Requirements: Examination and assignments. Literature: To be announced later. Prerequisites: T-76.3601 Introduction to Software Engineering, TU-22.1120 Introduction to Project Management. Substitutive: Replaces former course T-76.612 Software Project Management. Additional information: Course material and examinations available in English. Language: Finnish T-76.5613 Software testing and quality assurance (5 cr) 28 + 10 I-II, Autumn Lecturer: Juha Itkonen Contents: Basics of software testing, concepts, testing techniques and reviews. Test planning, management and tools. The role of testing in quality assurance and quality assurance as part of software process. Requirements: Exam, exercises. Literature: See course web pages. Prerequisites: T-76.3601 Introduction to Software Engineering, T-76.4602 Software development methods Substitutive: Replaces former course T-76.613 Software Testing and Validation. Additional information: Lecture in Finnish. Course material and examinations available in English. Language: Finnish T-76.5615 Requirements engineering L (2-4 cr) I, Autumn Lecturer: Marjo Kauppinen, Juho Heiskari, Marko Komssi and Eero Uusitalo Contents: The goal of the course is to introduce requirements engineering approaches,processes and methods.The course covers for example the following topics: elicitation of customer needs, requirements analysis and validation. The course also introduces good requirements practices that support testing, marketing and service planning. Requirements: Exam and exercises.
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Literature: Davis, Alan, Just Enough Requirements Management, 2005, articles. Substitutive: Replaces former course T-76.652 Seminar on Requirements Engineering. Additional information: Can be taken in English upon request. Language: Finnish
Contents: Independent scientific essay. Requirements: Seminaarityö ja -esitys. Substitutive: Replaces former course T-76.5652 Seminar in requirements engineering Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish
T-76.5631 Software processes P (3-5 cr) 28 + 0 (4 + 0) IV, Spring Lecturer: Kristian Rautiainen, researcher Contents: The course presents in-depth areas of software process research, such as process modelling and process models, as well as process assessment and improvement. Some lectures are held by visitors from industry, who share their practical experiences. Requirements: Exam. Literature: Article collection + lecture slides Prerequisites: T-76.3601 Substitutive: Replaces former course T-76.631 Software processes. Additional information: Course material and examinations available in English. Language: Finnish.
T-76.5699 Individual Studies in Software Engineering P (2-10 cr) I-IV, Autumn & Spring Lecturer: Prof Reijo Sulonen, Prof Tomi Männistö Contents: The contents and extent of the course are to be agreed with a professor before commencing the course. Substitutive: Replaces former course T-76.656 Individual Studies. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish
T-76.5632 Legal Issues in Computing P (3-6 cr) T-76.5633 Special Course in Software Engineering P (3-10 cr) Arranged according to agreement. Lecturer: Prof. Reijo Sulonen, Prof. Tomi Männistö Contents: The contents of this course vary. Substitutive: Replaces former course T-76.633 Special Course in Software Engineering. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish T-76.5650 Seminar in Software Engineering P (3-5 cr) Arranged according to agreement. Lecturer: prof. Tomi Männistö Contents: The contents of this course vary. Substitutive: Replaces former course T-76.650 Seminar in Software Engineering. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish T-76.5654 Seminar on Software Product Development P (3-8 cr) Lecturer: prof. Tomi Männistö Contents: The contents of this course vary. Substitutive: Replaces former course T-76.5651 Seminar on Distributed Product Development. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish T-76.5655 Research Seminar on Software Engineering P (3-5 cr) Lecturer: prof. Tomi Männistö
T-76.5750 Seminar on Law and Technology P (3 cr) IV, Spring Lecturer: Prof. Juha Laine Contents: Seminar on varying topics on Law and Technology. Requirements: To be announced later. Literature: To be announced later. Substitutive: Replaces former course T-76.750 Seminar on Law and Technology. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish T-76.5751 Special Writing Work on Law and Technology (3-6 cr) I, II, III, IV, Autumn & Spring Lecturer: Prof Juha Laine. Contents: Independent writing work on Law and Technology. The subject and the extent of the work are to be agreed separately. Requirements: Thesis. Literature: Agreed separately. Substitutive: Replaces former course T-76.751 Special Writing Work on Law and Technology. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish T-76.5753 Law in Network Society (4-6 cr) 24 + 0 (2 + 0)IV, Spring Lecturer: Docent Mikko Välimäki Contents: The course focuses on the legal and economic foundations of software industry, the philosophy of open source and the relation between user rights and new models of digital content distribution. Legal aspects of information society policy will also be discussed. Requirements: Lectures, exercises and examination. Literature: Will be announced later Substitutive: Replaces former course T-76.753 Law in Network Society. Language: English
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T-76.5754 Law and Technology - book examination 1 P (3 cr) T-76.5758 Law and Technology - book examination 2 P (3 cr) I-IV, Autumn & Spring Lecturer: Prof. Juha Laine Contents: The object of the course is to get familiar with recent discourse of information society from legal point of view. Requirements: Arranged according to agreement. Literature: Choose two of the following three books (unless otherwise agreed) 1. Promises To Keep, William W. Fisher (2004) 2. Patent Failure: How Judges, Bureaucrats, and Lawyers Put Innovators at Risk, James Bessen & Michael J. Meurer (2008) 3. Legal Protection of Computer Software, David Bainbridge (5 edition, 2008) Substitutive: Replaces former course T-76.758 Law and Technology - book examination 2. Additional information: Can be taken in English upon request. Language: Finnish T-76.5759 Individual Studies P (3-12 cr) I-IV, Autumn & Spring Lecturer: Prof Juha Laine Contents: The content and the extent of the course are to be agreed with the teacher before commencement. Requirements: Sopimuksen mukaan. Substitutive: Replaces former course T-76.759 Individual Studies. Additional information: Can be taken in English upon request. The contents of the course vary. Language: Finnish T-76.5762 Legal Aspects of Service Management P (3 cr) I-II, Autumn Lecturer: prof. Juha Laine Contents: Digitalization has a deep impact on the designing and provision of both public and commercial services. During this course we discuss legal frameworks for information intensive services such as provision of digitalized content, transmission, hosting, search engines, digital marketing, software as service and ePayment services. Requirements: Lectures,examination and exercises. Literature: Announced later Prerequisites: None Substitutive: Replaces former course T-76.5752 Legal Aspects of Electronic Commerce 3 cr P Language: English T-76.5900 Software engineering learning portfolio (1 cr) Lecturer: Prof. Tomi Männistö Contents: Construction of a personal portfolio that describes the expertise in software engineering that you have acquired from courses and theses work. In addition,
a skills test, which is a whole-day event during which you get a chance to show off your skills in your selected area of expertise within software engineering. Requirements: Portfolio and skills test. Target group: The course is primarily targeted for software engineering major students. Additional information: Language: english, or as agreed. Details on prerequisites and completing the course will be described in the web pages of the course. Language: English T-76.7656 Doctoral Seminar P (3 cr) I-IV, Autumn & Spring Lecturer: Professor Tomi Männistö Contents: The seminar is intended for post graduate students. Requirements: Participation in seminars and seminar presentations. Substitutive: Replaces former course T-76.656 Research Seminar. Additional information: Can be taken in English upon request. Language: Finnish T-86.5141 Enterprise Systems Architecture (4 cr) I (Autumn) Lecturer: Timo Itälä, D.Sc. Paavo Kotinurmi, prof (pro tem) Matti Hämäläinen Contents: The course gives: - An overall understanding of the information systems of an enterprise and the practice of an enterprise architecture. - The different views of an enterprise architecture and methods in developing and implementing the architecture. - The core processes of an enterprise, such as product development, supply chain and customer relationship management and the supporting information systems. - Business processes, information and data, applications, infrastructure and Service-Oriented Architecture concepts. The literature and lectures contain both theory and relevant practical examples from different enterprises. Objective: The course gives basic understanding of Enterprise Information systems. This course is prerequisite for more advanced courses related to Enterprise Information Systems. Requirements: Examination, lecture assignments, and course feedback. Literature: Collection of articles and book extracts. Delivered as handouts or can be found on the Internet. See course web pages. Prerequisites: T-76.3601 and TU-22.1101. Also recommended: TU-22.1115 and T-76.4602. Web page: https://noppa.tkk.fi/noppa/kurssi/t-86.5141/ Additional information: Replaces former course T-86.141 Enterprise Systems Integration. Language: English T-86.5150 Special Assignment on Enterprise Information Systems P (3-10 cr) Agreed with the professor. Timing pretty flexible. Lecturer: prof. (pro tem) Matti Hämäläinen Contents: Independent essay on a chosen subject from
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the field of information technology. Requirements: Preparation of the essay. Additional information: Can be taken in English upon request. Replaces former course: T-86.150 Special Assignment in Information Technology, T-86.155 Individual Studies. The contents of the course vary. Language: Finnish T-86.5160 Special Topics in CIM I (5-10 cr) I-II, Autumn Lecturer: Prof (emeritus) Hans Andersin, Prof. (pro tem) Matti Hämäläinen Contents: One or more technical, strategic, methodological, or industrial topics is discussed and analysed in detail. Guest lecturers include experts in the fields and guests from industry. Requirements: Active participation in the seminar, presentation and written report. Literature: Agreed upon separately. Web page: https://noppa.tkk.fi/noppa/kurssi/t-86.5160/ Additional information: Replaces former course T-86.160 Special Topics in CIM I. Can be taken in English upon request. The contents of the course vary. Language: Swedish T-86.5161 Special Course in Information Systems Integration P (6-10 cr) Autumn (Period I-II) Lecturer: Paavo Kotinurmi Contents: The most important techniques and standards in information systems integration. Through the project, students get to know some current topic related to information systems integration in detail. They also get to practice scientific reporting and presenting their accomplishments to others. After this course, the students should be able to start e.g. their master’s thesis. The theme in fall 2008 course is business process integration. Objective: Familiarise students with current systems integration issues. Also how to write scientific reports. Requirements: Weekly assignments e.g. learning diary, participation in lectures, project and its reporting. Literature: Agreed separately. Prerequisites: T-86.5141 Web page: https://noppa.tkk.fi/noppa/kurssi/t-86.5161/ Additional information: Replaces former course T-86.161 Special Topics in CIM II, T-86.301 Project Course on ICT Enabled Commerce. Language: English T-86.5165 Seminar on Enterprise Information Systems P (3-8 cr) Spring IV Lecturer: Kari Hiekkanen, Paavo Kotinurmi Contents: One or more problem areas of Enterprise Information Systems is discussed and analysed in detail. Spring 2009 theme is Service Oriented Software Engineering. Objective: Get familiar with important topics related to Enterprise informations systems. Requirements: Participation in lectures, project and its reporting.
Literature: Agreed separately. Prerequisites: T-86.5141. Recommended also T-76.5150 and T-76.4602. Web page: See noppa portal for 2009. Course web page in 2008, see http://www.soberit.hut.fi/T-86/T-86.5165/ Additional information: The course web pages will contain the most up-to-date information. The contents of the course vary. Language: English T-86.5273 Implementing Service-Oriented Architectures (2-6 cr) Spring III Lecturer: Docent Juha Puustjärvi Contents: The principles and practice of service-oriented computing focusing on e-business standards and methods. Requirements: Final examination and assignment. Literature: To be announced later. Prerequisites: Knowledge of XML. Substitutive: Replaces the course T-76.5273 Seminar on Database Management Language: English. T-86.5310 ICT Enabled Service Business and Innovation (4-6 cr) IV (Spring) Lecturer: prof. (pro tem) Matti Hämäläinen, prof. Juha Laine and researcher Mikko Heiskala Contents: While ICT is a tool for increasing productivity, it also is an important enabler for services innovation. The applications range from adding service elements to industrial products to creating new service concepts based on today’s interconnected, digital and globally networked environment. By taking a “Service Engineering” view point the course focuses on issues in designing, developing and managing services. These will be illustrated by actual cases from the industry and the public sector that are presented by Finnish and international experts from the industry and research organizations. The course is open for all students, including outside the Helsinki University of Technology Objective: The aim of this course is to provide a good basis for understanding services business and the role of ICT in it. The course will address the timely issues in services innovation in a variety of services sectors, including industrial services, banking and insurance services, consumer services and the public sector. By taking a “Services Design and Engineering” viewpoint the course will focus on issues in designing, developing and managing services. Requirements: Participation in lectures, assignment and its reporting, exam. Evaluation: Exam and assignment form the grade. Literature: See course web pages. Prerequisites: Basic knowledge of IT business and information systems concepts is preferable. Substitutive: Replaces course T-86.5300 Information and Communication Technology Enabled Commerce (ICTEC). Language: English
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T-86.5750 Seminar on Venturing in Digital Economy P (3 cr) III, Spring Lecturer: prof.(pro tem) Matti Hämäläinen Contents: Focuses on timely topics in digital economy like virtual economies and computer mediated communities. Requirements: Participation in lectures, project and its reporting. Literature: Will be announced later. Additional information: Replaces former course T-86.750 Seminar on Venturing in Digital Economy. The contents of the course vary. Language: English T-93.4400 Introduction to Artificial Intelligence (5 cr) 40 + 10 (6 + 2) III (Spring) Lecturer: Prof Markku Syrjänen Contents: Basics of problem solving in artificial intelligence. Problem solving based on heuristic search in a state-space. Knowledge representation. Planning. Requirements: Final examination and programming assignment. Literature: Russel S. & Norvig P.: Artificial Intelligence A Modern Approach, Second Edition, Prentice Hall, 2003. Prerequisites: T-79.3001/T-79.144, T-106.4100/T106.410, and T-106.3101/T-106.3100/T-106.237 Substitutive: Replaces the course T-93.440 Introduction to Knowledge Engineering. Additional information: Can be taken in English upon request. Language: Finnish T-93.5500 Logic and Constraint Programming (5 cr) 24 + 8 (4 + 2) I (Autumn) Lecturer: Risto Lahdelma, visiting senior lecturer Contents: Basics of logic and constraint programming, Prolog-programming methodology and applications. Objective: Understanding the logic and constraint logic programming methodology, learning to program in Prolog. Requirements: Final examination and a compulsory programming assignment. Literature: Leon Sterling, Ehud Shapiro: The Art of Prolog. Prerequisites: T-79.3001/T-79.144, T-106.4100/T106.410, and T-106.3100/T-106.237. Substitutive: Replaces the course T-93.540 Logic Programming. Additional information: Assignments can also be done in English. Can be taken in English upon request. Language: Finnish T-93.5700 Project in Artificial Intelligence (5-12 cr) Autumn & Spring Lecturer: N.N. Contents: A learning project on a separately agreed technical topic in the area of knowledge engineering. The topic should include both learning goals and
constructive work. Requirements: Project is done in a group of 3 to 4 students. The group completes a common project work aimed at learning a particular topic and whose results are documented in a set of technical/scientific reports. In addition, each member of a group prepares a personal learning portfolio about his or her work and studying. Prerequisites: Bachelor degree and preferably also courses from module A3. Substitutive: Replaces the course T-93.720. Additional information: The course is intended only for students studying Programming languages A3 -module. On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-93.5800 Seminar on Artificial Intelligence P (3-10 cr) Lecturer: Prof Markku Syrjänen Contents: The contents of this course vary. Lectured according to agreement. Substitutive: Replaces the course T-93.850. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-93.6100 Supplementary Course (1-8 cr) Lecturer: Prof Markku Syrjänen Contents: The contents and extent of the course must be discussed with the teacher. The course is intended for situations, for example, when a student has transferred to Helsinki University of Technology from some other university. Requirements: Autumn & Spring Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. More information from the WWW page https://noppa.tkk.fi/noppa/kurssi/t-93.6100. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-93.6200 Special Course on Artificial Intelligence P (1-8 cr) 27 + 0 (2 + 0) I-II (Autumn) Lecturer: Prof Markku Syrjänen Contents: The course treats special topics in Artificial Intelligence. The contents of the course vary yearly, and the course is lectured only according to agreement. Prerequisites: T-93.4400/T-93.440. Substitutive: Replaces the course T-93.810. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish T-93.6300 Special Assignment in Artificial Intelligence P (5-8 cr)
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I-II Autumn & III-IV Spring Lecturer: Prof Markku Syrjänen Contents: Independent scientific essay on an assigned problem from the field of Artificial Intelligence. Requirements: Essay. Prerequisites: Courses of module T222-3. Substitutive: Replaces the course T-93.830. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish
T-93.6400 Individual Studies P (1-15 cr) Lecturer: Prof Markku Syrjänen Contents: The contents and extent of the course are to be agreed with the professor before commencing the course. Substitutive: Replaces the course T-93.870. Additional information: On this course the grade ‘pass’ can be given for accepted study attainments. Can be taken in English upon request. The contents of the course vary. Language: Finnish TIK.kand Bachelor’s Thesis and Seminar (10 cr)
Department of Industrial Engineering and Management TU-0.1111 Orientation Course for Studies in Industrial Engineering and Management (1 cr) TU-0.2000 Industrial management research methods (5 cr) Autumn Lecturer: Eero Eloranta, Eila Järvenpää, Eerikki Mäki, Stina Immonen, Pasi Kuusela Contents: The course deals with planning of research, and typical research approaches and methods used in industrial engineering and management. In the course, an empirical study is designed, and conducted as a group assignment. The course prepares the students for conducting scientific research (e.g. Master’s thesis). Objective: The goal is to learn how to conduct empirical scientific research. Requirements: Lectures, seminars, exam Target group: The course is for Industrial Engineering and Management students, students in Information Networks study program, and students doing their Master’s thesis in Minor in Industrial Engineering and Management. Literature: Readings announced at the course web site Prerequisites: Bachelor´s Seminar Language: English TU-0.2100 Qualitative Research Methods (5 cr) TU-0.3000 Research Methods in Industrial Management I (for postgraduate students) P (5 cr) I-II Lecturer: Satu Teerikangas, guest lecturers Contents: The course serves as an introductory course to research methods in industrial management and to successfully carrying out one’s PhD dissertation. The course is designed to assist the student in making sense of four key questions concerning the methodology of a successful PhD dissertation: 1) What constitutes a good research problem; 2) what are the criteria for scientific knowledge, fit to be used in solving one’s research problem; 3) what kinds of research designs can be used to produce such knowledge; and 4) how to report findings in order to make a scientific contribution. Objective: To introduce incoming PhD students to
research methods in industrial management Requirements: Pre-course and post-course essays, lecture attendance, pre-lecture assignments. The course is compulsory for PhD students in Industrial Engineering and Management at TKK. Course attendance is restricted to Industrial Engineering and Management PhD students. Literature: Readings announced on the course web site Prerequisites: Master’s degree. Substitutive: Replaces the courses TU-53.1401, TU53.401, TU-22.191, TU-22.1191, TU-91.3001 Language: English TU-0.3100 Introduction to the philosophy of science P (3 cr) TU-117.1309 International Marketing Strategy (3 cr) TU-117.1312 Europeanness, and the European Union as an Operating Environment (1-3 cr) TU-117.1502 Entrepreneurship in High Technology Enterprises P (4-6 cr) TU-117.1503 Special Assignment on Development and Management in Industry P (5 cr) I-II, not lectured 2008-2009 Contents: An independently executed but supervised special assignment on a specific topic relating to development and management in industry. The topic and the working method are to be agreed upon separately before the starting of the special assignment. Requirements: Autumn, not lectured 2008-2009 Prerequisites: TU-22.101; other ways of meeting the prerequisites can be discussed with the course instructor. Additional information: Language: Finnish or English TU-117.1506 Seminar on Development and Management in Industry P (5 cr) TU-117.1509 Master’s Thesis Seminar on Development and Management in Industry (2 cr) Autumn, not lectured 2008-2009 Contents: In the course, the students are supervised in
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the preparation of their Master’s theses. Requirements: During the academic year, each student presents his or her Master’s thesis in progress and comments on the theses of the other students. Additional information: Language: Finnish or English TU-117.1512 Varying Course on Development and Management in Industry P (1-6 cr) Autumn, not lectured 2008-2009 Contents: The course introduces the students to important questions on development and management in industry through topics and work methods that vary from year to year. Requirements: An examination and or seminar work, depending on the Contents of the course at the given time. Literature: Will be announced in class. Additional information: Language: Finnish or English TU-117.1550 Competitiveness of industrial enterprise (5 cr) Spring, not lectured 2008-2009 Contents: the objectives of the course are to provide participants with the understanding on factors affecting competitiveness of industrial enterprise and to provide tools for improving competitiveness.In addition to theoretical frameworks, learning based on the participant´s own experience is emphasized. Requirements: Attendance at the lectures, an excersise and examination. Literature: Will be announced in the class Additional information: Language: English or Finnish TU-117.1603 Workshop on Development and Management in Industry P (1-9 cr) Not lectured 2008-2009 Lecturer: Ilkka Kauranen Contents: The aim is to provide an overview of research in the field of development and management in industy. Reading and presenting articles published in leading journals of the field. Requirements: Presentations of scientific articles, active participation in the seminar sessions and discussions. Additional information: Language: English or Finnish TU-117.1606 Research Seminar on Development and Management in Industry P (1-10 cr) Not lectured 2008-2009 Lecturer: Ilkka Kauranen Contents: To introduce a scientific way of thinking, to discuss important scientific approaches and scientific research methods, to analyze doctoral dissertations in the field of development and management in industry, and to help the participants in preparing their own licentiate theses or doctoral dissertations. Requirements: Attendance at seminar sessions, formulating and presenting a plan for one’s own licentiate thesis or doctoral dissertation, analyzing and presenting doctoral dissertations, and acting as the commentator for seminar presentations. Literature: Giere, Understanding Scientific Reasoning,
second edition, Holt, Rinehart and Winston, Inc 1984; other literature to be announced at the seminar sessions. Additional information: Language: English or Finnish TU-117.1609 Strategic Management of Technology P (2 cr) Not lectured 2008-2009 Lecturer: Nomen Nescitur and Ilkka Kauranen Contents: The role of technology in economic development and corporations. How technology can be managed to create competitive advantage at firm level. The problems faced in implementing the process of technology transfer. Requirements: Lectures, written assignments, examination. Literature: Books and scientific articles required for the examination announced during the lectures. Additional information: Language: English TU-117.1613 Cross-Cultural Business P (5 cr) Not lectured 2008-2009 Lecturer: Nomen Nescitur and Ilkka Kauranen Contents: The course will familiarise the students with the theoretical background and context of cross-cultural management, general and international context as well as with applications in the work environment. Attention will be paid to the strategic issues related to cross-cultural management at the level of a firm. Requirements: Lectures, written assignment, examination. Literature: Books and scientific articles required for the examination announced during the lectures. Additional information: Language: English TU-117.1700 Language Exercise on Development and Management in Industry; First Foreign Laguage (2 cr) TU-117.1701 Language Exercise on Development and Management in Industry; Second Foreign Laguage (2 cr) TU-117.1702 Language Exercise on Development and Management in Industry; Third Foreign Laguage (2 cr) TU-22.1101 Introduction to Industrial Management and Engineering (4 cr) Autumn + Spring Lecturer: Tomi Laamanen Contents: Operations of an industrial enterprise. Finance, production and logistics, marketing, management of an organisation, quality management; financial calculations and their applications. Objective: The objective of the course is to teach basics of the management of an industrial enterprise and different areas of industrial management and engineering with relevant concepts, managerial approaches, and methods. Requirements: Examination. Literature: To be announced separately. Substitutive: Replaces the course TU-22.101.
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Additional information: Exam can be taken in English; please contact course assistant. Language: Finnish. TU-22.1102 Introduction to Industrial Management and Engineering, Swedish (4-5 cr) TU-22.1103 Excersice Industrial Management and Engineering (1 cr) Autumn (Period II) + Spring (Period IV) Lecturer: Tomi Laamanen Contents: Operations of an industrial enterprise. Finance, production and logistics, marketing, management of an organisation, quality management; financial calculations and their applications. Objective: The objective of the course is to teach application of issues learnt in the introduction to industrial management and engineering through analyzing an industrial firm and its activities Requirements: Exercise Literature: To be announced separately. Additional information: Exercise/report can be written in English; please contact course assistant. Language: Finnish. TU-22.1113 Design of Production Systems A (6 cr) Autumn (Period I-II) Lecturer: Eero Eloranta Contents: Operations strategy, service operations, process choices and production layout, production control,interfaces to supply chain management. Objective: To elaborate the concepts and theories that aim to explain and predict the design and operation of production systems from strategy level down to daily performance. Further objective is to apply the acquired theoretical and conceptual knowledge in practice for hands-on skills through case studies and a practical assignments. Requirements: Examination, case studies, assignment. Target group: This course is only for the students majoring in the Department of Industrial Engineering and Management at HUT. For other students, the course TU-22.1115 is offered. Literature: Stevenson, William J.: Operations Management. McGraw-Hill. 9th Edition. Lecture handouts. Prerequisites: TU-22.1101 or TU-22.1102, it is not recommended to take this course before the 3rd year of studies because of the practical assignment. Substitutive: Replaces the course TU-22.113 Language: English TU-22.1115 Design of Production Systems B (4 cr) Autumn (Period I-II) Lecturer: Eero Eloranta Contents: Operations strategy, service operations, process choices and production layout, production control, interfaces to supply chain management. Objective: To elaborate the concepts and theories that aim to explain and predict the design and operation of production systems from strategy level down to daily
performance. Further objective is to apply the acquired theoretical and conceptual knowledge in practice for hands-on skills through case studies and a practical assignments. Requirements: Examination, assignment. Literature: Stevenson, William J.: Operations Management. McGraw-Hill. 9th Edition. Lecture handouts. Prerequisites: TU-22.1101 or TU-22.1102, it is not recommended to take this course before the 3rd year of studies because of the assignment. Substitutive: Replaces the course TU-22.115 Language: English TU-22.1118 Quantitative Methods in Industrial Management (5 cr) Spring Lecturer: Juha-Matti Lehtonen Contents: Controllability analysis for industrial enterprises. Decision making. Simulation and optimation and their applications. Objective: The student will learn modelling and analysis methods for the use in the field of industrial management. Requirements: Examination, lectures, assignment, and computer exercises. Target group: The course is meant primarily for students with industrial management as their major subject and who do not study Systems and Operations Research as their minor subject. Literature: To be announced separately. Substitutive: Replaces course TU-22.118 Additional information: Examination and assignments can be taken in English; please contact course assistant. Language: Finnish TU-22.1120 Introduction to Project Management (3 cr) Spring Lecturer: Karlos Artto Contents: Project management concepts, practices and tools. Project planning and control, projects in organisations, multi-project situations, project-oriented business of a project organisation. Knowledge areas, practices and applications of project management. Objective: The objective of the course is to teach concepts, approaches, and methods of project business and project management. Requirements: Examination, exercises. Literature: To be announced separately. Prerequisites: TU-22.1101 or TU-22.1102 Substitutive: Replaces the course TU-22.120 Additional information: Can be taken in English; please contact course assistant. Language: Finnish TU-22.1130 Accounting and Profitability (3-4 cr) TU-22.1135 Cost Management in Paper Industries (3 cr) Autumn (Period I-II)
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Lecturer: John Fogelholm, senior lecturer D.Sc.(Tech.), Ph.D. Contents: Development and implementation of accurate costing models, budgeting and investments in paper mills, performance measurements and benchmarking. How to utilize productivity and profitability information in the daily activities in paper mills. Objective: To understand the basics for productivity and profitability steering in paper mills. Requirements: Examination, attendance at lectures. Literature: John Fogelholm: Paper millwide Profitability and Productivity Management, 2005 Edition Substitutive: Replaces the course TU-22.135 Language: English TU-22.1140 Advanced Management Accounting (5 cr) Spring (Period III) Lecturer: Jouko Karjalainen Contents: Cost behaviour, financial statements, comprehensive performance measurement and investments are topics revisited more theoretically and in more detail than in the course “Accounting and Profitability”. The course is intended only for the students of Industrial Engineering and Management (Master´s programme). Objective: Students should learn how to apply management accounting systems in different planning and decision-making situations. Requirements: Examination and assignments. Literature: To be announced separately Prerequisites: TU-22.1130/TU-22.130 Substitutive: Replaces the course TU-22.140 Additional information: Number of students can be limited. Language: English TU-22.1144 Corporate Finance (3 cr) Spring (Period III) Lecturer: Jouko Karjalainen Contents: Present value, investments, financial instruments, markets and planning, company valuation. Objective: Students should learn to know the basic concepts of finance, prepare basic calculations and understand how financial leverage affects value. Requirements: Examination and exercises. Literature: Announced in the course brochure. Prerequisites: TU-22.1101/TU-22.1102, TU-22.1130 Substitutive: Replaces the course TU-22.144 Additional information: Possible to study in English. Students are assumed to know the basics of applied probability. Language: Finnish TU-22.1149 Characteristics of Different Industries (2 cr) TU-22.1155 Individual Assignment in Industrial Management (5 cr) Autumn + Spring Lecturer: Kari Tanskanen, Karlos Artto, Eero Eloranta, Jouko Karjalainen, Paul Lillrank
Contents: Determined by individually defined subject. Objective: Varies. Requirements: Progress of individual assignments is followed in seminar sessions. Course is meant for industrial management major students and students in the industrial engineering and management degree program. Prerequisites: TU-22.1118 or TU-22.1130 and TU22.1140 and two of the following courses: TU-22.1176, TU-22.1206, or TU-22.1213 or two of the following: TU22.1426, TU-22.1441, TU-22.1423. Substitutive: Replaces the course TU-22.155 Additional information: Can be taken in English; please contact course assistant. Language: Finnish. TU-22.1160 Business Game (1-2 cr) Spring Lecturer: Jouko Karjalainen Contents: The course gives an aggregate view of business and financial planning. In the simulated business environment, students learn by doing how different decisions concerning products, production and marketing affect the financial success of a company and how competition complicates planning. Objective: Students should improve their skills in decision-making and understanding of financial information. Requirements: Students form a management team for a company and compete against other companies in a simulated environment. Approved game performance. Extended report of the game performance required for 2 credits. Prerequisites: TU-22.1101, TU-22.1130, TU22.1113/1115/1202 Substitutive: Replaces the course TU-22.160 Language: English TU-22.1177 Practical course in ERP and APS software (5 cr) TU-22.1179 Production Planning and Control (5 cr) Spring (Period III) Lecturer: Jussi Heikkilä Contents: Demand management, sales and operations planning, master production scheduling. Independent and dependent inventory management, material and distribution requirements planning, JIT. Capacity management and production activity control. Strategy, integrated ERP systems and supply chain management. Objective: The course objective is to provide students a good understanding and capabilities to work in production planning and control, and operations system development. Requirements: Final exam and computer simulation assignments. Target group: The course is meant primarily for students in the IEM department and those having industrial management as a minor subject. Literature: Thomas E. Vollmann [et al.]:Manufacturing Planning and Control for Supply Chain Management,
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McGraw-Hill, 5th international edition (2005). Prerequisites: TU-22.1113 or TU-22.1115 Substitutive: Replaces the course TU-22.1178 Language: English TU-22.1185 Industrial Management, Special Topics (1-10 cr) TU-22.1193 Research Methods in Industrial Management II (for postgraduate students) P (5 cr) I-IV Lecturer: Professors Contents: Review of earlier PhD theses to develop capabilities for assessing scientific work. Getting acquainted with the scientific body of knowledge in participants’ research domain. Preparation, sharing and review of the research plans of all participants. Assessment of available methodological alternatives to one’s research and justified rationale for methodology choice. Acting as opponent to another student’s research plan. Discussion and debate in a scientific research community. Objective: The purpose is to develop participants’ understanding on the requirements of the doctoral dissertation, and support and guide doctoral students in initiating and developing their thesis topics. Requirements: Attendance at seminar sessions, assignments, seminar presentations, readings. Literature: To be announced separately. Prerequisites: TU-22.1191/TU-22.191 Language: English TU-22.1194 Studies in Supplementary Field, short version P (10 cr) Lecturer: Virpi Turkulainen, Researcher Contents: Intended for doctoral students who wish to take the short version of Industrial Management as studies in supplementary fields (10 cr). Topic areas include operations, industrial management, and technology and innovation. Requirements: Written examinations; see course Web page for details Literature: See course Web page for details on Contents: http:// users.tkk.fi/~vturkula/PGMIM/ Prerequisites: Prerequisite essay; see course Web page for details. Language: English TU-22.1195 Studies in Supplementary Field; Industrial Management L (20 cr) Lecturer: Virpi Turkulainen, Researcher Contents: Topic areas include operations, industrial management, and technology and innovation. Objective: Intended for doctoral students who wish to take Industrial Management as studies in supplementary fields. Requirements: Written examinations; see course Web page for details. Literature: See course Web page for details on Contents: http://users.tkk.fi/~vturkula/PGMIM/ Prerequisites: Prerequisite essay; see course Web page for
details Language: Finnish or English, although all course material is in English. TU-22.1196 Advanced Organization Theory (for postgraduate students) L (5 cr) Autumn Lecturer: Mikko Ketokivi, with visiting lecturers Contents: An in-depth look at selected theoretical perspectives to organizational phenomena. Topics covered include theory of the firm, organization economics, contingency theory, institutionalism, power and politics, decision-making, social constructivism, critical and postmodern approaches to organization studies. Objective: The goal is to develop a doctoral-level understanding of the most widely used theoretical approaches to the study of organizations. Requirements: Seminars, assignment. See www.ketokivi.fi (teaching-link) for details. Literature: To be announced separately. See www.ketokivi.fi (teaching-link) for details. Prerequisites: TU-53.1164, or an equivalent Master’s level course in organization theory Language: English (default) or Finnish TU-22.1197 Statistical Research Methods I (for postgraduate students) L (3 cr) I-II Lecturer: Mikko Ketokivi Contents: Research applications of regression analysis, factor analysis, structural equation modeling. Objective: The goal is to develop an understanding of how multivariate statistical methods are used in management research. Requirements: Seminars, assignment. See www.ketokivi.fi (teaching-link) for details. Literature: To be announced separately. See www.ketokivi.fi (teaching-link) for details. Prerequisites: Master’s level course in both theoretical and applied statistics. Language: English (default) or Finnish TU-22.1198 Statistical Research Methods II (for postgraduate students) L (2 cr) I-II Lecturer: Mikko Ketokivi Contents: Content may vary from year to year, but evolves around hands-on exercises and computer applications of regression analysis, factor analysis, and structural equation modeling. Objective: The goal is to lean how to perform multivariate statistical analyses using statistical software such as SPSS and AMOS. Requirements: Seminars, computer labs, assignment. See www.ketokivi.fi (teaching-link) for details. Literature: To be announced separately. See www.ketokivi.fi (teaching-link) for details. Prerequisites: TU-22.1197; Master’s level course in both theoretical and applied statistics. Additional information: Language: English
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Language: English (default) or Finnish TU-22.1202 Logistics (3 cr) TU-22.1206 Supply Management (5 cr) TU-22.1214 Demand-Supply Network Management P (5 cr) Spring (Period IV) Lecturer: Eero Eloranta Contents: Analyzing and improving the supply and demand chains, supply chain dynamics, supply chain management, its standards and techniques like VMI and collaboration in the chains as well as service supply chain. Objective: The objective of the course is to familiarize the participants with the principles and methods of integrating demand chain management with supply chain management in the contemporary network oriented business system environment. Requirements: Examination, lectures and assignments. Literature: Hoover, Eloranta, Holmström, Huttunen: Managing the Demand-Supply Chain: Value Innovations for Customer Satisfaction, Wiley 2001. Handouts. Prerequisites: TU-22.1202 Substitutive: Replaces the course TU-22.1213 Additional information: It is possible to do an additional assignment (typically 3 credits, code TU-22.C) upon agreement. For more information, please contact course assistant. Language: English TU-22.1302 Quality Management (3 cr) Autumn (Period I) Lecturer: Paul Lillrank Contents: Topics are: quality engineering, statistical process control (SPC), quality requirements definition, quality economics, quality systems. Objective: The course provides an introduction to the theoretically grounded practice of quality management. Requirements: Examination based on the lectures. Participation in the lectures is highly recommended but not compulsory. Literature: Oakland, John S.: Statistical Process Control. Butterworth-Heineman, 2004 (earlier editions acceptable), lecture notes Prerequisites: TU-22.1101 or TU-22.1102 or equivalent Substitutive: Replaces the course TU-22.302 Language: English TU-22.1307 Introduction to Services P (4 cr) II Lecturer: Paul Lillrank Contents: Service systems and processes are discussed in terms of modelling, analysis, and management. Service business and revenue models are included. Objective: The course provides an introduction to service production systems. Requirements: Short examination based on the lectures and the reading package. The examination will be held
during some of the lectures. Active participation in the seminar sessions. Students should prepare a learning diary or other written summary of what they perceive as the core issues learned. Prerequisites: TU-22.1101 or TU-22.1102 and TU22.1302. Substitutive: Replaces the course TU-22.306 and TU22.1306 Language: English TU-22.1425 Advanced Project-based Management P (3 cr) Autumn Lecturer: Karlos Artto and Kirsi Eloranta Contents: Application of project management procedures and methodologies in organizations. Processes and their management in professional organizations. Project-based firm’s business and project portfolio management. Focus is on deepening the practical application aspect of project-based management.Different project types and industry specific approaches and applications. Objective: The objective of the course is to deepen knowledge in the practical application aspect of projectbased management and to increase understanding of different management processes in projects and in project-based firms. Requirements: Assignments and examination Literature: To be announced separately. Prerequisites: TU-22.1120 Substitutive: Replaces the course TU-22.425 Language: English TU-22.1426 Advanced Project-based Management II L (5 cr) Autumn Lecturer: Karlos Artto and Kirsi Eloranta Contents: Application of project management procedures and methodologies in organizations. Processes and their management in professional organizations. Project-based firm’s business and project portfolio management Focus is on deepening the practical application aspect of project-based management. Different project types and industry specific approaches and applications. Management areas in the project business framework: management of project, management of project-based firm, management of project network, and management of business network. Objective: The objective of the course is to deepen knowledge in the practical application aspect of projectbased management and to increase understanding of different management processes in projects and in project-based firms, with a project business perspective. Requirements: Assignments, examination and workshops Target group: The course is primarily intended for students having their major or minor subject in the Department of Industrial Engineering and Management. Literature: To be announced separately Prerequisites: TU-22.1120 Substitutive: Replaces the course TU-22.426
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Language: English
Language: English
TU-22.1432 Management of Uncertainty L (5 cr) Spring Lecturer: Kalle Kähkönen, Karlos Artto, Jouko Karjalainen Contents: The course reviews uncertainty sources and uncertainty phenomena in project-based business. New emerging knowledge is covered by expanding traditional project risk management discipline towards more holistic and situation specific managerial solutions. The starting point is to investigate risk management of a single project and then to expand this view to cover project portfolios and finally to explore management of uncertainty in a company level within project-based business. Other key aspects to be covered are the differences between various main project types (e.g. investment projects, industrial delivery projects, R&D projects) regarding management of uncertainty. The course also includes a group work assignment reflecting strategic decision making situation in modern project business. Objective: The objective is to provide capabilities for students to apply knowledge concerning risk management in real life projects. Requirements: Examination and course assignment. Literature: To be announced separately. Prerequisites: TU-22.1425/1426, TU-22.1144 Substitutive: Replaces the course TU-22.432 Additional information: The number of students can be limited. Language: English
TU-22.1440 Project Marketing and Customer Management (3 cr) Autumn Lecturer: Tuomas Ahola, Jaakko Kujala Contents: The course discusses the project sales and marketing process. The concepts of project business model, market as milieus, customer relationship management, value networks, project marketing logic, project negotiations and contracts are included. Creating and managing project networks, relationship management and buying and selling in different industries with regard to cultural contexts are discussed. Empirical cases highlight current practices related to these areas. Objective: The objective of the course is to provide understanding of knowledge areas and practices in project sales and marketing. Requirements: Examination Target group: This course is only for the students minoring in the Department of Industrial Engineering and Management at Helsinki University of Technology. Literature: Cova, Ghauri & Salle 2002: Project Marketing, reading package and lecture handouts. Prerequisites: TU-22.1120/TU-22.120, TU-22.1130/TU22.130 and TU-22.1302/TU-22.302. Language: English
TU-22.1439 Project Finance L (6 cr) Spring Lecturer: Nomi Ahmad, Joni Kokkonen and visiting lecturers Contents: Project finance is applied field of finance, which is especially important in financing large projects and foreign trade with emerging market countries. Topics covered are concepts of project finance, assessing corporate creditworthiness, basic concepts of trade finance, theories of trade credit, analysis of political risk, allocating project risks, role of development finance corporations and export credit agencies in foreign trade, legal aspects of project finance, and analysis of project viability. The course is run as a cross-university collaboration course with the primary responsibility of the course and premises provided by Helsinki School of Economics (HSE). Objective: The aim of the course is to introduce basic principles of the project and trade finance area and to further develop analytic skills by solving and presenting real-life cases. Requirements: Examination and case assignment. Literature: (tentative): John D. Finnerty, Project Financing, Asset-Based Financial Engineering. John Wiley&Sons, Inc., New York, 1996, reading package Prerequisites: TU-22.1120, TU-22.1144 Substitutive: Replaces the course TU-22.439 Additional information: The number of students can be limited
TU-22.1441 Project Marketing and Customer Management II P (5 cr) Autumn Lecturer: Jaakko Kujala, Tuomas Ahola Contents: The course discusses the project sales and marketing process. The concepts of project business model, market as milieus, customer relationship management, value networks, project marketing logic, project negotiations and contracts are included. Creating and managing project networks, relationship management and buying and selling in different industries with regard to cultural contexts are discussed. Empirical cases highlight current practices related to these areas. Objective: The objective of the course is to develop an in-depth understanding of the knowledge areas and processes vital to project sales and marketing. Application of knowledge to practice is emphasized. Requirements: Examination or learning journal. Exercise work. Target group: This course is only for the students majoring in the Department of Industrial Engineering and Management at Helsinki University of Technology. Literature: Cova, Ghauri&Salle 2002: Project Marketing, reading package and lecture handouts. Prerequisites: TU-22.1120/TU-22.120, TU-22.1130/TU22.130 and TU-22.1302/TU-22.302 Language: English TU-22.2600 Information Networks: Studio 3 (4 cr) TU-53.1010 Basics of Work Psychology and
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Leadership (4 cr) Autumn + Spring (Course is lectured in English during Autumn term, in Finnish during Spring term) Lecturer: Paul Buhanist Contents: The course introduces central themes of work psychology and leadership, such as work motivation, leadership, organisation development and change management, teams, learning, communication, organisation structures and processes, etc. The goal is to understand the importance of human action as a success factor of companies. Requirements: Essays and examination. Literature: Huzynski, A. & Buchanan, D. (2004, 5th ed., or 2007, 6th ed.) Organisational behaviour: an introductory text. Prentice-Hall. Substitutive: Replaces courses: TU-53.1100 and TU53.100, TU-53.102, TU-53.300. Language: Course is lectured in English during Autumn term, in Finnish during Spring term TU-53.1020 Leadership in Organizations (3 cr) Autumn Lecturer: Paul Buhanist Contents: The course highlights the importance of leadership for organizational success both from economical and human viewpoints. On the course leadership is considered as interaction influencing the actions of an individual, team and organisation. Development of leadership conceptions, focusing especially on the importance of leadership in today’s dispersed and expert organizations. Requirements: Case assignment, examination. Literature: Will be announced during the lectures. Substitutive: Replaces the course TU-53.1140 and TU53.140. Additional information: Can be taken in English; please see the course web site. Language: Finnish TU-53.1030 Knowledge and competence management (3 cr) Autumn (Period I-II) Lecturer: Eila Järvenpää, Eerikki Mäki and Matti Vartiainen Contents: The course introduces concepts of different types of knowledge (e.g., tacit and explicit) and intangible capital (e.g., human and intellectual, structural and social capitals) that are essential resources for knowledge-intensive organizations. The course discusses how organizations apply organizational practices and technological tools for sharing and creating knowledge and competences, and for utilizing their intangible resources. Objective: The goal of the course is to provide the participants with theoretical and practical understanding and knowledge of knowledge, knowledge management and management of competences in organizations. After the course students are expected to understand challenges of managing knowledge and competences as well as how knowledge-intensive organizations operate with their knowledge assets, the different types of
intangible capital, and how knowledge and competences can be managed and developed in such organizations. The participants learn to understand how intangible capital can be developed in organizations. Requirements: Exam. Literature: Jashapara, A. (2004) Knowledge management: An integrated approach. Essex: Pearson Education Limited. Selected articles. Additional material will be announced when the course starts. Substitutive: Replaces courses TU-53.1105, TU-53.1106, TU-53.251 and TU-53.301. Language: English TU-53.1150 Philosophy and Systems Thinking P (3 cr) TU-53.1160 Seminar on Creative Problem Solving P (6-8 cr) TU-53.1210 Organization Development P (4 cr) Spring Lecturer: Paul Buhanist, Leena Seppänen and Jouni Virtaharju Contents: How organizations change and how can they be developed? What kind of phenomena emerge in change projects? What kind of theoretical models for organizational change have been presented? What are the actions of the organizational change agent? Consultative action research and process consultation approaches. Requirements: Case assignments, home essays and interview report. Literature: Schein, E.(1999) Process Consultation Revisited, other literature will be announced in the beginning of the course. Prerequisites: TU-53.1010, TU-53.1020 Substitutive: Replaces the course TU-53.1155 and TU53.155. Additional information: Can be taken in English, see course web site. Language: Finnish TU-53.1220 Advanced course on leadership P (4 cr) TU-53.1230 Personal Leadership (3 cr) TU-53.1240 Introduction to the Dynamics of Cooperation (3 cr) TU-53.1242 Collaborative expert and consulting work (3 cr) TU-53.1244 Dialogical methods in expert and consulting work P (3 cr) TU-53.1246 Team dynamics and expert work P (4 cr) TU-53.1250 Well-being and Stress in Work Organizations P (3 cr) Spring Lecturer: Tanja Mattila Contents: Concepts, research and control of well-being,
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work¬load and stress. Prevention of negative stress and development of well-being in work organizations. Requirements: Examination and essay. Literature: Sutherland, Valerie J. & Cooper, Cary L. (2000): Strategic Stress Management - an organizational approach. UK: Macmillan Press. ISBN 0-333-77487-6. and Cooper, Cary L. (1998): Theories of Organizational Stress. Oxford: Oxford UP. ISBN 0-19-852279-7. Prerequisites: TU-53.1010 Substitutive: Replaces the course TU-53.1163 and TU53.163. Additional information: Can be taken in English; please contact the lecturer. Language: Finnish TU-53.1260 Reward System in Organizations P (5 cr) TU-53.1275 The Finnish Labour Market and its Mechanisms (3 cr) TU-53.1280 Organization Theory P (3 cr) Spring Lecturer: Jouni Virtaharju and Jouni Sipponen Contents: Different perspectives of organization theory. Theorizing in organization studies. Requirements: Lectures and essays. Literature: Hatch, M.J. & Cunliffe, A. (2006) Organization theory and several theme articles that are announced at the beginning of the course. Prerequisites: TU-53.1010, TU-53.1020 and TU-53.1030 (or TU-0.3000 Research methods in Industrial Management I) Substitutive: Replaces the course TU-53.1164 and TU53.164. Additional information: Can be taken in English; please contact the lecturers. Course serves both graduate and post-graduate students. Language: Finnish TU-53.1310 Advanced course on knowledge and competence management P (4 cr) Spring (Period III-IV) Lecturer: Eila Järvenpää, Eerikki Mäki and Matti Vartiainen Contents: Course content includes different knowledge management approaches and knowledge management strategies, knowledge processes, competence development, social networks, and interorganizational collaboration. Objective: The goal is to gain comprehensive understanding on selected areas on knowledge management and/or competence management. After the course students are expected to be able to elaborate how different kinds of knowledge management approaches and knowledge management strategies support knowledge exploitation and exploration in different kinds of organizations. Requirements: Term papers. Literature: Will be announced on course www-page. Prerequisites: TU-53.1030 Substitutive: Replaces courses: TU-53.1200, TU-53.252,
TU-53.306. Language: English TU-53.1320 Organizations and Networks P (4 cr) Spring (Period III) Lecturer: Eila Järvenpää Contents: The goal of the course is to provide the participants with an understanding about new organizational structures, different kinds of social and organizational networks, and their benefits and challenges. Concept, definitions and models of organizations, new organizational structures, and social, inter- and intra-organizational networks are discussed. Requirements: Lecture assignments, essay. Literature: Will be announced on course www-page. Substitutive: Replaces the course TU-53.1308 and TU53.308. Language: English TU-53.1330 Learning and Learning Environments P (3-6 cr) Spring Lecturer: Matti Vartiainen and visiting lecturers. Contents: A) Bases of learning and learning environments. Individual and group learning. Learning and learning environment approaches and theories. Learning environments’ psychological and pedagogical content. Social and technological support of learning. Learning environment technology, design and evaluation. Learning effects. (3 cr). B) Learning environments in practice. Technology and design. Evaluation from the viewpoints of pedagogical content, learning effects and usability. (3 cr). Requirements: (a) and (b) will be carried out simultaneously. Lectures, term paper, exercises, portfolio, excursions. Literature: Will be announced during the course. Prerequisites: TU-53.1030 Substitutive: Replaces the course TU-53.263, TU53.1267. Additional information: Can be taken in English; please contact the lecturer. Language: Finnish TU-53.1340 Competences and innovations P (4 cr) TU-53.1350 Groups, communication and collaboration P (4 cr) TU-53.1360 Cross-Cultural Management (3 cr) Autumn (Period II) Lecturer: Eila Järvenpää and Stina Immonen Contents: Today many companies and other organizations operate on global market, and their personnel has a multicultural background. Individuals, teams and organizations of different nationalities meet in daily business and other activities. Competences in crosscultural management are becoming increasingly important. The goal of the course is to increase the participants’ understanding about different cultures, and working and doing business in multicultural
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environment. Requirements: Exam, written assignment. Literature: Schneider, S.C. and Barsoux, J.L.: Managing across cultures. Substitutive: Replaces the course TU-53.1309 and TU53-309. Language: English TU-53.1390 Contemporary topics on knowledge and competence management P (3-6 cr) I-IV (Varies, check the course website for details) Lecturer: varies Contents: Various topical themes of knowledge and competence management. The course is organized irregularly. Check the course website for details. Requirements: Announced at the beginning of the course. Literature: varies Prerequisites: varies Language: English TU-53.1410 Basics of sociotechnical systems (4 cr) TU-53.1420 Virtual Work Environment Instruction (2 cr) TU-53.1430 Ergonomic Design of Work and Workplace (3 cr) TU-53.1440 Safety and Health Management (3-6 cr) TU-53.1450 Design and management of complicated sociotechnical systems P (4 cr) TU-53.1460 Traffic Psychology (3 cr) TU-53.1470 Advanced Driver Behaviour P (3 cr) TU-53.1510 Special assignment in work psychology and leadership (5 cr) TU-53.1560 Research Methods in Industrial Management II (for post-graduate students) P (5 cr) Autumn & Spring (Period I-IV) Lecturer: Professors Contents: (a) Licentiate & doctoral seminar (3 cr) The objective is to support post-graduate students in planning and executing their research. On-going licentiate theses and doctoral dissertations are discussed. Participants are expected to present their work at least two times during the course as well as to act two times as an opponent to another student’s research plan. The seminar is meeting monthly. (b) Methodology modules (1-2cr) Students participating in (b) must select 1-2 methodology modules that best support their own thesis, to complement the licentiate and doctoral seminar. The topic areas may include: action research, case study, constructive, qualitative, text analysis, statistical research, and scientific writing. The objective is to provide some systematic knowledge of methodological alternatives in management research, to help the participants to
become more discerning consumers of research literature, and to help students to become better equipped to make decisions about methodological choices. Requirements: A student must collect at least three credits from section a and a minimum of two credits from section b. a) Participation in at least six sessions out of nine during one year semester is required to pass the course. b) Attendance at seminar sessions, assignments, seminar presentations, readings. Literature: To be announced separately. Substitutive: Replaces course TU-53.1403, TU-53.403. Additional information: (a) Licentiate & doctoral seminar (3 cr) (b) Methodology modules (1-2cr) Language: English TU-53.1610 Orientation to Team-based Design Innovation (5 cr) Autumn (Period I-II) Lecturer: Lauri Repokari, Pia Helminen, Prof. Matti Vartiainen, Prof. Kalevi Ekman, Stanford professors Contents: The course is the first of three courses that form the year-long entity taught in collaboration with Stanford University. The entity, Stanford course Engineering 310, is a demanding graduate level course during which students from around the world work together with Stanford students in the context of a corporate-sponsored project. Students are introduced to the tools, methods, and thinking strategies needed to form and creatively manage distributed design engineering teams, in order to deliver full function product and service prototypes. Students spend 6–10 weeks in Stanford. Requirements: Online lectures, group assignments (cases, prototypes, documentation). Literature: Will be announced during the class. Prerequisites: 150–180 credits; project work experience, such as Kon-41.4002, IDBM project, or similar. Students are selected based on applications. Additional information: Number of participants limited. The same course as Kon-41.4008. Language: English TU-53.1612 Global Team-based Design Innovation I (10 cr) Spring (Period III) Lecturer: Lauri Repokari, Pia Helminen, Prof. Matti Vartiainen, Prof. Kalevi Ekman, Stanford professors Contents: The course is the second of three courses that form the year-long entity taught in collaboration with Stanford University. The entity, Stanford course Engineering 310, is a demanding graduate level course during which students from around the world work together with Stanford students in the context of a corporate-sponsored project. Students are introduced to the tools, methods, and thinking strategies needed to form and creatively manage distributed design engineering teams, in order to deliver full function product and service prototypes. Students spend 6–10 weeks in Stanford. Requirements: Online lectures, group assignments
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(cases, prototypes, documentation). Literature: Will be announced during the class. Prerequisites: TU-53.1610 Additional information: Number of participants limited. The same course as Kon-41.4009. Language: English TU-53.1614 Global Team-based Design Innovation II (10 cr) Spring (Period IV) Lecturer: Lauri Repokari, Pia Helminen, Prof. Matti Vartiainen, Prof. Kalevi Ekman, Stanford professors Contents: The course is the third of three courses that form the year-long entity taught in collaboration with Stanford University. The entity, Stanford course Engineering 310, is a demanding graduate level course during which students from around the world work together with Stanford students in the context of a corporate-sponsored project. Students are introduced to the tools, methods, and thinking strategies needed to form and creatively manage distributed design engineering teams, in order to deliver full function product and service prototypes. Students spend 6–10 weeks in Stanford. The course will end in mid-June. Requirements: Online lectures, group assignments (cases, prototypes, documentation). Literature: Will be announced during the class. Prerequisites: TU-53.1612 Additional information: Number of participants limited. The same course as Kon-41.4010. Language: English TU-91.1001 Introduction to Economics (5 cr) TU-91.1003 Principles of Strategic Management (3-4 cr) Spring (Period III-IV) Lecturer: Tomi Laamanen Contents: Overview of key concepts, frameworks and theories of strategic management through lectures and course literature; presentations of visiting strategy professionals. Objective: After the course, the participant should (1) know the main concepts of strategic management, (2) understand the main approaches to strategy and how they have developed over time, (3) be able to apply the most common frameworks and tools of strategic management, and (4) have a basic understanding of how to think and act strategically in different kinds of strategy development situations. Requirements: Depends on the course version. Both course versions have the same literature, but the 4 credit version also includes a special assignment. Literature: Mintzberg, H., Ahlstrand B., and Lampel, J. 1998. Strategy Safari. The Free Press, and Johnson, G., Scholes, K., and Whittington, R. 2008. Exploring Corporate Strategy. Prentice Hall. Prerequisites: TU-22.1101 Substitutive: Replaces the course TU-91.131 Language: English
TU-91.1004 Seminar in Market Research (5 cr) TU-91.1006 ESTIEM Vision Seminar and Summer Academy (1-2 cr) Autumn & Spring (Period I-IV) Lecturer: N.N. Contents: The course is carried out independently with the coordination of TU-91 teaching staff. The course consists of active attendance in Vision seminar or Summer Academy, an individual study of literature and written assignment related to topics of seminar or Summer Academy, which are arranged by ESTIEM (European Students of Industrial Engineering and Management). Attendance and completion of the course should be agreed upon with the course assistant well beforehand. Objective: To support internationalization and international orientation of DIEM-students during the first years of studies. Literature: Will be announced separately. Language: Finnish/English TU-91.1007 Principles of International Business (5 cr) Autumn (Period I) Lecturer: Thomas Keil, Minna Söderqvist & Satu Teerikangas Contents: This course examines the issues and problems which arise when entrepreneurs, businesses and institutions extend across national boundaries and become international in scope or character. The emphasis is two-fold. First, consideration is given to the characteristics and contemporary dynamics of the international business environment. Second the course provides in introduction to the strategic and operational challenges arising from operating across country borders with a focus on a firm’s internationalization process. Objective: To familiarize the participants with basic concepts of international business. Requirements: Active participation in the course sessions, class exercises, examination. Literature: Articles and selected book chapters. Substitutive: Replaces the course TU-91.2002 Language: English TU-91.1008 Introduction to Marketing (3 cr) Autumn (Period I) & Spring (Period III) (will be lectured only during spring term starting from 2010) Lecturer: Erik Pöntiskoski ja Petri Parvinen Contents: The course covers the customer-oriented marketing process and its phases. The central themes of the course include the role of strategic marketing as the focal process of business, the marketing environment and its analysis, and the planning and execution of marketing activities in business-to-business and business-toconsumer settings. Objective: The purpose of this course is to provide students with an overview of marketing and its basic concepts. Having studied this course the student understands the importance of customer-oriented marketing, knows the basic marketing terminology of the course area and is able to apply them in practice.
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Requirements: Assignment (25%) and exam (75%). Literature: To be confirmed later. Substitutive: Replaces the course TU-91.1002 Additional information: Possibility to do assignment and exam in English Language: Finnish TU-91.1009 Marketing Exercises (3 cr) Autumn (Period I) & Spring (Period III) (Will be lectured only during spring term starting from 2010) Lecturer: Erik Pöntiskoski and Petri Parvinen Contents: Individual and/or group exercises. Objective: In conjunction with the basic course Marketing Management, to deepen the participants’ understanding in marketing thinking and concepts through practice oriented case exercises. Requirements: Assignments Evaluation: Pass/fail Literature: To be confirmed later Additional information: The course will be completed simultaneously with TU-91.1008. Participation may be restricted. Language: Finnish/English TU-91.100C Open code for strategy and international business (0-20 cr) Autumn and Spring Contents: Varies Requirements: Varies Literature: Varies Prerequisites: Varies Language: Finnish/English TU-91.1010 Efficient Sales Work and Sales Management (3 cr) TU-91.2003 New Venture Development I (3 cr) Autumn (Period I) Lecturer: Peter Kelly Contents: Process overview and frameworks illustrated with case studies. Objective: To gain an understanding of the entrepreneurial process and to apply these insights into the assessment of an entrepreneurial opportunity. Requirements: Lectures, individual assignment and one group assignment. Literature: John W Mullins, the New Business Road Test (FT Prentice Hall, 2003) and other material delivered in course sessions. Substitutive: Replaces the course TU-91.120. Language: English TU-91.2004 Advanced Strategic Management (5 cr) Autumn (Period I) Lecturer: Tomi Laamanen, Thomas Keil, Juha-Antti Lamberg Contents: Lectures on selected advanced topics in strategic management: Written assignment completed in a group of students on a strategic problem of an existing firm each supervised by one of the three instructing professors of the course.
Objective: To introduce the main theories underlying the strategic management area, to improve the analytical strategy skills of the participants, and to further deepen the participants’ understanding of the different phenomena of strategic management with a special focus on (1) cognition and strategic decision making processes, (2) capability dynamism and dynamic capabilities, (3) competitive dynamics, (4) diversification and acquisitions, (5) strategic alliances and networks, (6) structural and industry evolution, and (7) strategic leadership. Requirements: Lectures, written assignment, examination. Literature: To be announced separately Prerequisites: TU-22.1101, TU-91.1003 Substitutive: Replaces the course TU-91.136. Additional information: Due to the limited maximum size of the course, participants will be chosen through a separate application process at the beginning of the term. Language: English TU-91.2005 Strategic Management of Technology and Innovation (5 cr) Autumn (Period II) Lecturer: Robin Gustafsson Contents: The main focus of the course is on the dynamics in innovation and technological development, and on the strategic management of these in the context of technology-intensive firms operating in dynamic technology sectors. The course focuses mostly on business-level strategies, but many of the issues are relevant also for research institutes and universities as well as for funding agencies and other policy organizations. The course consists of lectures, visiting lectures, case discussion sessions, exercises, real firm case assignment, and examination. Objective: This course is designed to provide students with practical skills for the analysis, design, and implementation of firm-level technological and innovation strategies. Upon completion of the course, the student should have gained a good understanding of: nature of technology and technological development, drivers and dynamics of technological development and innovation, types of innovation and their impact on firm performance, technology strategy and how it impacts firm performance, how firms’ technological environments shape their strategic choices, nature of planning in technology-intensive sectors, and national technology and innovation policy and how it links with firm-level activity. Requirements: Lectures, written assignment, examination Literature: To be announced separately. Prerequisites: TU-91.1003 and TU-22.1101 Substitutive: Replaces the course TU-91.123. Language: English TU-91.2006 Strategic Marketing L (5 cr) Autumn (Period I) Lecturer: Juha Mattsson Contents: The course delves into several key areas of
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marketing as the cornerstones of strategic management. These areas include creating, delivering, and communicating customer value, brand leadership and integrated marketing communications, services and relationship marketing, customer relationship management, new product development and commercialization, distribution management and international marketing. A major portion of the course rests on in-depth analysis of company cases. The course provides a demanding, yet rewarding study package for highly motivated students. The number of participants may be restricted. The course will be arranged only if 15 or more students qualify to participate. Objective: To improve the participants’ strategic thinking in practical business situations from a marketing and customer perspective. Requirements: Passing a pre-examination, lectures, presentations and practical assignment. Literature: Walker et al. 2006. Marketing Strategy: A Decision Focused Approach. 5th International Edition. McGraw-Hill. ISBN: 0071116745. Other literature will be announced during the course. Prerequisites: TU-22.1101, TU-91.1002, TU-91.1003 Substitutive: Replaces the course TU-91.107. Language: English TU-91.2008 New Venture Development II: Business Plan (5 cr) Spring (Period III-IV) Lecturer: Peter Kelly Contents: Cases, business plan development. Objective: To undertake a detailed in-depth analysis and assessment of an entrepreneurial opportunity. Requirements: Prior permission of the instructor which will require that prospective students have organized a group and have identified an idea(s) to explore before the course commences. Lectures, meetings, group assignment and presentation. Literature: To be announced separately Substitutive: Replaces the course TU-91.127. Language: English TU-91.2009 Entrepreneurial Finance (5 cr) Spring (Period III-IV) Lecturer: Peter Kelly Contents: Bootstrapping, Debt finance, Business Angel equity, Venture Capital, Deal Structuring, Valuation, Negotiation, Shareholders Agreements, Investor & Board Relationships, Exits. Objective: To gain an understanding of where and how to raise entrepreneurial finance. Requirements: Individual case write-ups, take home exam, group assignment. Literature: Cases and notes delivered in class. Prerequisites: TU-91.2003 Substitutive: Replaces to course TU-91.125. Language: English TU-91.2010 Managerial Economics (5 cr) Spring (Period III) Lecturer: Hannele Wallenius
Contents: Introduction to applied microeconomic theory, with emphasis on managerial decision-making: topics to be discussed include demand estimation, the theory of production, cost minimization and profit maximization, behaviour of the firm, the market structure and the impact of the e-economy. Objective: After the course students will have a deepened knowledge of the theory of the firm. Students also know some basic decision analysis tools. Requirements: Lectures, assignments, and final exam Literature: Keat, P. & Young, P. Managerial Economics: Economic Tools for Today’s Decision Makers, 5th edition, Prentice-Hall, 2005 and lecture notes. Prerequisites: TU-91.1001/TU-91.111 or some other introductory course in economics Substitutive: Replaces the course TU-91.113. Language: English TU-91.2011 International Economics (3-5 cr) Spring (Period IV) Lecturer: Hannele Wallenius Contents: Introduction to the theory of international trade, alternative trade theories, trade policy, and economic integration: introduction to international finance, foreign exchange market, balance of payments problems, and policy alternatives. Objective: After the course students will have an understanding of the main trade theories, and the links between trade, international finance, foreign exchange markets and general economic equilibrium. Requirements: Lectures, follow-up presentation of a specific international macroeconomic topic, webexercises, final exam. Literature: S. Husted & M. Melvin: International Economics, 7th ed., Addison Wesley Longman, 2007. Prerequisites: TU-91.1001/TU-91.111 or some other introductory course in economics. Substitutive: Replaces the course TU-91.114. Language: English TU-91.2012 Elective Studies in Economics (1-8 cr) Autumn, Spring Lecturer: Hannele Wallenius Contents: Essays or examinations by agreement Requirements: Variate Literature: By agreement Prerequisites: TU-91.1001/TU-91.111, other studies in economics recommended. Substitutive: Replaces the course TU-91.115 Language: Finnish/English TU-91.2013 Economics of European Integration (3 cr) Autumn Lecturer: Riikka-Leena Leskelä Contents: This course introduces the main concepts behind the economics of European integration and applies them to the current development of European Union and its politics. The course begins with a short historical background of the European Union and its trade policy. After that the following macroeconomic aspects of an economic and monetary union will be
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covered: theory of Optimum Currency Areas and its critique, the role of European Central Bank and the conduct of monetary policy post-EMU, macroeconomic stabilization, fiscal discipline, and fiscal federalism in a currency union. The course will also help to understand the economic implications of EU enlargement. Objective: After the course students will know what the EU and ECB are, and what they do. Students will also have an understanding of the economic principles driving European integration, and the advantages and disadvantages of further integration. Requirements: Lectures and seminars, written assignments. Literature: De Grauwe, P., Economics of Monetary Union, 6th ed., Oxford Universtiy Press, 2005, and McDonald, F., Dearden, S., European Economic Integration, 4th ed., Prentice Hall, 2005, and selected journal articles. Substitutive: Replaces the course TU-91.116. Language: English TU-91.2015 Advanced Case-Seminar in Strategy (3-5 cr) Autumn Lecturer: Tomi Laamanen Contents: Solving in teams of four to five participants selected Harvard Business School type strategy cases and presenting case solutions for different audiences. Objective: After the course, the participant should (1) have an improved ability to make sense of the most important issues in different strategy-making situations, (2) be able to carry out a structured analytical thinking process for solving a firm’s strategic problems, (3) have the ability to come up with tangible recommendations for different kinds of firms in different kinds of situations, and (4) be able to present the recommendations as a well-structured presentation to the management team of a firm. Requirements: Mandatory attendance in seminar sessions and presentations of case solutions prepared in student teams. Literature: To be announced separately. Prerequisites: TU-22.1101, TU-91.1003 (TU-91.2004 also highly recommended). Substitutive: Replaces the course TU-91.135. Additional information: Due to the limited maximum size of the course, participants will be chosen through a separate application process at the beginning of the term. Language: English TU-91.2017 Advanced Financial Modeling L (3 cr) Autumn (Period I-II) Lecturer: Markku Maula Contents: This course introduces theory and practice of the quantitative analyses and financial modeling needed in new business development, venture capital and private equity investments, mergers and acquisitions, and strategy consulting through case readings and real life cases that are solved in small groups and presented and discussed during seminar sessions. Objective: After the course students will be able to
conduct quantitative analyses and financial modeling needed in new business development, venture capital and private equity investments, mergers and acquisitions, strategy consulting, and investment banking. Requirements: Entry exam, mandatory attendance in seminar sessions, and presentations of case solutions prepared in groups of students. Literature: To be announced separately. Prerequisites: TU-22.1144 and TU-91.2009 Additional information: Language: English Limited to max 20 students based on entry exam. Language: English TU-91.2018 Industry Evolution (5 cr) Spring Lecturer: Juha-Antti Lamberg Contents: Key dilemma in strategic management and in organization studies is to understand how and why industries evolve and develop as they do. In strategy and organization research different evolutionary perspectives have received accumulating attention during the last decades. The aim of this course is to offer insights and frameworks to analyze and understand such issues as survival, industry evolution, dethronement processes and competitive dynamics in general. Objective: An evolutionary perspective helps to see the sources of competitive advantage in the dynamics around and inside specific business organizations. The aim of this course is to offer insights and frameworks to analyze and understand such issues as survival, industry evolution, dethronement processes, the role of top management and business dynamics in general. Requirements: Lectures, learning diary and written assignment. Literature: To be announced separately. Prerequisites: TU-91.1003 Language: English TU-91.2019 Strategic Leadership (5 cr) Spring (No lectures 2008-2009) Lecturer: Juha-Antti Lamberg Contents: Current theories and state of the art in strategic leadership; upper echelon theory; network perspective; psychodynamics; strategic change and dynamics. Requirements: Attendance at lectures, assignment and presentations. Literature: Specific information in the course brochure. Language: English TU-91.2022 Contracting in Venture Capital and M&As L (2 cr) Spring (Period IV) Lecturer: Jari Lauriala and Markku Maula Contents: Introduction to current practice of legal structuring related to venture capital investments as well as mergers and acquisitions through lectures and real life cases that are solved in small groups and presented and discussed during seminar sessions. Objective: After the course students will have an understanding of the key legal issues of venture capital transactions and M&A’s such as analyzing term-sheets,
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formulating and drafting the representations and warranties, investment agreements, convertible loan agreements, merger agreements, purchase agreements and their derivatives. Requirements: There will be no written examination in this course. The course evaluation will be based on individual participation and contribution (10%) and three group assignments (90%). Literature: To be announced separately. Prerequisites: TU-91.2009 and TU-91.2017 highly recommended Language: English TU-91.2024 Developing Global Leadership Talent (5 cr) Autumn & Spring (Period I-IV) Lecturer: Satu Teerikangas Contents: Course sessions will delve into the topics of leadership, creativity, networking, presentation and negotiation skills, team working, as well as various forms of intercultural management and interaction in the midst of an international student body. Course lecture sessions will be organized a set of lectures combined with participatory seminar sessions and workshops. Nationality Nights, various social activities to enhance the students’ networking and leadership skills, as well as domestic and international excursions are part of the course. The course starts with an opening module and ends with a closing module. Objective: To enhance the students’ personal, interpersonal and leadership skills to operate in an increasingly complex, global, and multicultural business environment. Requirements: Active participation to classes and social activities, in-class assignments and reflection essays. Target group: The course is aimed at students majoring in TU-91. Participants to the course will be pre-selected. For selection criteria please refer to the course website. Literature: Changes yearly. Substitutive: Replaces the course TU-91.2023. Language: English TU-91.2025 Advanced International Business (5 cr) Autumn (Period II) Lecturer: Thomas Keil, Satu Teerikangas & Minna Söderqvist Contents: This course examines in depth the challenges of managing globally operating firms. The course covers topics such as globalization; the organization and management of multinational firms; the management of collaborative forms of international operations including mergers & acquisitions, joint ventures and strategic alliances; the competencies of the international manager; challenges in managing successfully in the emerging economies; as well as issues facing the 21st century manager. Objective: To provide students with a deepened understanding of managing a multinational organization’s activities and enhance their skill set in operating in an international environment. Requirements: Active participation in the course sessions,
class exercises, post-course essay, examination. Literature: To be announced separately. Prerequisites: TU-91.1007 Principles of International Business is recommended, not compulsory. Language: English TU-91.2030 Special Study in Business Strategy and International Business (5 cr) Autumn and Spring Lecturer: Robin Gustafsson Contents: An independent, guided empirical study in the field of strategy and international business. Objective: To prepare students for applying their analytical skills in practice in the field of strategy and international business. Specific focus is given to training and appropriate use of research methods. This course prepares the student for a master’s thesis in strategy and international business. Requirements: Conducting empirical research in the field of strategy and international business and reporting the results. Attendance in introductory guidance session. Before conducting the study, students should have their research plan approved by the instructor. Presentation of special study in a seminar and acting as a discussant. Prerequisites: TU-91.1003 and TU-22.1101. TU-0.2000. This course is usually completed in the final phases of major studies before starting the master’s thesis. Substitutive: Replaces the course TU-91.155. Language: Finnish/Swedish/English TU-91.2031 Sales Management P (3 cr) Spring (Period IV) Lecturer: Juha Mattsson, Petri Parvinen and guest lecturers from the Finnish industry. Contents: This course is an advanced level course giving a general but thorough overview of the area of sales management, with topics ranging from grass root level management of sales staff to the role of sales orientation in corporate strategy. This course binds sales together with such diverse subjects as R&D, corporate management, marketing, IT and public relations, in order to provide students with the insight of the diversity and importance sales has these days. Students will be rewarded with a deep understanding of the dynamics and challenges in organising sales work, and the course is ideal for students aiming any position dealing with the sales function. The course is organised jointly with HSE, mixing students with different backgrounds, ideas and approaches. Objective: To give students a general but thorough understanding of the area of sales management for both professional and academic purposes, and to learn how to apply the knowledge to a number of industries. Requirements: Exam, lectures Literature: Collection of articles on the topic Prerequisites: Recommended TU-91.1002 or equivalent Language: English TU-91.2032 Sales Management Assignment (3 cr) Spring (Period IV) Lecturer: Juha Mattsson and Petri Parvinen
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Contents: The assignments in Sales Management are completed as a part of the course TU-91.2031 Sales Management, and are compulsory for students from some fields. For other students the assignments are optional and have to be completed at the same time when taking the above mentioned course. Objective: Practical application of the things learned in the course TU-91.2031 Sales Management Requirements: Assignments, taking part in the course TU.91.2031 Sales Management Literature: Course material Prerequisites: Simultaneous completion of the course in Sales Management Language: English TU-91.2033 Creative Entrepreneurship Bootcamp (2 cr) Course Offered in August 2008 Lecturer: Peter Kelly Contents: Creativity, Entrepreneurial Thinking, Idea Generation & Development, Problem Definition, Customer & Solution Profiling, Customer Feasibility. Objective: To develop the entrepreneurial and creative mindsets of individuals who want to make an entrepreneurial impact in society, business or the not-forprofit sectors. Requirements: Active Participation, 5 consecutive days (0900 – 1700 daily) Literature: Material delivered during the bootcamp Language: English TU-91.2034 Managing Growth (3-5 cr) Autumn Lecturer: Thomas Keil Contents: In this course students will be introduced to frameworks to understand the dynamic challenges businesses face as they grow and transform. We will address issues of stimulating, financing and controlling growth in young firms. We will discuss the challenges of transforming a entrepreneur lead firm towards a professionally managed or public firm. Finally, we will also cover issues of succession that arise in family-owned firms as owner generations change. Objective: To familiarize the participants with key challenges of managing growth in new and established firms. Requirements: Exam, lectures and individual assignments. Literature: To be announced separately. Substitutive: Replaces the course TU-91.2014 Language: English TU-91.3002 Research Methods in Industrial Management II P (5 cr) Spring Lecturer: Markku Maula Contents: The course covers areas relevant for developing a good research proposal including problem formulation, literature review, theory and hypothesis development, research designs, and methodological choices. The course is intended to be an arena where
students can discuss about their research projects and get feedback from the faculty and from their fellow students. Objective: The key objective of the course is to help participants develop a good dissertation proposal. Requirements: Attendance in seminar sessions, assignments, seminar presentations, readings, exam, and developing a research proposal. Literature: To be announced separately. Substitutive: Replaces the course TU-91.198. Additional information: The course is intended mainly for first-year doctoral students majoring in strategy and international business. The course is a continuation for the fall term course Research Methods in Industrial Management I. Students wishing to participate in the course are recommended to take first the fall term course. However, passing the fall term course is not a prerequisite for the participation. Language: English TU-91.3003 Postgraduate Course in Corporate Finance P (6-12 cr) Autumn and Spring Lecturer: Markku Maula Contents: A reading package in corporate finance; intended for postgraduate students majoring in Strategy and International Business. Objective: After the course students will have an understanding of the main theories and research areas in corporate finance. Requirements: An individual study of assigned literature; worth 6 credit units; a maximum of 5 more credit units can be earned by writing an assignment on finance, and 1 more credit unit by taking part in a seminar on finance; no lectures. Literature: To be announced separately. Substitutive: Replaces the course TU-91.196. Language: English TU-91.3007 Postgraduate Course in Strategy P (12 cr) I-IV Lecturer: Tomi Laamanen Contents: The course covers some of the fundamental themes of strategy research in a seminar format. The themes are covered by reviewing strategy articles that provide the key milestones of each theme. Each theme is covered in one full seminar day and the whole course totals 4-5 seminar days. Objective: After the course, the participant should (1) know the most important articles and in the area of strategic management, (2) understand how the different streams of strategy research have evolved over time and how they are connected to each other, and (3) be able to project the future development of the strategic management research from the perspective of one’s own doctoral work. Requirements: Active participation in seminar sessions, presentations on selected academic articles, and examination. Literature: Articles covered during the course. Substitutive: Replaces the course TU-91.900. Additional information: Due to the limited maximum
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size of the course, participants will be chosen through a separate application process. Preferences will be given to doctoral students majoring in strategy. Language: English TU-91.3008 Research Colloquim P (5 cr) Autumn and Spring Lecturer: Juha-Antti Lamberg Contents: Preparation and presentation of a) research plans of PhD theses, b) chapters / papers of PhD theses or c) post-doctoral / doctoral level scientific article manuscripts. Objective: The objective of the Research Colloquim is to offer a platform for paper presentations and discussion for TKK faculty, PhD candidates and international visitors. Requirements: Papers, presentation and acting as a discussant. Literature: Specific information in the course brochure. Language: English TU-91.3009 Studies in supplementary field: Strategy and International Business P (12 cr) Autumn & Spring Lecturer: Juha-Antti Lamberg Contents: The obligatory book examinations of the postgraduate minor in strategy and international business. The whole minor is designed to provide for a coherent picture of the conceptual foundations and state
of the art of strategy and international business. There is one examination for each of the obligatory book. Each examination covers the whole book. Objective: Minor is designed to provide for a coherent picture of the conceptual foundations and state of the art of strategy and international business. Literature: 1) Faulkner, David O. and Campbell, Andrew (eds.) (2003). Oxford handbook of strategy. Vol. 1: A strategy verview and competitive strategy. Oxford: Oxford University Press. 2) Faulkner, David O. and Campbell, Andrew (eds.) (2003). Oxford handbook of strategy. Vol. 2: Corporate strategy. Oxford: Oxford University Press.3) Rugman, Alan M. and Brewer, Thomas L. (eds.) (2001). Oxford handbook of international business. Oxford: Oxford University Press. Additional information: Notes: This course replaces TU91.3004. For completing the postgraduate minor in strategy and international business students need to accomplish TU-91.3009 and to get 8 credit points from the advanced literature and / or offered postgraduate courses. The course offering changes in a yearly basis and the students are encouraged to discuss about the alternatives with the course assistant. The books can only be taken as examinations. Language: English Language: English TUO.kand Bachelor’s Thesis and Seminar (10 cr)
Language Centre Ako-98.9390 Portuguese 1 (4 cr) Kie-98.1405 Intercultural Communication (2 cr) Ako-98.9391 Portuguese 2 (4 cr) Kie-98.1500 Thesis Writing P (2 cr) Ako-98.9410 Chinese 1 (4 cr) Kie-98.1600 English Reading/Writing Test (1 cr) Ako-98.9411 Chinese 2 (4 cr) Kie-98.1601 English Oral Skills Test (2 cr) Ako-98.9412 Chinese 3 (2 cr) Kie-98.1900 Student Tutoring in English (1 cr) Ako-98.9413 Chinese Conversation (2 cr) Kie-98.2010 Speak Spanish (2 cr) Kie-98.1111 Talking Technology (2 cr) Kie-98.1112 Writning in Technology (2 cr) Kie-98.1209 Pronounce Clearly (1 cr) Kie-98.1211 Speak Confidently (1 cr) Kie-98.1213 Activate your English (2 cr) Kie-98.1215 Read Effectively (2 cr) Kie-98.1305 Presenting a Technical Paper (2 cr) Kie-98.1401 Job Search (1 cr) Kie-98.1402 Business Messages (2 cr)
Kie-98.2011 Spanish 1A (2 cr) 24 + 28 I Lecturer: Carmen Rodellas, Lotta Sipilä, Group E (in English) Tanya Tynjälä Contents: This is a basic course for beginners in Spanish, which offers students an opportunity to practice their everyday Spanish both orally and in writing. During the course, students work through a wide range of authentic audio and video material. Objective: Develop the ability to tell basic things about oneself and ask others about equivalent information, learn the basics of the Spanish grammar and get familiar with the Hispanic culture. Evaluation: 1-5 Literature: Kautto-Laine-Lehmussaari, Entre Amigos. In group E the literature will be negotiated with teacher.
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Prerequisites: The course is designed for beginners. Additional information: Group E will be taught in English. Kie-98.2012 Spanish 1B (2 cr) 24 + 28 II Lecturer: Carmen Rodellas, Lotta Sipilä, Tanya Tynjälä (group in English) Contents: This course offers students an opportunity to further practice their everyday Spanish both orally and in writing. During the course, students work through a wide range of authentic audio and video material. Objective: Develop the ability to tell basic things about oneself and ask others about equivalent information, learn the basics of the Spanish grammar and get familiar with the Hispanic culture. Evaluation: 1-5 Literature: Kautto-Laine-Lehmussaari, Entre Amigos. In group E the literature will be negotiated with teacher. Prerequisites: Kie-98.2011 Additional information: Group E is taught in English, teacher Tanya Tynjälä. Information about the literature will be given in the beginning of the course. Language: Finnish, Group E is taught in English, teacher Tanya Tynjälä. CEF level: CEF Target Level: A1
1 (1 cr) Kie-98.2072 Latin American Cultures and Civilisation 2 (1 cr) Kie-98.2080 Spanish and Latin American Literature 2 (2 cr) Kie-98.2083 Communication in the Hispanic World (2 cr) Kie-98.2090 Spanish and Latin American Film 1 (2 cr) Kie-98.2093 Spanish for Science and Technology (4 cr) Kie-98.2100 Spanish and Latin American Film 2 (2 cr) Kie-98.2150 Este País 1 (3 cr) Kie-98.2510 Internet Cource: Caminando por mundos hispanos 1 (2 cr) Kie-98.2520 Internet Cource: Caminando por mundos hispanos 2 (2 cr) Kie-98.2900 Student Tutoring in Spanish (1 cr)
Kie-98.2020 Spanish for Trainees (2 cr)
Kie-98.3015 Japanese 1 (4 cr)
Kie-98.2021 Spanish 2A (2 cr)
Kie-98.3026 Japanese 2 (4 cr)
Kie-98.2022 Spanish 2B (2 cr)
Kie-98.3035 Japanese 3 (4 cr)
Kie-98.2030 Spanish for Business (2 cr)
Kie-98.3046 Japanese 4 (4 cr)
Kie-98.2031 Spanish 3A (2 cr)
Kie-98.3055 Japanese 5 (4 cr)
Kie-98.2032 Spanish 3B (2 cr)
Kie-98.3066 Japanese 6 (4 cr)
Kie-98.2040 Spanish Grammar (2 cr)
Kie-98.3229 Introduction to Kanji System (2 cr)
Kie-98.2041 Spanish 4A (2 cr)
Kie-98.3249 Japanese for Everyday Use (2 cr)
Kie-98.2042 Spanish 4B (2 cr)
Kie-98.3410 Japanese Culture (2 cr)
Kie-98.2050 Self-access Course in Spanish 1 (1 cr)
Kie-98.3420 Japanese Society (2 cr)
Kie-98.2051 Spanish 5A (2 cr)
Kie-98.3430 Professional Literature in Japanese (2 cr)
Kie-98.2052 Spanish 5B (2 cr)
Kie-98.3440 Japanese Literature (2 cr)
Kie-98.2060 Self-access Course in Spanish 2 (2 cr)
Kie-98.3460 Japanese in the Media (2 cr)
Kie-98.2061 Spanish 6A (2 cr)
Kie-98.3470 Japanese for Business (2 cr)
Kie-98.2062 Spanish 6B (2 cr)
Kie-98.3510 Japanese-Finnish Dictionary Project (1 cr)
Kie-98.2070 Spanish and Latin American Literature1 (1 cr)
Kie-98.3520 Japanese for Export (2 cr) Kie-98.3530 Environmental Japanese (2 cr)
Kie-98.2071 Latin American Cultures and Civilisation
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Kie-98.3540 Japanese Interpreting Skills (2 cr) Kie-98.4121 French Civilisation 1 (1 cr) Kie-98.3550 Japanese for ICT (2 cr) Kie-98.4122 French Civilisation 2 (1 cr) Kie-98.3795 Japanese Seminar in Technology 1 (2 cr) Kie-98.4131 French for Trainees 1 (1 cr) Kie-98.3796 Japanese Seminar in Technology 2 (2 cr) Kie-98.4132 French for Trainees 2 (1 cr) Kie-98.3900 Student Tutoring in Japanese (1 cr) Kie-98.4210 Self-access Course in French 1 (1 cr) Kie-98.4011 French 1A (2 cr) Kie-98.4220 Self-access Course in French 2 (2 cr) Kie-98.4012 French 1B (2 cr) Kie-98.4310 French Grammar 1 (2 cr) Kie-98.4021 French 2A (2 cr) Kie-98.4320 French Grammar 2 (2 cr) Kie-98.4022 French 2B (2 cr) Kie-98.4410 French Literature 1 (2 cr) Kie-98.4031 French 3A (2 cr) Kie-98.4420 French Literature 2 (2 cr) Kie-98.4032 French 3B (2 cr) Kie-98.4510 Writing in French 1 (1 cr) Kie-98.4041 French 4A (2 cr) Kie-98.4520 Writing in French 2 (2 cr) Kie-98.4042 French 4B (2 cr) Kie-98.4800 Architecture (2 cr) Kie-98.4051 French 5A (2 cr) Kie-98.4810 Chimie technique (2 cr) Kie-98.4052 French 5B (2 cr) Kie-98.4820 Génie électrique (2 cr) Kie-98.4061 French 6A (2 cr) Kie-98.4840 Génie informatique (2 cr) Kie-98.4062 French 6B (2 cr) Kie-98.4850 Physique et mathématiques (2 cr) Kie-98.4071 French 7A (2 cr) Kie-98.4860 Transformation du bois (2 cr) Kie-98.4072 French 7B (2 cr) Kie-98.4900 Student tutoring in French/Italian (1 cr) Kie-98.4081 French 8A (2 cr) Kie-98.4082 French 8B (2 cr) Kie-98.4101 French for Business 1 (2 cr)
Kie-98.5001 National Language Requirement (Swedish) Writing Test (1 cr) Kie-98.5002 National Language Requirement (Swedish) Oral Test (1 cr)
Kie-98.4102 French for Business 2 (2 cr) Kie-98.5005 Revision Course in Swedish (3 cr) Kie-98.4103 French for Business 3 (2 cr) Kie-98.4104 French for Business 4 (2 cr) Kie-98.4111 French for Science and Technology 1 (2 cr) Kie-98.4112 French for Science and Technology 2 (2 cr) Kie-98.4113 French for Science and Technology 3 (2 cr) Kie-98.4114 French for Science and Technology 4 (2 cr)
Kie-98.5110 Swedish for Engineering Students 1 (2-4 cr) Kie-98.5111 Suggestopedic Course in Swedish (2-4 cr) Kie-98.5112 Swedish Writing Skills for Engineering Students 1 (2-3 cr) Kie-98.5113 Swedish Spoken Skills for Engineering Students (1-2 cr) Kie-98.5220 Swedish for Engineering Students 2 (1-3 cr)
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Kie-98.5229 Practising Presentation and Meeting Skills in Swedish (2-3 cr)
Kie-98.6042 German 4B (2 cr) Kie-98.6051 German 5A (2 cr)
Kie-98.5230 Focus on Nordic Countries (3 cr) Kie-98.6052 German 5B (2 cr) Kie-98.5600 Self-access Revision Course in Swedish (3 cr)
Kie-98.6061 German 6A (2 cr)
Kie-98.5610 Autonomous Technical Swedish (2-4 cr)
Kie-98.6062 German 6B (2 cr)
Kie-98.5621 Optional Course in Swedish (3-5 cr)
Kie-98.6400 German for Trainees (1 cr)
Kie-98.5680 Integrated Course in Swedish (1 cr)
Kie-98.6440 German Grammar 1 (2 cr) 2 + 50 (Independent Study)I, III Lecturer: Kristina Manner, Pauli Kudel Contents: Online exercises on nouns, adjectives, verbs, prepositions, pronouns and word order. Objective: To revise the whole basic grammar of German. Evaluation: Pass/Fail Target group: Foreign students who have studied German for about three years. Literature: Online materials at http://donnerwetter.kielikeskus.helsinki.fi/DvG/ Prerequisites: Kie-98.6021- Kie-98.6032 or equivalent knowledge Language: Finnish or English (Pauli Kudel) CEF level: CEF Target Level: A2
Kie-98.5800 Scientific Writing in Swedish P (2-3 cr) Kie-98.5900 Student Tutoring in Swedish (1 cr) Kie-98.5905 Glossary Project (1 cr) Kie-98.5911 Swedish for International Students (2 cr) 24 + 28, lectured on demand Lecturer: Swedish teachers Contents: Students learn to talk about themselves, their country and studies. In addition, they practice language needed in simple everyday situations, for example, shopping, going to restaurant, situations occurring while travelling etc. The course also introduces the central basic grammar of Swedish. Objective: To familiarise students with the most important basic vocabulary and structures and to practice simple everyday communicative situations. In addition, students learn about the Finnish culture and society. Requirements: Exercises on grammar, group work and discussions. The course includes a written final examination. Evaluation: 1-5 Target group: Foreign or Finnish students with no prior Swedish studies. Literature: Nyborg, R. m.fl. Svenska utifrån. Lärobok i svenska and Byrman, G. & Holm, B. Svenska utfirån. Övningar del 1 and/or material provided by the teacher. Web page: : www: http://kielikeskus.tkk.fi/fi/opetus/kurssit/ruotsi/kie985911/ Language: English CEF level: A1
Kie-98.6450 German Grammar 2 (2 cr) Kie-98.6459 German Listening Comprehension (1 cr) Kie-98.6569 German in the Media (2 cr) Kie-98.6579 German Conversation (1 cr) Kie-98.6609 German Writing Skills (2 cr) Kie-98.6619 Introduction to German Culture 1 (1 cr) Kie-98.6620 Introduction to German Culture 2 (1 cr) Kie-98.6629 German Literature 1 (2 cr) Kie-98.6630 German Literature 2 (2 cr)
Kie-98.6011 German 1A (2 cr)
Kie-98.6649 German for Business A (2 cr)
Kie-98.6012 German 1B (2 cr)
Kie-98.6651 German for Business B (2 cr)
Kie-98.6021 German 2A (2 cr)
Kie-98.6669 Oral Communication (2 cr)
Kie-98.6022 German 2B (2 cr)
Kie-98.6700 Self-access Course in German 1 (1 cr)
Kie-98.6031 German 3A (2 cr)
Kie-98.6710 Self-access Course in German 2 (2 cr)
Kie-98.6032 German 3B (2 cr)
Kie-98.6729 Technical German Reading Comprehension (2-3 cr)
Kie-98.6041 German 4A (2 cr) Kie-98.6739 German for Science and Technology 1 (2
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Language: Finnish and English CEF level: CEF Target Level: A1
Kie-98.6749 German for Science and Technology 2 (2 cr)
Kie-98.7021 Finnish 2A (2 cr)
Kie-98.6800 Field-specific Technical German (2-4 cr)
Kie-98.7022 Finnish 2B (2 cr)
Kie-98.6900 Student Tutoring in German (1 cr)
Kie-98.7031 Finnish 3A (2 cr)
Kie-98.7001 National Language Requirement (Finnish), writing test (1 cr)
Kie-98.7032 Finnish 3B (2 cr) Kie-98.7041 Finnish 4A (2 cr)
Kie-98.7002 National Language Requirement (Finnish), oral test (1 cr) Kie-98.7011 Finnish 1A (2 cr) 24 + 28 I, III Lecturer: Finnish teachers Contents: Finnish sounds and alphabet. Basic vocabulary and grammar. Greetings. Countries, languages and nationalities. Food. Numerals and vocabulary needed for shopping. Clothes, body parts and colours. A short telephone conversation. Days of the week, times and other central expressions relating to time. Family and apartment. Forming questions and answers. Vowel harmony. Partitive singular. The possessive structure (-lla on). Objective: To learn Finnish pronunciation and basic features of Finnish, vocabulary and simple everyday conversations. Requirements: Texts, exercises and pair work. Homework assignments include exercises on grammar and writing. Written final exam. Evaluation: 1-5 Literature: In-house materials “Suomi 1”, Chapters 1 - 5. Prerequisites: None. This course is intended for beginners. Substitutive: This course together with Kie-98.7012 replaces Kie-98.199. Language: English and Finnish CEF level: CEF Target Level: A1
Kie-98.7042 Finnish 4B (2 cr) Kie-98.7051 Finnish 5A (2 cr) Kie-98.7070 Finnish for Engineering Students (2 cr) Kie-98.7101 Academic Writing in Finnish P (1 cr) Kie-98.7200 Finnish Discussion Course (1 cr) Kie-98.8001 A Foretaste of Russian (1 cr) Kie-98.8011 Russian 1A (2 cr) Kie-98.8012 Russian 1B (2 cr) Kie-98.8021 Russian 2A (2 cr) Kie-98.8022 Russian 2B (2 cr) Kie-98.8031 Russian 3A (2 cr) Kie-98.8032 Russian 3B (2 cr) Kie-98.8041 Russian 4A (2 cr) Kie-98.8042 Russian 4B (2 cr) Kie-98.8051 Russian 5A (2 cr)
Kie-98.7012 Finnish 1B (2 cr) 24 + 28 II, IV Lecturer: Finnish teachers Contents: Basic vocabulary and grammar needed in everyday life and when talking about your life. Daily schedule and leisure time. Asking for location and directions. Expressing your opinion and asking others about theirs. Verb conjugation and types of verbs. Imperative singular. Local cases. Word types of nominals. The consonant gradation in verbs and nominals (k, p, t). Objective: Learning language needed to cope in everyday communicative situations and to talk about yourself and your life in Finland. Requirements: Texts, exercises and pair work. Homework assignments include grammar and writing exercises. Written examination. Evaluation: 1-5 Literature: In-house materials “Suomi 1”, Chapters 6 - 9. Prerequisites: Kie-98.7011
Kie-98.8052 Russian 5B (2 cr) Kie-98.8061 Russian 6A (2 cr) Kie-98.8062 Russian 6B (2 cr) Kie-98.8065 Revision of Russian for Everyday Use (2-3 cr) Kie-98.8101 Revision of Russian Grammar (2-4 cr) Kie-98.8106 Russian Conversation (1-2 cr) Kie-98.8109 Autonomous Course in Russian (1-2 cr) Kie-98.8271 Russian Business Communication (2-4 cr) Kie-98.8281 Industrian Russian (2-4 cr)
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Kie-98.8403 Russian for Science and Technology (1-3 cr)
receive feedbacks on each others’ work, practice job interviews and hold meetings and panel discussions to develop their skills in these fields. Objective: Enhance and develop student’s ability to communicate effectively at both individual and group level as well as train the student for different work-related communication situations. Requirements: Lectures, assignments, group work and recording presentations on video. Evaluation: Pass/Fail Literature: Online material Additional information: The course is also provided in English.
Kie-98.8900 Student Tutoring in Russian (1 cr)
Vie-98.1222 Cultures and Communication (2 cr)
Kie-98.9410 Chinese 1 (4 cr)
Vie-98.1223 Meeting Skills (2 cr)
Kie-98.9411 Chinese 2 (4 cr)
Vie-98.1224 Negotiating Skills (2 cr)
Kie-98.9412 Chinese 3 (4 cr)
Vie-98.1225 Team Work (2 cr)
Kie-98.9413 Chinese Conversation (4 cr)
Vie-98.1226 Debating Skills (2 cr)
Kie-98.9414 Introduction to Chinese Characters (2 cr)
Vie-98.1227 Environmental Issues (3 cr)
Kie-98.9511 Italian 1 A (2 cr)
Vie-98.1228 Informative Presentations (1 cr)
Kie-98.9512 Italian 1 B (2 cr)
Vie-98.1229 Job Search (1 cr)
Kie-98.9521 Italian 2 A (2 cr)
Vie-98.1230 Introduction to Effective Communication (1 cr)
Kie-98.8391 Russian in the Media (1-3 cr) Kie-98.8393 Introduction to Russian Culture (1-2 cr) Kie-98.8395 Russian Literature (1-2 cr) Kie-98.8399 Directed Study in Russian (2 cr) Kie-98.8401 Science and Technology (1-3 cr)
Kie-98.9522 Italian 2 B (2 cr) Vie-98.1220 Speech Communication (2 cr) 24 + 28 I, II, III, IV Lecturer: Eeva-Leena Aittoniemi and Tarja Tuomikoski Contents: During the course, the students become aware of their communication abilities and learn to prepare and give oral presentations. The students also give and
Vie-98.1232 Effective Use of Voice and Speech Technique (1 cr) Vie-98.1233 Public Speaking (2 cr) Vie-98.1331 Speaking Argumentation and Persuasion (1 cr)
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FACULTY OF ENGINEERING AND ARCHITECTURE http://engineering.tkk.fi International Coordinator Ms Saara Sokolnicki Degree Programme of Architecture Degree Programme of Landscape Architecture International Coordinator Ms Auli Puhakka-Autio International Study Adviser
[email protected] Degree Programme of Energy and HVAC Engineering Degree Programme of Mechanical Engineering Planning Officer (Study affairs) Ms Leila Kuusela International Study Adviser
[email protected] Degree Programme of Geomatics Degree Programme of Real Estate Economics Planning Officer Ms Päivi Kauppinen Degree Programme of Structural Engineering and Building Technology Degree Programme of Transportation and Environmental Engineering Planning Officer Mr Seppo Hänninen International Study Adviser
[email protected]
Department of Architecture A-112.2501 Wood in Architecture and Construction (3-6 cr) I-II+IV Lecturer: Pekka Heikkinen, architect, visiting lecturers Contents: Lecture course that goes deep into the central questions of wood construction. The topics of the course include wood as a construction material, from a technical, ecological and esthetical point of view, and topical questions within wood construction. Requirements: Lectures, excursion and exam. As a complement the following course is recommended: Puu28.1000 Introduction to Wood Properties. The course is part of the International Architecture Program entity. Substitutive: Replaces the course A-112.501. Additional information: Part of International Architecture Program Language: English A-112.2700 Wood Construction - course with varying content (8-10 cr) III-IV Lecturer: Pekka Heikkinen, architect, visiting teachers Contents: In a studio like course students get acquainted with current issues within wood construction. Varying subject. The study period is realized in cooperation with other chairs of the Department of Architecture. Requirements: A demanding design assignment, lectures, a seminar and a possible excursion. Studio like working methods. The course is organized either in the autumn
or spring term alternately with the Wood Studio. Substitutive: Replaces the course A-112.700. Additional information: Open for students at the Department of Architecture, and relevant parts to students from the departments of Civil and Environmental Engineering and Forest Products Technology. The course is part of the International Architecture Program entity. Language: English A-112.2800 Wood Construction, intensive course (3-15 cr) IV Lecturer: Visiting teacher Contents: An intensive course with varying content or a studio or workshop by a visiting teacher. Substitutive: Replaces the course A-112.800 Language: English A-112.2998 Wood Construction, special project (3-15 cr) Lecturer: Pekka Heikkinen, architect, visiting teachers Contents: Introduction to wood construction and its special issues through individual student work. Requirements: Written work, design project, practical work, video, exhibition etc. The topic, realisation and the time for accomplishment will be agreed upon with the teacher or will be announced separately. Substitutive: Replaces the course A-112.998
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Additional information: Open for students at the Departments of Architecture, Civil and Environmental Engineering and Forest Products Technology. Language: Finnish, English when needed Language: Finnish A-112.3510 Wood Studio (12-15 cr) A-112.3610 Wood Program, special project P (10-15 cr) I-IV Lecturer: Pekka Heikkinen, architect, Kimmo Lylykangas Contents: A specializing programme, directed towards students in the Wood Program, that goes deep into the characteristics of wood and its use as a modern building material. During the autumn term three small-scaled design- and wood work assignments are realized and a competition of ideas for the spring project. During the spring term a building or construction will be designed and built, according to industrialized wood construction principles. A course diary will be made on the basis of exercises, lectures and excursions. Requirements: Exercises, excursions and a course diary. Substitutive: Replaces the course A-112.610 Additional information: As a complement the following course is recommended: Puu-28.5010 Industrial Wood Construction, arranged at the Laboratory of Wood Technology. Open only for students from the IAP Wood Program at the Department of Architecture. Language: English Language: English A-112.4602 Wood Construction, postgraduate course P (3-22 cr) Lecturer: Pekka Heikkinen, architect or visiting teacher Contents: Integration of the course to postgraduate studies will be decided upon individually with the teacher. Literature: To be decided upon individually Substitutive: Replaces the course A-112.602 Additional information: Open for students at the Departments of Architecture, Civil and Environmental Engineering and Forest Products Technology. Language: Finnish, English when needed Language: Finnish A-27.1103 History of Architecture, basic course I (4 cr)
A-27.1243 Renovation of Traditional Structures (6-9 cr) A-27.1501 History of Wood Architecture in Finland (315 cr) III-IV Lecturer: Aimo Nissi, architect Contents: History, conservation and renovation of wooden structures, historical wooden towns and churches in Finland. Finnish nature and traditional cultural landscape. Building types and solutions, ideology of modern wood architecture. Requirements: Planning and designing of an enlargement or renovation of a wooden building; exam. Substitutive: Replaces the course A-27.501 Additional information: The course is part of the departments International Architecture Program entity. Language: English A-27.1510 History of Finnish Architecture (2-5 cr) I-II and/or III-IV Lecturer: Aimo Nissi, architect Contents: A lecture course that gives an introduction to the special features of Finnish architecture and the relationship between architecture, landscape, resources and history. Intensive autumn and spring periods. Possibility to take both autumn and spring periods. The spring term course is part of the lecture series “Finnish Society and Culture” organised by the University of Helsinki. Requirements: Lectures, excursions and an essay. Substitutive: Replaces the course A-27.510 Additional information: The course is part of the International Architecture Program entity. Language: English A-27.2220 History of Architecture - course with a varying content P (3-6 cr) A-27.2340 History of Garden Design (5 cr) A-27.2998 History of Architecture, special project V A (3-15 cr) A-27.3302 Building Conservation, studio (9-15 cr) A-27.3310 History of Architecture, Research Topics, studio P (12-15 cr)
A-27.1104 History of Architecture, basic course II (5 cr) A-27.1111 Introduction to History of Architecture and Art (1 cr)
A-27.3600 Postgraduate Seminar on History of Architecture P (3-8 cr)
A-27.1155 History of Town Planning (4 cr)
A-36.1001 Urban Planning and Design as a Profession (1 cr)
A-27.1200 Architecture in Finland and Scandinavia (615 cr)
A-36.1150 Introduction to Urban Planning and Design (4 cr)
A-27.1210 History of Modern Architecture (5-9 cr)
A-36.1152 Basic Course in Urban Planning and Design (5 cr)
A-27.1231 Art History (4 cr)
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A-36.1200 Drafting a Participation and Assessment Scheme (1 cr)
for a locality or region. Requirements: Attendance of lectures and tutorials, approved completion of course assignments and course portfolio. Language: English
A-36.1202 Urban Space 1 (6 cr)
A-36.3326 Research Methodology P (5 cr)
A-36.1203 Urban Space 2 (6 cr)
A-36.3330 Urban Renewal Studio (10 cr) I-II, 26+54 (2+4) Lecturer: Prof.Trevor Harris, Antti Ahlava, architect, N.N. Contents: The spatial, plastic, programmatic and physical development of the existing built environment. The management of complex room programmes, facilities and processes.The course may contain a voluntary fieldwork period in Finland Requirements: Lectures, tutoring and approved completion of the course assignments. Prerequisites: A-36.2320 (and it’s prerequisites) Substitutive: Replaces the course A-36.330 Language: English, exercise sessions also in Finnish
A-36.1154 Professional Course in Urban Planning (8 cr)
A-36.2320 Principles of Municipal and Regional Planning (10 cr) A-36.2340 The City Rejuvenated (10 cr) A-36.2341 Wooden Town, studio (9-14 cr) A-36.2998 Urban Planning and Design, special project (1-10 cr) Lecturer: Prof Trevor Harris, prof Kimmo Lapintie, prof Peter Ache, Aija Staffans, lab.engineer Contents: Special individual project developing deeper understanding of the field of urban planning and design. The course can also be a foreign course or part of a foreign field trip. Prerequisites: According to the project. Additional information: Language: Finnish. English when needed. Language: Finnish A-36.3321 European Metropolitan Planning P (5 cr) III-IV, 24+24 (2+2) Lecturer: Prof. Peter Ache Contents: The course will address urban policy and strategies of the European Union and look at European spatial development in different member states. Conceptual issues related to space, territory, region, location and Metropolis; the differences between strategy, plan and policy; Concrete Visions; European institutional structures; examples of Metropolitan strategies; applied methods; globalization and its spatial effects. Requirements: Lectures, approved completion of course assignments and a portfolio. Prerequisites: A-36.1150 or A-36.1151, A-36.1152, A36.2320 (for students at the department of architecture also A-36.1001/1000, A-36.1202+1203 or A-36.1201 or A36.201) Language: English A-36.3322 Local Development and Globalisation P (10 cr) III-IV, 26+26 (2+2) Lecturer: Prof. Kimmo Lapintie Contents: The course will introduce the student into local and regional development in the European and global context, its theory and practice, e.g. strategic planning, multicultural and multi-ethnic cities, European integration and its impacts on local policies, and economic globalization and its relationship to local cultures. The students will produce a development plan
A-36.3353 Planning Theory P (5 cr) 26+0 (2+0) Will not be lectured during the academic year 2008-2009 Lecturer: Prof. Kimmo Lapintie Contents: Introduction to main schools of thought in Planning Theory of the post-WW2-period. Philosophical and sociological theories behind planning theory. Contemporary issues in theoretical debates. Requirements: Lecture and seminar attendance, virtual exam and course portfolio based on lectures and literature. Prerequisites: A-36.1001/1000, A-36.1150 or A-36.1151, A-36.1152, A-36.1202/1203 or A-36.1201 or A-36.201, A36.2320. Substitutive: Replaces the course A-36.353 Language: English A-36.3354 Planning Theory P (5 cr) A-36.3360 Communicative Planning and Planning Argumentation P (4 cr) A-36.3501 City in Crisis I (3 cr) I-II, 26+26 (2+2) Lecturer: Hennu Kjisik and Veikko Vasko, architects Contents: The reality of architecture, building and urban planning and design outside Europe, with cultural understanding as the point of departure. The historical, socio-economic and cultural development of emerging nations with local vernacular principles. Requirements: Lectures, seminars and approved completion of written assignments. The course is part of the Department’s International Architecture Program. Prerequisites: A-36.2320 (and it’s prerequisites) Substitutive: Replaces the first part of A-36.3500 Language: English A-36.3502 City in Crisis II (7 cr)
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III-IV, 33+30 (3+15) Lecturer: Hennu Kjisik and Veikko Vasko, architects Contents: Field- & studiowork period. This course is a continuation of the autumn course and is an opportunity to put into practice some of the ideas and principles brought out in the earlier course. Included will be an intensive voluntary fieldwork period in the Far East. Requirements: Studio tuition sessions, seminar crits and the successful completion of the drawn and written assignments. The course is part of the Departments International Architecture Program. Prerequisites: A-36.3501 Substitutive: Replaces the second part of A-36.3500 Language: English A-36.3550 D-Studio (2 cr) I-IV, the seminar is organised twice a term (four times a year) Lecturer: Prof. Kimmo Lapintie, prof. Trevor Harris, prof. Peter Ache, Aija Staffans, lab.engineer, Juhani Karanka and Antti Ahlava, architects Contents: A learning seminar intended for advanced students of Urban Design and Planning in which participants can present, ask and receive comments concerning their ongoing Master Thesis work. The Studio Seminar teachers will advise on pedagogic development, provide opportunities for practising oral and multimedia presentations and give guidance on the principles related to formulating and creating scientific knowledge Additional information: Language: Finnish. English when needed Language: Finnish
and researchers. The programme is founded on lectures, presentations of current research work, tutoring and possible acquaintance with local destinations. Additional information: Language: Finnish. English when needed. Language: Finnish A-52.1200 Housing Design 1 (10 cr) A-52.2310 Housing Design, studio (10 cr) A-52.2320 Housing Design Studio (10 cr) III-IV Lecturer: Prof. Hannu Huttunen, assistant Anne Tervo, university teacher Pirjo Sanaksenaho Contents: An advanced design course dealing with the contemporary topics of dwelling. The excercise comprises a demanding housing object, where the developement of dwelling solutions is emphasized. Current topics. Requirements: Lectures and guided excercise. Participation in mid- and final critic sessions. Prerequisites: Principles of housing design or courses A52.1200/A-52.200 Substitutive: Replaces the course A-52.2310 or A52.3320. Additional information: The course is part of the International Architecture Program entity. Language: English A-52.3320 Housing Design, advanced special studio (10 cr) A-52.3330 Housing Research P (2-10 cr)
A-36.4310 Virtual Course in Environmental Pxychology P (6 cr) A-36.4603 Doctoral Stables, research seminar P (10 cr) I-IV (meetings once a month during the terms) Lecturer: Prof. Kimmo Lapintie, lab.engineer Aija Staffans Contents: Meetings once a month during the terms. Students present and discuss their research projects and develop their own research plans, as well as commenting on the plans of others. Theoretical, methodological, and practical issues are addressed. Participants will also develop skills to defend their thesis. The seminars also include lectures and workshops supporting the research work. Requirements: Term paper and discourse commentary. Active participation in the seminars. Substitutive: Replaces the courses A-36.4600/4601/4602 Additional information: Language: Finnish, English when needed Language: Finnish A-36.4620 Summer Seminar P (3 cr) Lecturer: Prof. Kimmo Lapintie, prof. Peter Ache, Aija Staffans, lab.engineer. Contents: The Summer Seminar is a two day event open to all Urban Planning and Design post-graduate students
A-52.3998 Housing Design, special project (1-10 cr) A-52.4600 Postgraduate Seminar on Housing Design P (2-10 cr) A-60.1106 Introduction to Studies in Architecture and Landscape Architecture (2 cr) A-60.1107 Basics of Architecture 1, autumn term (7 cr) A-60.1108 Basics of Architecture I, spring term (7 cr) A-60.1119 Architecture 2, Basic Design A (9 cr) A-60.1120 Visual Arts 1, autumn (2 cr) I-II, 0+52 (0+4) Lecturer: Ipi Kärki, artist, N.N. Contents: Introduction to the basic concepts of visual expression and plastic design dimension, form and space. The educational aim is to improve the sense of proportion, rhythm and colour. Charcoal and water tasks, wood and clay carving; orientation in the methods and the use of tools used in visual art. Requirements: Lectures and tutored exercises, participation in weekly exercises and critiques. Substitutive: A-60.120
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Additional information: Only for students at the Department of Architecture. The course is part of the International Architecture Program entity, Language: Finnish, English when needed Language: Finnish A-60.1121 Visual Arts 1, spring (2 cr) III-IV, 0+60 (0+4) Lecturer: Ipi Kärki, artist, N.N. Contents: Introduction to the basic concepts of visual expression and plastic design dimension, form and space. The educational aim is to improve the sense of proportion, rhythm and colour. Charcoal and water colour tasks and wood and clay carving; orientation in the methods and the use of tools used in visual art. Requirements: Lectures and tutored exercises, participation in weekly exercises and critiques.Only for students at the Department of Architecture. The course is part of the International Architecture Program entity, Substitutive: A-60.120 Additional information: Language: Finnish, English when needed Language: Finnish A-60.1130 Visual Arts 2 autumn A (2 cr) I-II, 0+52 (0+4) Lecturer: Ipi Kärki, artist, N.N. Contents: By means of exercises and lectures this course is an introduction to the theory of colours. The aim is to go deeper into colour-form- and space thinking and perceive both plastic and coloured entities. During the course a piece of art is studied in space, space is studied from several different angles i.e. through tone, chromatics, own experience and artistic expression. Requirements: Lectures and tutored exercises, participation in weekly exercises and critiques. Prerequisites: A-60.1120 and A-60.1121, or A-60.120 Substitutive: Replaces first part of the course A-60.130. Additional information: Only for students at the Department of Architecture. The course is part of the International Architecture Program entity. Language: Finnish, English when needed Language: Finnish A-60.1131 Visual Arts 2 spring A (2 cr) III-IV, 0+60 (0+4) Lecturer: Kärki, artist, N.N. Contents: By means of exercises and lectures this course is an introduction to the theory of colours. The aim is to go deeper into colour-form- and space thinking and perceive both plastic and coloured entities. During the course a piece of art is studied in space, space is studied from several different angles i.e. through tone, cromatics, own experience and artistic expression Requirements: Lectures, excursions and exercises. Literature: Announced separately. Prerequisites: A-60.1120 and A-60.1121, or A-60.120 Substitutive: Replaces second part of the course A60.130. Additional information: Only for students at the Department of Architecture. The course is part of the
International Architecture Program entity. Language: Finnish, English when needed Language: Finnish A-60.2239 Visual Arts 3 A (4 cr) I-II or III-IV Lecturer: N.N. Contents: The aim is to give students, with an interest of the special areas of artistic expression, an opportunity to go deeper into the subject.,The course contains sculpture, photography, graphic art or video art. Requirements: Lectures, seminar work. A written study about the central theme of the course. Literature: The list of references or copies will be given during the course. Prerequisites: A-60.1130 and A-60.1131 or A-60.130 Substitutive: Replaces the course A-60.239. Additional information: Only for students at the Department of Architecture. The course is part of the International Architecture Program entity. Language: Finnish, English when needed. Language: Finnish/English A-60.2330 Theory of Architecture, studio P (3-10 cr) I-II or III-IV (will not be arranged in 2008-2009) Lecturer: Anni Vartola, architect Contents: Introduction to the central literature of architectural theory, the principles and the status of architecture, the concept of architectural quality, analyses of the different views on the architectural profession. The autumn term studio discusses historical texts from the antique to the 19th century; the spring term topic is contemporary writings of architecture. Requirements: Lectures, seminars, exercises and project work. Limited programme for international guest students. Literature: Hanno-Walter Kruft: A History of Architectural Theory: From Vitruvius to the Present. Princeton University Press 1994. Theorizing a New Agenda for Architecture: An Anthology of Architectural Theory 1965-1995 (ed. Kate Nesbitt). Princeton Architectural Press 1996. Architecture, Theory since 1968 (ed. K. Michael Hays). MIT Press 1998. Substitutive: Replaces the course A-60.330 Additional information: Language: Finnish, English when needed. The course is part of the International Architecture Program entity. Language: Finnish A-60.2332 Creative Writing and Architectural Criticism P (3 cr) A-60.2340 Architecture 1, studio V A (10 cr) I-II (Will be lectured during the academic year 20082009) Lecturer: Prof Simo Paavilainen or a visiting teacher Contents: Interaction between architecture and other fields of art; mental, artistic and conceptual boundaries of architecture; new methods of design. Requirements: Lectures, seminars and critiques; essay. Substitutive: Replaces the course A-60.340
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Additional information: Only for students at the Department of Architecture. The course is part of the International Architecture Program entity. Language: Finnish, English when needed. Language: Finnish A-60.2998 Basics of Architecture, special project (1-10 cr) Lecturer: Prof. Simo Paavilainen, supervisor, to be agreed upon individually. Contents: An individual study project on the special aspects of the basics and/or theory of architecture. The course content and requirements are decided in accordance with the student and the project. Substitutive: Replaces the course A-60.998 Additional information: Only for students at the Department of Architecture. Language: Finnish, English when needed. Language: Finnish A-60.3320 Philosophy and Method, studio P (3-10 cr) A-60.4600 Research Seminar of the Department of Architecture P (4 cr) (Lectured when necessary) Lecturer: N.N. Contents: Discussion and critique session for postgraduate students at the Department of Architecture. Requirements: Seminar paper. Substitutive: Replaces the course A-60.600 Additional information: Language: Finnish, English when needed Language: Finnish A-60.4610 Research Basics in Architecture and Landscape Architecture P (3 cr) A-8.1200 Public Buildings 1 (10 cr) I-IV (lectures), I-II or III-IV (design project) 27+81 (2+6) Lecturer: Prof. Markku Komonen, Saija Hollmen, N.N., architects Contents: The aim of this design course is to provide the students with basic knowledge of design processes, requirements, utility, scaling and the recent architectural development in public building. Requirements: Lectures, examination and approved design project. The course consists of a year-long lecture period for degree students. The autumn lecture series will be held in English, the spring lecture series (only for degree students) will be held in Finnish. The exercise project will be accomplished as a term-long design project either during the autumn or spring term. The exercise part of the course is part of the International Architecture Program entity, Literature: See the Departments own Study Guide. Substitutive: Replaces the course A-8.200 Additional information: Only for students at the Department of Architecture. Language: Finnish. English when needed. Language: Finnish
A-8.1521 Contemporary Finnish Architecture (1 cr) I-II Lecturer: Prof. Markku Komonen Contents: The lecture series offers, through guest lectures by architects, a view on contemporary Finnish architecture. Requirements: Announced separately. Substitutive: Replaces the course A-8. 521 Additional information: The course is part of the International Architecture Program entity. The lectures are organized together with the autumn lecture course A8.1200. Language: English A-8.2310 Public Buildings, studio (10 cr) I-II or III-IV, 16+54 (1+4) Lecturer: Prof. Markku Komonen, N.N., architects Contents: An advanced design course that examines the architectural and technical problems of complex largescale public buildings and facilities for public services. Requirements: Approved design project. Prerequisites: A-8.1200/A-8.200 or equivalent knowledge of building design; A-9.2203 is recommended. Substitutive: Replaces the course A-8.310. Additional information: Only for students at the Department of Architecture. Language: Finnish. Spring term studio in English. Language: Finnish/Sring term studio in English A-8.3315 Public Buildings, advanced special studio (10 cr) A-8.3320 Architecture III, design competition (1-10 cr) A-8.3998 Public Buildings, special project (1-10 cr) A-8.4600 Postgraduate Seminar on Public Buildings (2-10 cr) A-9.1112 Building Technology 1, basic course (9 cr) A-9.1115 Building Technology 2, basic course (9 cr) A-9.1127 Physics and Mechanics of Structures (3 cr) A-9.1137 An Architect’s Material Technology (3 cr) A-9.1151 IT 1 Introduction to Architectural IT (1 cr) I-II Lecturer: N.N. Contents: Introduction of the basic elements, concepts and methods of architectural computing. TKK networks, architects tools for communication, writing, calculation, drawing and modelling (CAD). Requirements: Lectures, approved exercises. Additional information: The course is part of the International Architecture Program entity. Language: English A-9.1152 IT 1 The Computer as the Architects Tool 1 (2 cr)
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A-9.1153 IT 1 The Computer as the Architects Tool 2 (2 cr) A-9.1161 IT 1 Introduction to Architectural CAD (4 cr) A-9.1162 IT 1 Introduction to Landscape Architecture Information Management (3 cr)
A-9.2351 Building Structures, special project (2-12 cr) Lecturer: Prof. Tor-Ulf Weck Contents: An individual study project on the special aspects of building structures. Detailed contents to be agreed upon with the tutor. Substitutive: Replaces the course A-9.351 Language: Finnish/English A-9.2998 Building Technology, special project (3-15 cr)
A-9.1170 IT 2 The Basics of ArchiCAD (4 cr) A-9.1171 IT 2 Course with Varying Content (4-6 cr) A-9.1173 IT 2 The Basics of ADT (4 cr) A-9.1180 IT 3 Architectural Visualisation (4 cr) A-9.1181 IT 3 Information Management for Architects (4 cr) A-9.1183 IT 3 Intensified CAD (4 cr) A-9.2203 Working Drawings and Building Specifications (5-15 cr) I-IV Lecturer: N.N., architect Contents: Realisation of a building project and the necessary documents; technical drawings, building element drawings and a building description. Requirements: The course includes an opening lecture and exercises. The course is mandatory for those who have started 1994 or later and chosen building design as their main subject. Substitutive: Replaces the course A-9.203. Additional information: The course must be finished before the commencement of the main study subject. Only for students at the Department of Architecture. Language: Finnish, English when needed Language: Finnish
A-9.3309 Renovation of Buildings, studio V A (10 cr) III-IV Lecturer: Prof. Antti-Matti Siikala, Päivi Väisänen, N.N., architects Contents: Introduction to renovation of newer building stocks. In addition to lectures the course includes planning of an old building for reuse, the needed technical explanations connected to the planning. Requirements: Exercise. Prerequisites: A-9.1115/A-9.115, recommended A-9.2203 Substitutive: Replaces the course A-9.309. Additional information: Only for the students at the Department of Architecture. The course is part of the International Architecture Program entity. Language: Finnish, English when needed Language: Finnish MA-94.1114 Basics of Landscape Architecture (4 cr) MA-94.1116 Basics of Landscape Architecture, spring (5 cr) MA-94.1120 Field Workshop 1 (2 cr) MA-94.1121 Field Course 2 (2 cr) MA-94.1128 Fundamentals of Forestry (3 cr) MA-94.1135 Geomorphology (3 cr)
A-9.2251 Special Aspects in Structural Design P (5 cr)
MA-94.1136 Hydrology and Climatology (3 cr)
A-9.2310 Product Design, studio (10 cr) I-II Lecturer: Prof. Antti-Matti Siikala, N.N., architect Contents: A studio course that experiments with practical construction using given building materials. The studio goes deep into one material and its potentials. Designing and constructing of a a small building or building component. Plenty of handwork. Excursions to industrial plants and buildings. Requirements: Design work and construction. Prerequisites: A-9.1115/A-9.115, A-9.203 recommended, or corresponding knowledge of design. Substitutive: Replaces the course A-9.310. Additional information: The course is part of the International Architecture Program entity. Language: Finnish, English when needed Language: Finnish
MA-94.1137 Botany (3 cr) MA-94.1138 Landscape Ecology (3 cr) MA-94.1139 Landscape Analysis (4 cr) MA-94.1140 Plants in Design 1 (3 cr) MA-94.1141 Plants in Design 2 (3 cr) MA-94.1152 The Basics of GIS Technology (3-9 cr) MA-94.1162 Housing Environment (7 cr) MA-94.1170 Landscape Construction (6 cr) MA-94.1210 Contemporary Landscape Architecture (3 cr)
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MA-94.1217 Public Open Space (7 cr) MA-94.1221 Plants in Design 3 (3 cr) MA-94.1230 Open Space Planning (6 cr)
Additional information: The topic in the autumn 2008 will be “Public Parks in Finland”. The course is lectured in English. Language: Finnish/English MA-94.2400 Readings in Landscape Architecture (4-6 cr)
MA-94.1240 History of Cultural Landscape (3 cr) MA-94.1250 Laws and Administration in Landscape Planning and Management (2 cr) MA-94.1251 Landscape Management (3 cr) MA-94.1252 Landscape and Land Use (7 cr) MA-94.2144 Project Management in Landscape Architecture (6-9 cr) MA-94.2244 History of Landscape Architecture in Finland (4-6 cr) I-II (Alternate years, next time in the fall 2009) Lecturer: Eeva Ruoff, Ph.D. Contents: The history of landscape architecture and horticulture in Finland from the late Middle Ages to the 1960’s; general background, ideological traits, ideals, styles and literature. Requirements: Lectures, exam and excursions. Substitutive: Replaces the course MA-94.244 History of Landscape Architecture in Finland (2 ocr). Additional information: Language: Finnish, English when needed. The course is a part of the International Architecture Program. Language: Finnish MA-94.2324 Streets and Squares, studio (9-12 cr) MA-94.2346 Plants in Cultural Landscape and Old Gardens (3 cr) MA-94.2348 Field Research - Parks and Gardens, studio (3 cr) MA-94.2392 Landscape Design, course with varying content (3-6 cr) I-II Lecturer: Eeva Ruoff, Ph.D Contents: Course with an annually changing topic with the objective to discuss current and interesting issues of landscape design. Substitutive: Replaces the course MA-94.392 Landscape Design, course with varying content (2-4 ocr).
MA-94.2990 Landscape Planning, special project (1-15 cr) MA-94.2992 Landscape Design, special project (1-15 cr) MA-94.2994 Landscape Management, special project (1-15 cr) MA-94.3142 Design of Special Environments, studio (9-12 cr) MA-94.3143 Architecture and Landscape, studio (9-12 cr) MA-94.3145 Advanced Course in Landscape Design, studio (9-12 cr) MA-94.3310 Landscape of Production, studio P (9-12 cr) MA-94.3312 Environmental Impact Assessment, studio P (9-12 cr) MA-94.3340 Theory of Landscape Architecture, studio P (9-12 cr) MA-94.3342 Conservation of Parks and Gardens, studio L (9-12 cr) MA-94.3344 Cultural Landscape Management, studio P (9-12 cr) MA-94.4601 Postgraduate Seminar on Landscape Planning and Management P (3-15 cr) Lecturer: Prof. Maija Rautamäki Substitutive: Replaces the course MA-94.4600 Additional information: Language: Finnish, English when needed Language: Finnish MA-94.4602 Postgraduate Seminar on Landscape Design and Construction P (3-15 cr)
Department of Energy Technology ENE.kand Bachelor’s Thesis and Seminar (10 cr) ENE.kyps Maturity Test ()
Ene-39.2001 Thermodynamics and Heat Transfer (5 cr) 26+39 (2+3) I-II Lecturer: Prof Markku Lampinen
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Contents: A general view of basic ideas and applications of thermodynamic analysis. Results are applied to finding out thermal- and physico-chemical properties of materials and to analysing the performance characteristics of the most important thermal- and flow machines, amongst other things. Fundamentals of heat transfer. Requirements: Written examination, supporting literature is allowed in part of the examination. The points obtained from the exercises are included into the examination results. Literature: Markku Lampinen: Termodynamiikan perusteet, Otatieto 582. Lecture notes. Prerequisites: First year studies. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.2007 Exercises in Thermodynamics (2 cr) 0+0 I-IV Lecturer: Prof Markku Lampinen Contents: Several exercises related to the applied thermodynamics. Alternatively, the course can be passed by doing a single, more extensive exercise. Requirements: Accepted exercise. Evaluation: Pass/fail. Prerequisites: Recommended Ene-39.2001 or corresponding. Additional information: The course can be completed also in English. Language: Finnish. Ene-39.3003 Technical Thermodynamics (3 cr) 20+20 (2+2) III-IV Lecturer: Prof Markku Lampinen, Ralf Wikstén, specialist teacher and Mamdouh El Haj Assad, Docent Contents: Thermodynamics of humid air. Gas flows in nozzles. Exergy and application of exergyanalysis on processes in energy technology. Thermodynamic analysis of non-stationary processes. Absoorption chillers and heat pumps. Requirements: Written examination, supporting literature is allowed but solved problems are not. Literature: Opetusmonisteet. Prerequisites: Ene-39.2001 or equivalent. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.3004 Chemical Thermodynamics P (6 cr) 30+30 (2+2) III-IV Lecturer: Prof Markku Lampinen Contents: State diagrams and chemical tables. Combustion, kinetics and emissions of combustion and gasification of solid fuels. Electrochemical processes, fuel cells and electric batteries. Solutions, multi-phase systems and corrosion. Calculating thermodynamic states of equilibrium for chemical systems using a computer program. Requirements: Written examination, supporting literature is allowed. Points obtained from the exercises
are included in the examination results. Literature: Markku Lampinen ja Ari Seppälä: Kemiallinen termodynamiikka energiatekniikassa. Lecture note. Lab. of appl. thermodynamics. Prerequisites: Ene-39.2001 or equivalent. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.3010 Thermal Power Cycles (3 cr) 20+30 (2+3) I-II Lecturer: Ralf Wikstén, specialist teacher Contents: Introduction to theory of the thermal power cycles. Stream-, gas turbine- and combined power plants. Refrigerators and heat pumps. Requirements: Written examination, supporting literature is allowed but solved problems are not. Points obtained from the exercises are included in the examination results. Literature: Wikstén, R.: Lämpövoimaprosessit, Otatieto 572. Prerequisites: Ene-39.2001. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.3014 Flow Machines (5 cr) 24+36 (2+3) III-IV Lecturer: Ralf Wikstén, specialist teacher Contents: Introduction to thermodynamics and flow mechanics of flow machines, such as air motors, nozzles, steam- and gas turbines, compressors, internal combustion engines, pumps, fans, wind- and water turbines. Requirements: Written examination, supporting literature is allowed but solved problems are not. Points obtained from the exercises are included in the examination results. Obligatory laboratory measurements of compressor characteristics and analysis and reporting of the results. Literature: Wikstén, R.: Virtauskoneet, Lab. of appl. thermodynamics, Report 139, lecture notes. Prerequisites: Ene-39.2001 Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.3021 Heat Transfer (4 cr) 26+39 (2+3) I-II Lecturer: Prof. Markku Lampinen Contents: Different forms of heat transfer, conduction, convection, condensation, boiling and radiation and their application to examples such as the calculation of thermal insulation or heat exchangers are studied. The course includes a laboratory demonstration of measuring the performance characteristics of a heat exchanger. Requirements: Written examination, supporting literature is allowed but solved problems are not. Points obtained from the exercises are included in the examination results. Literature: Markku Lampinen, Lämmönsiirto-oppi, Lab.
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of appl. thermodynamics, Report 138. Prerequisites: Ene-39.2001 (attending lectures). Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4006 New Energy Production Processes P (5 cr) I-II (Alternate years, will be lectured in autumn 2008) Lecturer: Prof. Markku Lampinen, visiting lecturers Contents: The subject varies yearly. Requirements: Written examination. Literature: Lecture notes. Prerequisites: Ene-39.2001 or equivalent. Language: English. Ene-39.4018 Theoretical Assignment in Applied Thermodynamics (5 cr) 0 + 0 I-IV Lecturer: Prof. Markku Lampinen Contents: A Theoretical study on a given subject, which contains the essential calculation- and analysing methods of thermodynamics. Depending on student´s interest, the work can also be oriented to mass transfer or fluid mechanics. Requirements: Approved work. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4024 Design of Heat Exchangers P (6 cr) 26+26 (2+2) III-IV Lecturer: Prof. Markku Lampinen Contents: Different forms of heat transfer from the point of view of heat exchangers. Different heat exchanger solutions and their connecting systems in various actual conditions. The exchanger types concerned are: fintubeand plate exchangers, superheaters, condensers, evaporators and regenerative exchanger. Rediation of gases and its application to calculating the combustion chamber. Design, properties and solutions of heat recovery systems. Requirements: Written examination, supporting literature is allowed. Obligatory homework. Literature: Lämmönsiirtimien mitoitus. Markku Lampinen (ed.), Lab. of appl. thermodynamics, Report 145, lecture notes. Prerequisites: Ene-39.3021 or equavalent. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4027 Mass Transfer P (5 cr) 26+26 (2+2) I-II Lecturer: Tuula Noponen, specialist teacher Contents: Basics of mass transfer and its application possibilities in nature conservation-, drying-, heat- and HVAC-technologies. Humid air heat exchangers, drying processes, distillation, desulphuration of combustion gases. Requirements: Written examination, also exercises.
Literature: Seppälä, Lampinen: Aineensiirto-oppi. Otatieto 604. Prerequisites: Ene-39.2001, recommended Ene-39.3004 and Ene-39.3021. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4030 Advances in Computational Fluid Mechanics and Heat Transfer P (7 cr) 27+0 (2+0) III-IV Lecturer: Prof Timo Siikonen Contents: Computational fluid mechanics are applied to some basic flow cases. The basics of a pressure correction method are applied in exercises. Aerodynamic applications. Turbulence models and geometry definition. Requirements: Homework and written examination. Literature: Ferziger, Peric: Computational Methods for Fluid Dynamics. Lecture notes. Prerequisites: Ene-39.4037. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4031 Viscous Flow P (5 cr) 30+30 (2+2) I-II Lecturer: Prof. Timo Siikonen Contents: This course familiarizes the student with the Navier-Stokes equations, its simplified forms and the associated boundary condition problems. The objective is that the student will gain the necessary understanding of the Navier-Stokes equations, acquire the skills to simplify them in different flow cases and learn to apply the proper boundary conditions and solutions techniques. The course is best suited for students interested in aerodynamics, hydrodynamics, gas dynamics and energy engineering. The course covers the following topics: Basic principles of viscous fluid flow; derivation of fundamental equations; laminar flow; stability of fluid flow; turbulent flow and the associated methods to model it; boundary layer theory. Requirements: Written examination and homework. Literature: Frank M. White: Viscous Fluid Flow. ISBN10: 0072402318 ISBN-13: 978-0072402315. Prerequisites: Kul-34.3100 Introduction to Fluid Mechanics Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4037 Fundamentals of Computational Fluid Mechanics and Heat Transfer P (7 cr) 27+0 (2+0) I-II Lecturer: Prof. Timo Siikonen Contents: Control-Volume method used in numerical solution of a flow and temperature field. Finite difference-methods and their properties. Applications to heat transfer and aerodynamics. Requirements: Compulsory exercises and written examination.
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Literature: Lecture notes. Fletcher, Computational Techniques for Fluid Dynamics Anderson-TannehillPletcher, Computational Fluid Mechanics and Heat Transfer. Prerequisites: Ene-39.4031. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4043 Individual Assignment in Thermal Engineering, short (5 cr) 0+0 I-IV Lecturer: Prof. Markku Lampinen Contents: A calculation-, design-, or laboratory exercise related to the development and study of a thermal or flow machine or process. Requirements: Approved assignment. Can also be done as teamwork. Prerequisites: Ene-39.2001. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4044 Individual Assignment in Thermal Engineering, large P (10 cr) 0+0 I-IV Lecturer: Prof Markku Lampinen Contents: A large calculation-, design-, or laboratory exercise related to the development and study of a thermal or flow machine or process. Requirements: Approved assignment. Can also be done as teamwork. Prerequisites: Ene-39.2001. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4048 Natural Gas Engineering (5 cr) Ene-39.4052 Postgraduate Seminar on Heat and Fluid Flow P (2-5 cr) III-IV Lecturer: Prof Markku Lampinen and visiting lecturers. Contents: Course is arranged on alternating and current subjects depending on resources and interest. Requirements: Making a presentation on own research field and listening to presentations of others. Language: English. Ene-39.4053 Postgraduate Seminar on Energy Technology P (2-5 cr) III-IV Lecturer: Prof Markku Lampinen Contents: This seminar is aimed at training researchers in making presentations. The seminar also acts as a discussion forum on current matters. Requirements: Making a presentation on own research field and listening to presentations of others. Language: English. Ene-39.4054 Use of Computational Fluid Dynamics P
(6 cr) 27+27 (2+2) III-IV Lecturer: Prof Timo Siikonen and Ari Miettinen, Lic.Sc. (Tech.) Contents: Studying a commercial flow solver. Specification of boundary conditions and application of turbulence models. Pre- and post processing of flow simulation. Heat transfer applications. Requirements: Written examination and exercises. Literature: Lecture Notes (in Finnish). (Shaw, C.T.: Using Computational Fluid Dynamics). Prerequisites: Ene-39.4031 or equivalent Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-39.4055 Irreversible Thermodynamics P (5 cr) I-II (Alternative years, will not be lectured in autumn 2008) Lecturer: Prof Markku Lampinen, Mamdouh El Haj Assad, Docent and visiting lecturers. Contents: A presentation of the methods of irreversible thermodynamics and their applications in various fields of technology including biophysical processes. Requirements: Written examination. Literature: Lecture notes. Prerequisites: Ene-39.2001 or equivalent knowledge. Language: English. Ene-47.3100 Studia Teknika (2 cr) Ene-47.3152 Introduction to Environmental Protection in Energy Technology (3 cr) Ene-47.4110 Power Generation from Biomass I (3 cr) Ene-47.4111 Power Generation from Biomassa IIa (3 cr) Ene-47.4112 Power Generation from Biomass IIb (3 cr) Ene-47.4113 Measurements in Power Plants (3 cr) Ene-47.4114 Waste to Energy (3 cr) 18+8 III-IV (Even years) Lecturer: Loay Saeed, D.Sc. (Tech.) Contents: Definition of waste, option for waste treatment and recycling, incineration, landfill, waste to energy processes: pyrolysis, gasification, combustion processes, other treatment technologies: composting and anaerobic digestion. Requirements: Examination and excursion. Literature: Material handed out at the course. Language: English. Ene-47.4150 Project in New Energy Technologies (5-7 cr) Ene-47.4151 Individual Assignment in Environment Friendly Energy Processes (5 cr)
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Ene-47.5120 Combustion and Gasification Technology I P (3 cr) 22+8 I-II Lecturer: Loay Saeed, D.Sc. (Tech.) Contents: Principles of heat and power generation technologies based on combustion and gasification. Fuels, fuel conversion chemistry, thermodynamics. Gaseous, liquid and solid fuels. Pulverised fuel firing, stoker firing, fluidised bed combustion. Gasification, combined cycles, recovery boilers, internal combustion engines. Requirements: Examination. Literature: G.L. Borman and K.W. Ragland: Combustion Engineering and material handed out in the lectures. Language: English. Ene-47.5121 Combustion and Gasification Technology II P (3 cr) 16+8 III-IV (Odd years.) Lecturer: Loay Saeed, D.Sc. (Tech.) Contents: As an addition to the basic “Ene-47.5120 Combustion and Gasification Technology” course, it gives an overview and theoretical background of modern developments and technologies. Fuel conversion routes based on advanced pressurised combustion and gasification, combined cycles using gas turbines or fuel cells, supercritical systems and energy recovery from biomass and wastes are discussed. Requirements: Participation in the lecture and exercises. Literature: Material handed out at the course. Prerequisites: Ene-47.5120 or M.Sc. (Tech.). Language: English.
Ene-47.5200 Postgraduate Course on Energy Engineering P (4-7 cr) Lecturer: Prof Carl-Johan Fogelholm Contents: Changing topics that may be customized. Requirements: Examination and excursion. Literature: Lecture notes. Language: English. Ene-58.2101 Basic Technology of Building Services (4 cr) Ene-58.3010 Introduction to Energy Technology (2 cr) Ene-58.3102 Indoor Climate (3 cr) Ene-58.3103 Life Cycle Economy of Building Services (3 cr) Ene-58.3111 Space Heating (5 cr) Ene-58.3113 Ventilation (4 cr) Ene-58.3117 Water Supply and Sewage Techniques (2 cr) Ene-58.3127 Design of HVAC-systems I (3 cr) Ene-58.4122 Advanced Air Conditioning (6 cr) Ene-58.4128 Design of HVAC-systems II (3 cr) Ene-58.4129 Optimization of Energy Consumption in Buildings (5 cr) Ene-58.4139 Measurements in HVAC (3 cr)
Ene-47.5122 Pollutant Formation and Control in Combustion P (3 cr) 20+8 III-IV Lecturer: Load Saeed, D.Sc. (Tech.) Contents: Principles and practice of pollutant formation and control in combustion and gasification processes. Sulphur compounds (SO2, H2S), nitrogen compounds (NO, NO2, N2O, NH3), particulate and other compounds (VOCs, PCDD/Fs, heavy metals, alkali, chlorides, greenhouse gases, O3) are discussed. Total gas clean-up train configuration. This course gives together with the course Puu-127.209 a good general view of the mechanisms of air pollution and its control. Requirements: Examination. Literature: Ron Zevenhoven, Pia Kilpinen: Control of pollutants in flue gases and fuel gases. Language: English. Ene-47.5130 Process Integration, Simulation and Optimization P (3 cr) Ene-47.5131 Life-Cycle Assessment and Environmental Auditing P (3 cr) Ene-47.5140 Wind Energy P (5 cr)
Ene-58.4176 Individual Assignment in HVAC (4-6 cr) I-IV Lecturer: Prof Kai Sirén Contents: Assignment related in a subarea of HVAC technology. Work can be performed as a laboratory work, calculation work, literary research or as theirs combination. Working is performed on appointed schedule. Requirements: Work is made indiviidually. Student is obligated to inform lecturer requrlarly about the progressing of work. Literature: To be announced separately. Prerequisites: Ene-58.4122, Ene-58.4129, Ene-58.4139 Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-58.5152 Postgraduate Seminar in HVAC P (4-8 cr) Lecturer: Prof. Kai Sirén Contents: The subject of the course changes each time. Objective: The objective of the course is to get familiar with the selected theme of the course, shear existing knowledge and experience of the participants, and increase the ability in using scientific methodologies and
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scientific writing. Requirements: Written report and oral seminar presentation on a given subject, individual assignment(s), examination based on the course lectures and material. Literature: To be announced during the course. Prerequisites: MSc majoring in HVAC-technology or corresponding knowledge. Substitutive: Replaces the course Ene-58.152. Language: English.
Ene-59.4160 District Heating Engineering (5 cr)
Ene-58.5175 Special Course in HVAC Technology P (4-10 cr) Lecturer: Prof Kai Sirén Contents: Laboratory or design exercise for postgraduate students. Contents and scope will be agreed with the teacher. Objective: The aim of the course is to make the student familiar with the research methods of the HVAC technology by way of solving an actual problem. Requirements: To be discussed with the teacher. Literature: To be announced at the course. Prerequisites: MSc majoring in HVAC-technology or corresponding knowledge. Substitutive: Replaces the course Ene-58.175. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish.
Ene-59.4210 Special Course in Energy Economics P (5 cr)
Ene-58.5181 Theoretical Modelling of HVAC Systems P (6 cr) Ene-59.2101 Energy Economics (3 cr) Ene-59.4010 Models and Optimization of Energy Systems (5 cr) Ene-59.4101 Fundamentals in Industrial Energy Engineering (5 cr) 24+14 (2+2) I-II Lecturer: Prof Pekka Ahtila Contents: Processes in energy intensive industry in respect to energy use and production (pulp and paper, metal, chemical). Energy efficiency, conservation of energy and nature. Overall survey of energy purchase and energy distribution in industry. Requirements: Examination (both theory and exercise). Literature: Lecture notes. Prerequisites: Ene-39.3010 (obligatory). Substitutive: Replaces the course Ene-59.071. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-59.4102 Energy Production and Industrial Processes (5 cr) Ene-59.4130 Industrial Drying and Evaporation Processes (5 cr) Ene-59.4135 Industrial Utility Systems (4 cr)
Ene-59.4170 Exercise in Industrial Energy Engineering (6 cr) Ene-59.4180 Simulation Exercise in Industrial Energy Engineering (5 cr) Ene-59.4201 Energy Markets (5 cr)
Ene-59.4220 Practical Study Assignment in Energy Economics P (10 cr) Ene-59.5192 Special Exercise in Industrial Energy Engineering P (6 cr) 6+50 II-IV (period) Lecturer: Prof Pekka Ahtila Contents: Individually selected special exercise. Requirements: Special exercise and presentation in seminar. Literature: To be announced separately. Prerequisites: Ene-59.4101 (at least during the same year). Substitutive: Replaces the course Ene-59.092. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-59.5195 Special Topics in Industrial Energy Engineering P (6-10 cr) KON.kand Bachelor’s Thesis and Seminar (10 cr) KON.kyps Maturity Test () Kon-0.1100 General Information on Mechanical Engineering (1 cr) Spring Lecturer: Leila Kuusela, planning officer (responsible) Contents: The objective of the course is to present the degree programmes of Mechanical Engineering and Energy and HVAC Technology and their main options, as well as the major and minor subjects and the resarch units; the requirements of the degree programme, the degree regulation, legal protection issues, administration of the faculties and of the university. Information about practical training will be presented and some guidance in the studies and in the planning of studies will be given. Requirements: Active participation and examination. Literature: Lecture hand-outs and the study guide. Substitutive: The course replaces the old version Kon.0.100 General Information on Mechanical Engineering (0,5 cr). Additional information: For completing this course in English, please contact the international study advisor of Mechanical Engineering. English speaking students accepted on course with individual special arrangements, please contact teacher.
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Language: Finnish. Kul-14.4100 Internal Combustion Engine Technology (5 cr) 32+12 (4+2) I-II Lecturer: Prof Martti Larmi Contents: Internal combustion engine operation fundamentals, basics of gas exchange, supercharging, combustion and emissions, heat losses, mechanical losses. Requirements: Compulsory educational exercises and examination. Literature: Heywood, J. B.: Internal Combustion Engine Fundamentals. McGraw-Hill, 1988, Chapters 6-13 (partly). Material distributed during lectures and lecture notes. Prerequisites: Ene-39.2001 (obligatory, approved), KE35.9700 (obligatory, approved). Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Kul-14.4200 Mechanics and Dynamics of Piston Engines (5 cr) III-IV (every other year, lectured in academic year 2009– 2010) Lecturer: N. N. , university teacher Contents: Special features of piston engines: balancing, torsional vibrations, kinematics and dynamics of gas exchange valves, piston technology, fuel injection. Requirements: Compulsory educational exercises and examination. Literature: van Basshuysen, R., Schäfer, F.: Internal Combustion Engine Handbook (partly), Heisler, H.: Advanced engine technology, Butterworth-Heinemann. 1995 (partly), lecture notes. Prerequisites: Kul-14.4100 (obligatory, approved). Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Kul-14.4300 Laboratory Exercises on Internal Combustion Engines (3 cr) 0+28 (0+4) III-IV Lecturer: Laboratory Manager Teemu Sarjovaara Contents: Engine disassembly and assembly exercise, engine performance and emission measurements, other engine related measurement. Requirements: Laboratory exercises. Target group: The course can be attended only by the students of the Level 3 Module of Internal Combustion Engine Technology K233-3. Literature: Material distributed during laboratory exercises. Prerequisites: Kul-14.4100 (obligatory, approved). Additional information: Only 12 students can participate in the course. The course can be completed also in English with individual arrangements. Language: Finnish. Kul-14.4400 Simulation of Internal Combustion
Engines P (5 cr) III-IV (every other year, lectured in academic year 2008– 2009) Lecturer: Prof Martti Larmi and N. N. , university teacher Contents: Id simulation of engine performance. Computation of cylinder processes and gas exchange: heat heat release, heat transfer, flow through gas exchange valves, turbocharging and supersharging, pipe flow. Computational methods. Requirements: Compulsory educational exercises and examination. Literature: Merker, G. P. & Schwarz, C.: Technische Verbrennung, Simulation Verbrennungsmotorischer Prozesse, 1. Edition 2001, Chapters 1-3. Heywood, J. B.: Internal Combustion Engine Fundamentals Chapter 14 partly. Prerequisites: Kul-14.4100 (obligatory, approved), Kul14.4200 (obligatory, approved). Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Kul-14.4500 Fuels and Lubricants (2 cr) 18+0 (4+0) III Lecturer: N. N. , university teacher and visiting lecturers. Contents: Transport fuels with special attention to biofuels. Important physical and chemical properties in combustion engines and emission formation. Lubricants and the basics of lubrication technology. Requirements: Attending lectures, learning diary or examination. Literature: Material distributed during lectures. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Kul-14.4600 Product Development of Internal Combustion Engines (10 cr) 10+0 I-IV Lecturer: University Lecturer N.N. Contents: Basics of project and team work. Students will carry out a product developing program in around 5 person teams. The project will be either a designing or developing project. Project will also be realized within possibilities in the laboratory Requirements: Approved project work. Literature: Material distributed during lectures. Prerequisites: Kul-14.4100 (obligatory, approved) and at least one of the following Kul-14.4200 (obligatory, approved) or Kul-14.4400 (obligatory, approved). Additional information: Only 12 students can participate in the course. The course can be completed also in English with individual arrangements. Language: Finnish. Kul-14.5100 Engine Spray Combustion Modelling P (10 cr) III-IV 12+12 (period) and a summer school, 12 + 0, in the beginning of June, lectured every other year, starting during the academic year 2007-2008.
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Lecturer: D.Sc. (Tech.) Ossi Kaario and visiting Professors. Contents: 3d modelling of in-cylinder phenomena: flow field and turbulence, fuel spray, combustion, emissions, heat transfer. Requirements: Attending lectures, exercises, examination. Target group: The course is intended only for postgraduate students. Literature: Stiesch, G.: Modeling Engine Spray and Combustion Processes. Prerequisites: Good knowledge of internal combustion engines and fluid dynamics. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Kul-14.5300 Advanced Project on Internal Combustion Engines P (5 cr) I-IV Lecturer: Prof Martti Larmi and N.N., university lecturer Contents: Demanding research study in the field of engine technology. The subject will be arranged individually. Requirements: Research plan, research report and presentation of the study. Prerequisites: Kul-14.4100 (obligatory, approved), Kul14.4200 (obligatory, approved) and Kul-14.4400 (obligatory, approved). Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Kul-14.5400 Post-graduate Seminar on Internal Combustion Engine Technology P (5 cr) I-IV (Arranged every other academic year, not arranged 2008-2009.) Lecturer: Prof Martti Larmi Contents: Seminar, analysis of a doctoral dissertation on Internal Combustion Engine Technology, writing a scientific research plan. Requirements: Attending the seminar actively, analysis of a doctoral dissertation on Internal Combustion Engine Technology, reports and presentations under the seminar, international conference lecture. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Ene-59.020 Design Exercise and Seminar on Energy Economics (5 ocr)
10+50 (period) I-IV Lecturer: Prof Pekka Pirilä Contents: Individually selected special exercise. Seminar of varying content in common with Ene-59.020. Requirements: Special exercise and seminar presentation. Literature: To be announced separately. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Kon-0.171 History of Technology and Industry, general (2 ocr) III-IV, Not available in acadenic year 2008-2009. Lecturer: Timo Myllyntaus PhD (responsible), information Prof Kalevi Aaltonen Contents: Main characteristics of the history of technology and industry, with special emphasis on Finland. Contents vary yearly. The course increases in the history of technology and industry, informs about the courses that deepen its contents and direct the interest to special areas of interest, and guides to selfaccess studies. Requirements: Attendance at lectures and an essay. Evaluation: pass/fail. Literature: Will be notified during the lectures. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-0.210 Mechanical Engineering Design in Wind Energy Converters (2 ocr) Autumn (Alternate years, will not be lectured in 20082009) Lecturer: N.N. Contents: The course gives mechanical engineering background for wind energy converter design. Static and dynamic wind loads on rotor blades, nacelle and tower, wave and ice loads on offshore foundations. Dimensioning of load bearing structures for strength, fatigue, and vibrations, manufacturing and installation of components. Rotor blade and nacelle turning mechanisms, reduction gear, instrumentation, control and maintenance. Requirements: Lectures, exercises and examination. Literature: Wind Energy Handbook and additional material. Prerequisites: Ene-47.160. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
Ene-59.022 Special Exercise and Seminar on Energy Economics L (5 ocr)
Department of Engineering Design and Production ENE.kand Bachelor’s Thesis and Seminar (10 cr)
ENE.kyps Maturity Test ()
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KON.kand Bachelor’s Thesis and Seminar (10 cr) KON.kyps Maturity Test () Kon-0.1100 General Information on Mechanical Engineering (1 cr) Spring Lecturer: Leila Kuusela, planning officer (responsible) Contents: The objective of the course is to present the degree programmes of Mechanical Engineering and Energy and HVAC Technology and their main options, as well as the major and minor subjects and the resarch units; the requirements of the degree programme, the degree regulation, legal protection issues, administration of the faculties and of the university. Information about practical training will be presented and some guidance in the studies and in the planning of studies will be given. Requirements: Active participation and examination. Literature: Lecture hand-outs and the study guide. Substitutive: The course replaces the old version Kon.0.100 General Information on Mechanical Engineering (0,5 cr). Additional information: For completing this course in English, please contact the international study advisor of Mechanical Engineering. English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kon-15.3118 Production Systems (1 cr) 8+18 (2+4) II Lecturer: Pekka Kyrenius, Lic. Sc. (Tech.) Contents: Workshop departments routines and cooperation, alternative production methods and production organizing. Standardization. Principle of JOT. Workshop automation. Requirements: Examination. Literature: Schonberger, R.J.: World class manufacturing. The lesson of simplicity applied. The free press. New York and London 1986. 252 p. Nieben, B.W., Draper, A.B., Wysk, R.A.: Mo-dern Manufacturing Process Engineering McGraw-Hill Book Company, Singapore p. 746 - 986. Groover, M.P.: Automation, production system, and computer-aided manufacturing. Prentice-Hall, Englewood Cliffs NJ, 1980, 601 p. (selected pages). Groover, M.P.: Automation, production system, and computer integrated. Substitutive: The course replaces the old version Kon15.118 (2 ocr) Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.3122 Quality Management and Metrology (5 cr) 27+45 (2+4) III-IV Lecturer: Prof Kalevi Aaltonen Contents: Quality management and principles of metrology in workshop: measuring instruments. Applications of measuring and quality control of different
products. Requirements: Examination and 8 exercises. Exercises include practical measuring. Literature: Collect, C.V., Hope, A.D.: Engineering Measurements. Pitman Publishing Ltd., London, 1983, 391 p. Substitutive: The course replaces the old version Kon15.122. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.3133 Tooling Technology and Design Project (3 cr) 27+27 (2+2) I-II Lecturer: Prof Kalevi Aaltonen Contents: Planning and manufacturing of tools. Includes molds, dies, fixtures and robot grippers. Requirements: Examination and exercises on mold or die construction. Literature: Menges Georg, Mohren Paul.: How to make injection molds. Second Edition. Hanser Publishers, Munich, Vienna, New York, Barcelona, 1993, 535 p. Substitutive: The course replaces the old version Kon15.133. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.3135 Sheet Metal Technologies (2 cr) 12+10 (periodi) III Lecturer: Prof Esko Niemi Contents: Sheet metal and steel construction tasks. Materials. Methods, machines and layout. Safety at work. Production oriented planning. Requirements: Examination and demonstration. Literature: Metals Handbook Desk Ed. Ch. 26 Forming, Metals Handbook 9th Ed. Vol. 14 Forming and Forging. Substitutive: The course replaces the old version Kon15.135. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.3151 Practical Work Training with Machine Tools (3 cr) 0+40 (0+4) I-II Lecturer: Janne Peuraniemi Contents: Manufacturing exercises. Requirements: Exercises and report. Literature: To be announced separately. Substitutive: The course replaces the old version Kon15.151. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
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Kon-15.3157 Research Basics of Production Engineering (7 cr) 0+120 (0+15) I-II Lecturer: Pekka Kyrenius, Lic. Sc. (Tech.) (responsible) Contents: Measurement & analysis of cutting forces. CAD/CAM exercise, NC & robot programming. Requirements: NC programming exam, report. Prerequisites: Kon-15.3151. Substitutive: The course replaces the old version Kon15.157. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.3342 Machine Tools and Accessories (3 cr) 40+0 (4+0) I-II Lecturer: Prof Esko Niemi Contents: Basic theory of cutting, structure of machine tools, features and effectiveness. Current trends. Requirements: Examination. Literature: To be announced separately. Substitutive: The course replaces the old versions Kon15.142, Kon-15.3142 and Kon-15.3242. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kon-15.4115 Manufacturing Processes and Methodology (3 cr) 26+0 (periodi) IV Lecturer: Prof Esko Niemi Contents: Technology industry in Finland, current trends. Production economics: theory of production, economies of scale. Manufacturing strategy, vertical integration. Machine tool investments and maintenance, process planning, assembly, set-ups. Process selection. Manufacturing management. Literature: To be announced separately. Substitutive: The course replaces the old versions Kon15.115, Kon-15.3115 and Kon-15.3215. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.4119 Production Automation (3 cr) 27+27 (2+2) I-II Lecturer: Prof Kalevi Aaltonen Contents: Applications and realization of production automation in workshop. Flexible production automation systems: manipulators, robots, CAD/CAM, storage automation and CIM. Requirements: Examination, exercise. Literature: Groover, M.P.: Automation, production system, and computer integrated manufacturing. Prentice-Hall, Englewood Cliffs NJ, 1987, 808 p. Substitutive: The course replaces the old version Kon15.119. Additional information: English speaking students
accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.4126 Production Technology, special topics (3 cr) 27+27 (periodi) III-IV Lecturer: Prof Kalevi Aaltonen Contents: Content of course varies annually. Special knowledge of workshop engineering. Requirements: Examination and exercises. Literature: To be announced separately. Substitutive: The course replaces the old version Kon15.126. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.4158 Industry Project (5 cr) 0+90 (period) III-IV Lecturer: Pekka Kyrenius, Lic. Sc. (Tech.) (responsible) Contents: Industry Project including a case study and literature research. Prerequisites: Kon-15.3157. Substitutive: The course replaces the old version Kon15.158. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.4159 Design for Manufacturing and Product Design (6 cr) 0+158 (period) I-IV Lecturer: Pekka Kyrenius, Lic. Sc. (Tech.) (responsible) Contents: Product design, Design for Manufacturing, Production planning. Selection of tools and tool setting. Prerequisites: Kon-15.3342. Substitutive: The course replaces the old version Kon15.159. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.4193 SME Subcontractor Networks in Technology Industries (4 cr) Kon-15.4196 Master’s Thesis Seminar (1 cr) I-IV (period) Lecturer: prof. Kalevi Aaltonen Contents: Recent M.Sc thesis presentation seminar. Requirements: Compulsory attendance and active participation. Substitutive: Replaces together wiith Kon-15.4197 the courses Kon-15.4191 and Kon-15.4192. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
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Kon-15.4197 Factory Project (7 cr) 27+50 (2+4) I-II Lecturer: prof. Kalevi Aaltonen, DI Juha Huuki and DI Jarkko Luokkala Contents: Productional investment methods, investment calculation, financing options and industrial investment projects and maintenance and service. Evaluation: Examination, seminar presentation and final report Substitutive: Replaces together with Kon-15.4196 the courses Kon-15.4191 and Kon-15.4192 Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.4198 Modelling Methods in Production Engineering (4 cr) II Lecturer: prof. Esko Niemi Contents: The objective of the course is to familiarize the student with the quantitative modelling methods used in production engineering and with the use of these methods in analysing and solving practical problems. The following methods are studied: simulation, queuing networks, optimization, regression analysis, and neural networks. The tools used are: Simul8, MPX, Microsoft Excel/Solver, OPL/CPLEX, Statistix and Matlab. Evaluation: Lectures, exercises, project work, examination Literature: To be announced separately Substitutive: Replaces the course Kon-15.4195. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.4199 Production Control in Machine Shops (4 cr) III Lecturer: prof. Esko Niemi Contents: The objective of the course is to familiarize the student with the operation of manufacturing systems by modelling and optimizing them using the methods learned on course Kon-15.4198. Evaluation: Lectures, exercises, project work, examination Literature: To be announced separately Prerequisites: Kon-15.4198 Substitutive: Replaces the course Kon-15.4194. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-15.5150 Postgraduate Seminar on Production Engineering P (0-3 cr) 20+20 (periodi) I-IV Lecturer: Pekka Kyrenius, Lic. Sc. (Tech.) Contents: Special programme related to postgraduate
studies. Substitutive: The course replaces the old version Kon15.150. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-16.4001 Basics of Mechanisms (5 cr) Kon-16.4011 Simulation of Multibody Dynamics (5 cr) Kon-16.4051 Basics Course in Vehicle Engineering (4 cr) Kon-16.4061 Vehicle Dynamics (4 cr) Kon-16.4071 Vehicle Electronics (4 cr) Kon-16.4081 Vehicle Development (8 cr) Kon-16.5001 Railway Vehicles (5 cr) Kon-41.2008 Machine Design Basics A (10 cr) 88+92 (4+4) I-IV Lecturer: Markku Kuuva, lecturer (responsible), Prof Kalevi Aaltonen, Prof Hannu Hänninen Contents: The cource is intended for first year students and gives (mechanical) engineering design, manufacturing technology and materials science basic knowledge and skills required in practical design work and later studies. The aim is to build up readiness for communication in design and manufacturing contexts and for simple design tasks. E.g. the following topics are included; reading technical drawings, producing drawings with CAD (Solid Edge), the most typical manufacturing methods and basics for manufacturing method selection, basics in materials science and selection of materials, engineering design terminology, use of standards, production of machine components and making of construction drawings and selection of typical machine parts and components. Requirements: Teaching includes a lecture series, exams, and compulsory personal exercises. Literature: Pere: Koneenpiirustus korkeakouluja varten and Ihalainen, et.al.: Valmistustekniikka, Otatieto 487 and, Ashby MF Jones DRM: Engineering materials I an introduction to their properties and applications, lecture notes. Additional information: Replaces courses Kon-41.008 Engineering Design A 5 ocr, Kon-15.107 Manufacturing Technology 3 ocr and Kon-67.104 Introduction to Materials Science and Selection of Materials 4 ocr, the difference in study credits awarded is compensated in other cources/modules according to the new study structure. English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.2010 Machine Design Basics B (4 cr)
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24+56 (2+4) I-II Lecturer: Markku Kuuva, lecturer (responsible), Seppo Kivioja, lecturer Contents: The course is intended for first year students and gives (mechanical) engineering design basic knowledge and skills required in practical design work and later studies. The aim is to build up readiness for communication in design and manufacturing contexts and for simple design tasks. E.g. the following topics are included: reading technical drawings, producing drawings with CAD (Solid Edge), engineering design terminology, use of standards, production of machine components and making of construction drawings and selection of typical machine parts and components, selected basics in pipeline drawings and process schemes. Selected basics in engineering design calculations are also included. Requirements: Teaching includes a lecture series, an exam, and compulsory personal exercises. Literature: Pere: Koneenpiirustus korkeakouluja varten; Kivioja: Konetekniikka. Lecture notes. Additional information: Replaces the course Kon-41.010 Engineering Design B 3 ocr. English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.2011 Machine Design Basics C (3 cr) 24+44 (2+4) I-II Lecturer: Markku Kuuva, lecturer (responsible) Contents: The course is intended for first year students and gives (mechanical) engineering design basic knowledge and skills required in practical design work and later studies. The aim is to build up readiness for communication in design and manufacturing contexts and for simple design tasks. E.g. the following topics are included: reading technical drawings, producing drawings with CAD (Solid Edge), engineering design terminology, use of standards, production of machine components and making of construction drawings and selection of typical machine parts and components, selected basics in pipeline drawings and process schemes. Requirements: Teaching includes a lecture series, an exam, and compulsory personal exercises. Literature: Pere: Koneenpiirustus korkeakouluja varten. Lecture notes. Additional information: Replaces the course Kon-41.011 Engineering Design C 2 ocr. English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.2012 Machine Design Basics E1 (5 cr) 38+44 I-II Lecturer: Markku Kuuva, lecturer (responsible) Contents: Machine Design Basics A -course autumn term module in the Degree Programme of Energy Engineering and HVAC (ENE), (please see Kon41.2008, common lecture program) Additional information: English speaking students accepted on course with individual special arrangements,
please contact teacher. Language: Finnish Kon-41.2013 Machine Design Basics E2 (5 cr) 50+48 III-IV Lecturer: Markku Kuuva, lecturer (responsible) Contents: Machine Design Basics A -course spring term module in the Degree Programme of Energy Engineering and HVAC (ENE), (please see Kon-41.2008 common lecture program) Prerequisites: Kon-41.2012. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.3003 Machine Elements (8 cr) 40+60 (2+4) I-IV Lecturer: Seppo Kivioja, lecturer Contents: Function and dimensioning of most common machine elements: joining methods, bearings, mechanical power transmission and pressure vessels. Exercises and design projects. Requirements: Exercises, design projects and examination. Exercises must be passed before final exam. The final grade depends on calculation and design exercises and final exam. Literature: Airila & al.: Koneenosien suunnittelu, WSOY. Prerequisites: Kon-41.2008 and Kul-49.2150. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.3006 Computer Aided Design Basic Course (5 cr) 0+48 (0+4)I-II, III-IV Lecturer: Petri Makkonen, teaching research scientist Contents: The intention of the course is to give basic skills in the use of 3D Computer Aided Design software for mechanical design. The topics treated are e.g. the special features of mechanical design and its requirements in modelling, assembly and visualisation. The course contents or corresponding knowledge are necessary in later 3D course work for professional topics. Requirements: Attendance at the practical exercises, intermediate exam and project work. Literature: Lecture notes. Prerequisites: T-106.1001/001, Kon-41.2008/008, Kon41.3003/003 (all obligatory, accepted). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.3023 Hydraulics and Pneumatics (5 cr) 40+40 (3+2) I-II Lecturer: Prof Matti Pietola and Heikki Kauranne, Lic.Sc. (Tech.) Contents: Introduction to hydraulic and pneumatic
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components and systems. Requirements: Examination and exercises. Literature: Kauranne - Kajaste - Vilenius: Hydraulitekniikka (1. painos), WSOY and Ellman, Hautanen, Järvinen, Simpura: Pneumatiikka, Edita. Substitutive: Kon-41.023 Introduction to Fluid Power (3,5 ocr) Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.3130 Mechatronics Exercises (4 cr) III-IV Lecturer: Panu Kiviluoma, teaching research scientist Contents: A team project in mechatronics, improving the overall understanding of functions of mechatronics devices by hands-on exercises. Requirements: Accepted exercise assignment. Prerequisites: Min. 15 cr in the Mechatronics I module (K150-1). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.3140 Mechatronics Sensors and Actuators (4 cr) 16+24 IV Lecturer: Acting Prof. Jari Juhanko Contents: After the course the student is able to describe a mechatronic system and the physical phenomena, basic theory, operating principles, essential features applications for conventional sensors and actuators. The student is able to select feasible sensors, actuators and the necessary peripherals for a simple mechatronic system. Requirements: The preliminary examination, the final examination; The exercises must be passed before the final examination. Literature: Alciatore, D., Histand, M., Introduction to Mechatronics and Measurement Systems, McGraw-Hill International Edition, third edition, 2007. Prerequisites: The other courses of the module Mechatronics I should be passed (recommendation). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.3180 Tribology (5 cr) 30+24 (4+2) III-IV Lecturer: Seppo Kivioja, lecturer Contents: Interaction of surfaces acting upon one another in relative movement: contact of surfaces, friction and wear theories, mechanics of rolling motion, lubrication theories and applications on machine design. Requirements: Laboratory work, exercises, seminar work and examination. Literature: S. Kivioja et al.: Tribologia - kitka, kuluminen ja voitelu. Otatieto n:o 574. Prerequisites: Kon-41.3003.
Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.4001 Product Development (5 cr) II Lecturer: prof. Eric Coatanéa Contents: Research and development in industry. Successful process. Linking strategy and R&D. Identifying and developing of ideas. Conceptual design. Product development methods and tools. Requirements: Homework, team exercises, seminar, exam. Literature: Ulrich, Eppinger: Product Design and Development (3rd edition 2003), course readings given at lectures. Prerequisites: Master level. Designed for simultaneous studying with Kon-41.4002. Substitutive: The course replaces the old version Kon41.001 Product Development (6 ocr). Language: English Kon-41.4002 Product Development Project (10 cr) I-IV Lecturer: Prof Kalevi Ekman Contents: Project work in team settings of roughly 10 students. The development projects are mostly offered and sponsored by industrial companies. The projects include all phases from planning to introducing of a fully functional prototype or demontrator. Requirements: The course starts (period) with introductory lessons and by working out the project plans. Students read selected chapters from the course book and prepare student presentations. The development project continues (periods II, III-IV) for the whole winter and the final results are introduced at the end of April. The grade is composed of practical ressults, project management, applying of proper methods and tools, and of mastering communication and documentation during the project. There is no final exam. Literature: Ulrich, Eppinger: Product Design and Development, selected chapters (3rd edition 2003 recommended, but other editions are valid at this course, too). Prerequisites: The course is aimed at students of technology, economics, or industrial design who are interested in product development of investment or consumer products. Also, students from other disciplines are welcomed to the appropriate extent. The course is intended for the final stage of studies. For practical reasons, the number of students must be limited to roughly 140. Substitutive: The course replaces the old version Kon41.002. Additional information: English will be used in all course elements. Language: English Kon-41.4005 Experimental Methods (5 cr)
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24+17 (2+1) III-IV Lecturer: Panu Kiviluoma, teaching research scientist Contents: Planning of experimental study. Measurement and analysis methods and devices used in mechnaical engineering. The electric measurement techniques of mechanical quatities in the scope of mechanics of materials. machine design, automotive engineering and internal combustion engineering. Requirements: Laboratory exercises and examination. Literature: Wheeler, A., Ganji, A. R.: Introduction to Engineering Experimentation. Pearson. 2004. Prerequisites: Basics in statistical mathematics are recommended. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.4007 Computer Aided Design Advanced Course (6 cr) 20+48 (2+4) I-IV Lecturer: Petri Makkonen, teaching research scientist Contents: The objective is to give deep insight into the use of computer aided design in product development work, utilisation of new methods, use of data transfer between co-operative partners in design and production and utilisation of 3D modelling methods. The re-use of CAD based models in downstream applications is additionally discussed. Requirements: Attendance at lectures, group work assignments (2). Literature: Kunwoo Lee: Principles of CAD/CAM/CAE. Addison-Wesley Longman Publishing Co. 1999. (recommended, not mandatory). Prerequisites: Kon-41.006/3006 (obligatory, has to be passed). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.4008 Orientation to Team-based Design Innovation (5 cr) I–II Lecturer: Lauri Repokari, Pia Helminen, prof. Matti Vartiainen, prof. Kalevi Ekman, Stanford professors Contents: The course is the first of three courses that form the year-long entity taught in collaboration with Stanford University. The entity, Stanford course Engineering 310, is a demanding graduate level course during which students from around the world work together with Stanford students in the context of a corporate-sponsored project. Students are introduced to the tools, methods, and thinking strategies needed to form and creatively manage distributed design engineering teams, in order to deliver full function product and service prototypes. Students spend 6–10 weeks in Stanford. Requirements: Online lectures, group assignments (cases, prototypes, documentation). Literature: Will be announced during the class.
Prerequisites: 150–180 credits; project work experience, such as Kon-41.4002, IDBM project, or similar. Students are selected based on applications. Additional information: Number of participants limited. The same course as TU-53.1610. Language: English. Kon-41.4009 Global Team-based Design Innovation I (10 cr) III Lecturer: Lauri Repokari, Pia Helminen, Prof. Matti Vartiainen, Prof. Kalevi Ekman, Stanford professors Contents: The course is the second of three courses that form the year-long entity taught in collaboration with Stanford University. The entity, Stanford course Engineering 310, is a demanding graduate level course during which students from around the world work together with Stanford students in the context of a corporate-sponsored project. Students are introduced to the tools, methods, and thinking strategies needed to form and creatively manage distributed design engineering teams, in order to deliver full function product and service prototypes. Students spend 6–10 weeks in Stanford. Requirements: Online lectures, group assignments (cases, prototypes, documentation). Literature: Will be announced during the class. Prerequisites: Kon-41.4008 or Tu-53.1610 Additional information: Number of participants limited. The same course as TU-53.1612. Language: English. Kon-41.4010 Global Team-based Design Innovation II (10 cr) IV Lecturer: Lauri Repokari, Pia Helminen, Prof. Matti Vartiainen, Prof. Kalevi Ekman, Stanford professors Contents: The course is the third of three courses that form the year-long entity taught in collaboration with Stanford University. The entity, Stanford course Engineering 310, is a demanding graduate level course during which students from around the world work together with Stanford students in the context of a corporate-sponsored project. Students are introduced to the tools, methods, and thinking strategies needed to form and creatively manage distributed design engineering teams, in order to deliver full function product and service prototypes. Students spend 6–10 weeks in Stanford. The course will end in mid-June. Requirements: Online lectures, group assignments (cases, prototypes, documentation). Literature: Will be announced during the class. Prerequisites: Kon-41.4009 or Tu-53.1612 Additional information: Number of participants limited. The same course as TU-53.1614. Language: English. Kon-41.4027 Modelling and Simulation of Fluid Power Systems P (3 cr) Kon-41.4029 Mobile Hydraulics (2 cr)
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20+20 (2+2) III-IV Lecturer: Prof Matti Pietola Contents: Characteristic features of mobile hydraulic components and systems. Hydrostatic transmission. Construction of fluid power systems in mobile machines. Requirements: Examination and exercises. Literature: Lecture notes. Prerequisites: Kon-41.3023 (or Kon-41.023)(obligatory). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.4030 Pumping Technology (2 cr) 20+40 (2+2) III Lecturer: Hannele Pietola, M.Sc. (Tech.) Contents: Basics of pump technology and pump system design. Requirements: Examination and exercises. Literature: Lecture notes and Lazarkiewicz Troskolanski: Impeller Pumps. Prerequisites: Kul-34.3100 (recommended). Additional information: Course participation requires skills in Finnish, no teaching/material available in English. Language: Finnish Kon-41.4102 Special Course on Product Development Project Management (2 cr) I-IV Lecturer: Prof Kalevi Ekman Contents: Planning, leading and managing of a real product development project. Requirements: Intensive training days. Acting as project manager on Kon-41.4002 Product Development Project. Prerequisites: The number of participants is limited. Selection is based on personal interviews. The most important selection criteria are progress in studies, training experience in industry, and motivation. Parallel attendance at course Kon-41.4001 is recommended. Substitutive: The course replaces the old version Kon41.102 Special Course on Product Development Project Management (1 ocr). Language: English Kon-41.4107 3D Design in Product Development, short course (3 cr) I-II Lecturer: Petri Makkonen, teaching research scientist Contents: The objective is to give insight into the use of computer aided design in product development work. The utilisation of new methods and the use of data transfer between co-operating partners in design and production. The course includes the examination of module in course Kon-41.007. Requirements: Attendance at lectures, project assignment. Prerequisites: Kon-41.006/3006 passed. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher.
Language: Finnish Kon-41.4150 Mechatronic Machine System Design P (5 cr) 16+82 (2+5) I-II Lecturer: Acting prof. Jari Juhanko Contents: The aim of the course is to make the students familiar with ways to apply general product development and machine design methodology in interdisciplinary mechatronic machine system design. After completing the course the student is able to name processes and methods suitable for mechanics systems and component design, is able to describe the stages of one selected system level design method, is able to describe and make a model of a simple mechatronic system and is able to design and dimension a hydraulics based mechatronics machine system. Requirements: Course participation requires a passed pre-examination. Total grade combined from examination, computer exercises and design exercises. Literature: Lecture notes. Prerequisites: Basics of Matlab and Simulink. Study modules K113-3 or K150-1 are recommended. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.4161 Mechatronics Project (10 cr) I-IV Lecturer: prof. Petri Kuosmanen Contents: The aim of the course is to introduce the student into demanding mechatronics machine design and building using a practical project assignment. After completing the course the student is able to choose the essential methods, practices and components to design and build a mechatronic machine. The projects are carried out as group assigments. Typical assignments are planning, building and testing of research equipment to be used in ongoing research projects. Requirements: The course is buildt around a practical project assignment including also a literature survey, project plan generation, project results presentation, participation in the evaluation of the other groups also and project end reporting. The total grade is calculated as a weighed average of individual subtask grades. Literature: To be announced separately. Prerequisites: No obligatory prerequisites. Study modules K113-3 or K150-1 are recommended. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.4169 Industrial Design (5 cr) 52+0 (4+0) III-IV Lecturer: Prof Kalevi Ekman Contents: Industrial design - profession, research, and education. Industrial design approach, methods, and tools. The role of industrial designer in integrated product development. Developing of break through
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products. Viewpoints to design platforms - technology, industrial design, and brand. Requirements: Oral exam of course literature. Writting a course diary. Practical design exercise as team work. No final exam. Literature: Ekman, K. & Sääskilahti, M. (ed.): Teollinen muotoilu tuotekehityksessä. Koneensuunnittelun julkaisu C 269, Otaniemi 2002, or substituting literature in English. Prerequisites: No prerequisites. Recommended for third study year. Substitutive: The course replaces the old version Kon41.169 Industrial Design (3 ocr). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.4171 Mechatronic Machine System Design (5 cr) 30+40 (2+3) III-IV Lecturer: prof. Matti Pietola Contents: The course offers advanced knowledge in mechatronic machines servosystems. Dimensining and design of electric and electrohydraulic servosystems is discussed together with control technology. Simulink software is used in design exercises. Requirements: Examination and exercises. Literature: Fonselius - Rinkinen - Vilenius: Servotekniikka and lecture notes. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.4190 Mechatronics and Hydraulics (5 cr) 40+30 (3+2) III-IV Lecturer: Prof Matti Pietola Contents: The purpose of the course is to give a general view of the technologies and future trends of mechatronic machines and fluid power systems. The most important topics are the relevant technologies, technical solutions and electric and hydraulic control and servo systems. Requirements: Examination and exercises. Literature: Fonselius-Rinkinen-Vilenius: Hydrauliikka II and lecture notes. Prerequisites: Kon-41.2008 or 2010 or 2011 and Kon41.3023 (attended). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.4199 Methods in Machine Design (5 cr) 24+12 (2+1) I-II Lecturer: Prof Petri Kuosmanen Contents: The aim of this course is to achieve understanding of the systematic approach of machine design. After the course the student has ability to design a new mechanical device. The course consistes of lectures
and a team project work. Requirements: Examination/intermediate examinations and accepted construction exercise assignment. Literature: To be announced later. Prerequisites: Kon-41.2008 and Kon-41.3003. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.5000 Research Scientist Basic Course P (5 cr) 28+0 (2+0) I-II Lecturer: prof. Petri Kuosmanen Contents: Scientific research and scientific knowledge; scientific research methods; principal research methods within the own research field; publication and publication forums; publication structure and writing of publication; good scientific practice; dissertation formats and basic requirements. Requirements: Active participation in seminars plus exam. Prerequisites: M.Sc. degree or eligibility for postgraduate studies. Substitutive: Replaces the old version Kon-41.5000 Research Scientist Basic Course (3 ocr) P. Additional information: Course participation requires skills in Finnish, no teaching/material available in English. Language: Finnish. Kon-41.5167 Patents P (3 cr) 26+12 (2+1) III-IV Lecturer: Panu Kuosmanen, specialist teacher Contents: Protecting ideas in Finland and abroad. Patent, model right, trademark and copyright. Inventions during employment at company and at university. Disagreement situations. Requirements: Examined at the beginning of the course. Writing a patent application. Literature: Haarmann, P-L.: Immateriaalioikeuden oppikirja, Teollisuuden Keskusliitto: Työsuhdekeksinnöt. Course material. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.5216 Postgraduate Seminar on Product Development P (5 cr) 26+0 (period) III-IV Lecturer: Prof Kalevi Ekman Contents: The subject of the seminar varies. The objective is to discuss the most interesting new methods and tools of product development. Requirements: Activity in seminars. Preparation of a state-of-the-art report, a presentation based on it and acting as an opponent. Literature: To be defined. Literature: To be announced at beginning of course. Prerequisites: M.Sc. degree and good knowledge of product development. Substitutive: Replaces the old version Kon-41.216
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Postgraduate Seminar on Product Development (3 ocr) P. Language: English
skills in Finnish, no teaching/material available in English. Language: Finnish
Kon-41.5217 Postgraduate Seminar on CAE P (5 cr) III-IV (Lectured when required.) Lecturer: Petri Makkonen, teaching research scientist Contents: The topic of the seminar varies from year to year Requirements: Active participation in the seminars, preparation of a state-of-the-art report, a presentation based on it and acting as an opponent. Literature: To be defined. Prerequisites: Good understanding of CAE is required. Substitutive: The course replaces the old version Kon41.217 Postgraduate Seminar on CAE (3 ocr) P. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
Kon-41.5220 Postgraduate Seminar on Fluid Power P (5 cr) 0+12 I-II, III-IV Lecturer: Prof Matti Pietola Contents: A postgraduate seminar on varying subjects within the field of fluid power. Requirements: Active participation in seminars and presentations on given subjects. No examination. Literature: Will be announced at the beginning of the course. Prerequisites: M.Sc. degree and a good basic knowledge of fluid power. Substitutive: The course replaces the old version Kon41.220 Postgraduate Seminar on Fluid Power (4 ocr) P V. Additional information: Course participation requires skills in Finnish, no teaching/material available in English. Language: Finnish
Kon-41.5218 PaperHiTech Seminars P (5-20 cr) I-IV (Scope and timing upon personal agreement) Lecturer: prof. Petri Kuosmanen Contents: The seminars give a comprehensive view of pulp and paper manufacturing and the machines and systems used in the processes. The objective is to strengthen cross-technical skills by diversified treatment of newest technologies and research results. The seminars give a comprehensive view of the theory and practice of the branch. The requirements of postgraduate minor studies are fulfilled, if the course is completed with a scope of 20 credit points (incl. seminars and exercises). The course’s applicability to students own postgraduate programme must be agreed with the supervising professor. The course is performed as cooperation between HUT, TUT, LUT, University of Oulu and Åbo Akademi. The start of the next course will be notified separately. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-41.5219 Research Scientist Advanced Course P (15 cr) I-IV (individual timing) Lecturer: Ma. prof. Jari Juhanko Contents: Basic principles in scientific research work and good scientific practice; practical research work; principal research methods in machine design; administration of research projects; essential funding instruments; conference practice and presentation of scientific research results; international research contacts; peer review practice; younger colleague mentoring. Prerequisites: M.Sc. degree or eligibility for postgraduate studies. Substitutive: The course replaces the old version Kon41.219 Research Scientist Advanced Course (10 ocr) P V. Additional information: Course participation requires
Kon-41.5221 Postgraduate Seminar on Fluid Power, exercises P (5 cr) 0+12 I-II, III-IV Lecturer: Prof Matti Pietola Contents: An exercise task on a varying subject discussed with the lecturer. Requirements: An exercise task. Prerequisites: Kon-41.220 or Kon-41.5220. Substitutive: The course replaces the old version Kon41.221 Postgraduate Seminar on Fluid Power, exercises (3-4 ocr) P V. Additional information: Course participation requires skills in Finnish, no teaching/material available in English. Language: Finnish Kon-41.5230 Postgraduate Seminar on Paper Machinery P (5 cr) 26+0 I-II Lecturer: Prof Petri Kuosmanen Contents: The theme of the seminar varies. The seminar treats the machines and maintenance and upkeep of paper manufacturing line, and the related new techniques. Requirements: Active participation in the seminars, preparation of a state-of-the-art report, a presentation based on it and acting as an opponent. The start of the next course will be notified separately. Literature: Notified in the beginning of the seminar. Prerequisites: M.Sc. degree and a good basic knowledge of paper machine technology. Substitutive: The course replaces the old version Kon41.230 Postgraduate Seminar on Fluid Paper Machinery (3 ocr) P. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher.
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Language: Finnish Kon-67.3100 Materials Science in Mechanical Engineering (6 cr) 24+16 (2+2) I-II Lecturer: Prof Hannu Hänninen Contents: Introduction to materials science. Most important materials in mechanical engineering. Factors which influence in materials selection. Requirements: Exercises and examination. Literature: Callister, W.D.: Materials Science and Engineering - an Introduction. Prerequisites: Kon-41.2008 or equal knowledge. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.3101 Physical Metallurgy of Light and Colour Metals (3 cr) 24+0 (2+0) III-IV Lecturer: Risto Ilola, D. Sc. (Tech.) Contents: Metallurgy, manufacturing and applications of the light and colour metals. Requirements: Examination. Literature: Will be given in lectures. Prerequisites: Kon-67.3100. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.3110 Structure and Properties of Steels (4 cr) 24+14 (2+2) III-IV Lecturer: Prof Hannu Hänninen Contents: Introduction to different steels, their properties and the effect composition and heat trreatments. Most important steels in mechanical engineering and their usage. Requirements: Examination and attendance to exercises. Literature: Will be given in lectures. Prerequisites: Kon-67.3100. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.3301 Non-Destructive Testing (5 cr) 24+20 (2+4) I-II Lecturer: Juha Toivonen, M.Sc. (Tech.) Contents: An introduction to different NDT -techniques, particle ultrasonics, radiography, luquid penetrant, magnetic flux, eddy current. Also, basics of visual inspections, acoustic emission, infrared radiation etc. Requirements: Examination + exercises. Literature: Lecture notes. Prerequisites: Kon-41.2008 or equal knowledge. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
Kon-67.3401 Engineering Materials under Stress and Environmental Influence (5 cr) 24+16 (2+2) I-II Lecturer: Prof Hannu Hänninen Contents: Behaviour of engineering materials under stress and environmental influence. The basic mechanisms of plastic deformation, fracture, fatigue and creep. Materials testing techniques. Requirements: Examination, seminars and seminar works. Literature: Hertzberg, R.W.: Deformation and Fracture Mechanics of Engineering Materials. Prerequisites: Kon-67.3100 and Kon-67.3110. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.4101 Laboratory Exercises in Material Science (5 cr) 16+117 I-III Lecturer: Risto Ilola, D. Sc. (Tech.) Contents: Learning to use metallographic techniques. Deepening of the students metallurgical knowledge by means of analysing and reporting results of own measurements. Requirements: Approved reports on exercises. Literature: Will be given in lectures. Prerequisites: Studies of Engineering Materials level 2. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.4120 Selection of Engineering Materials (5 cr) 24+0 (2+0) III-IV Lecturer: Prof Hannu Hänninen Contents: Introduction to materials selection. Use of different engineering materials knowledge bases. Differents selection criteria and the systematics of selection methods. Use product life-cycle assessment and cost analysis on material selection. Requirements: Examination + seminar work. Literature: Ashby, M. F.: Materials Selection in Mechanical Design. Prerequisites: Kon-67.3100. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.4200 Welding Technology (6 cr) 36+0 (3+0) I-II Lecturer: Martti Vilpas, D.Sc. (Tech.) Contents: Introduction to common welding processes, weldability, weldable metals and their use. Requirements: Examination. Literature: Suomen hitsaustekniikan yhdistys. Hitsauksen materiaalioppi. Rautaruukki. Hitsaajan opas. Additional information: English speaking students
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accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.4201 Welding Metallurgy P (4 cr) 30+0 III-IV (Odd years) Lecturer: Liisa Heikinheimo, D. Sc. (Tech.), Pekka Nevasmaa, D. Sc. (Tech.) Contents: Advanced studies in welding thermal cycle and metallurgy. Welding parameters and heat flow, melt solidification and solidification, structure of the heat affected zone and cracking. Properties of the wld zones. Requirements: Examination, computer exercises and literature study. Literature: Sindo Kou: Welding metallurgy. Prerequisites: Kon-67.4200. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.4202 Welding Methods and Production (4 cr) 24+0 (2+0) III-IV (even years) Lecturer: N. N. Contents: Fusion- and pressure welding, brazing, soldering and combined methods. Quality assurance and welding procedure test. Safety at work. Requirements: Examination and excursion. Literature: Juha Lukkari: Kaasuhitsaus, lecture notes. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.4203 Welding laboratory exercises (3 cr) 0+22 (0+2) I-II Lecturer: N. N. Contents: Practical welding exercises: MIG/MAG, TIG, SAW, PAW, FSW and spot welding. Weld surfacing. Bend test. Requirements: Pratical exercises and excursion. Prerequisites: Kon-67.4200 obligatory (can be carried out in parallel). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.4204 Design of Welding Structures (3 cr) 20+6 (2+2) III-IV (Even years) Lecturer: N. N. Contents: Design of welded structures. Manufacturing, structural integrity, static and fatigue strength, impact toughness and corrosion. Requirements: Examination. Literature: John Hicks. Welded joint design, lecture notes. Prerequisites: Kon-67.4200. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher.
Language: Finnish Kon-67.4402 Advanced Course in Engineering Materials under Stress and Environmental Influence P (3 cr) 28+0 (4+0) III-IV Lecturer: Kim Wallin, Docent, Anssi Laukkanen, M.Sc. (Tech.) Contents: Broadens the knowledge of fracture mechanics. Use of fracture mechanical design methods in materials selection and use. Requirements: Examination + seminar works. Literature: Will be given in lectures. Prerequisites: Kon-67.3401. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-80.3107 Casting as a Manufacturing Method (2 cr) III-IV Lecturer: Prof Juhani Orkas Contents: The objective of the course is to give basic knowledge in casting technology, cast materials and casting methods. Requirements: Final exam, practical exercise, foundry demonstration. Literature: Valuatlas-web material + separately declared literature. Prerequisites: Kon-41.2008 or equivalent knowledge. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-80.3113 Manufacturing Techniques of Castings (5 cr) I-II Lecturer: Prof Juhani Orkas Contents: The course objective is to familiarize students with the manufacturing process of cast components. Requirements: Exams, literary research, exercises and foundry-visits. Literature: Autere, Ingman, Tennilä: Valimotekniikka I (1982) and Valimotekniikka II (1987); separately declared literature in English when needed. Prerequisites: Kon-80.3107 Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-80.3121 Design of Castings (5 cr) I-II Lecturer: Prof Juhani Orkas Contents: Design of castings, design differences between sand moulds and permanent moulds, properties of cast metals, light alloy castings vs. plastics, compilation of quality criteria of castings. Requirements: Personal lecture diary, practical designing
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exercise. No final examination. Literature: Valuatlas Prerequisites: Kon-80.3107 (compulsory), student must also have at least basic skills in 3D modeling. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-80.4115 Manufacturing Exercise of cast Component (3 cr) I-II, III-IV Lecturer: Prof Juhani Orkas Contents: Practical exercise of manufacturing a cast component. In the exercise student will mould and cast in a sand mould a self-selected cast component. A staff of the laboratory will help and look after students working. Written report. Requirements: Manufacturing of selected cast component, and compiling a report aboult exercise. Own schedule and subject of an exercise will be settled for every case. Prerequisites: Kon-80.3107, Kon-80.3113 Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-80.4116 Project Work of Foundry Engineering (7 cr) I-II, III-IV Lecturer: Prof Juhani Orkas Contents: The course objective is to give capabilities of solving problems related to casting product development, production and usage. Requirements: Completion of given project by applying skills received in earlier courses of cast product technology. Active participating in guidance discussions. Own schedule and subject of an exercise will be settled for every case. Prerequisites: Kon-80.3113, Kon-80.3121 or Kon80.4136. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-80.4136 Running and Feeding Systems of Castings (5 cr) III-IV Lecturer: Prof Juhani Orkas Contents: Basic principles of running and feeding systems, pattern, running and feeding system design with CAD/CAM -techniques and computer simulations. Requirements: Personal lecture diary, literature research and designing exercise. No final examination. Prerequisites: Kon-80.3107, Kon-80.3121. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
Kon-80.4160 Castability of Metals (5 cr) III-IV Lecturer: Prof Juhani Orkas Contents: Castability of different metals. Effects of composition, treatments of liquid metal and morphology of properties of a cast component. Requirements: Personal lecture diary, literature research and practical exercise. No final examination. Literature: Course material will be announced during lectures. Prerequisites: Kon-80.3107, Kon-67.3100. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-80.5201 Postgraduate Seminar on Foundry Engineering P (3-7 cr) 27 + 0 III-IV, I-II Lecturer: prof. Juhani Orkas Contents: Student lectures, lectures by visiting lecturers. Objective: Studying of postgaraduate studies related subjects. Additional information: Minimum participant number required. English speaking students accepted on course with individual special arrangements,please contact teacher. Language: Finnish. Kon-0.171 History of Technology and Industry, general (2 ocr) III-IV, Not available in acadenic year 2008-2009. Lecturer: Timo Myllyntaus PhD (responsible), information Prof Kalevi Aaltonen Contents: Main characteristics of the history of technology and industry, with special emphasis on Finland. Contents vary yearly. The course increases in the history of technology and industry, informs about the courses that deepen its contents and direct the interest to special areas of interest, and guides to selfaccess studies. Requirements: Attendance at lectures and an essay. Evaluation: pass/fail. Literature: Will be notified during the lectures. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-0.210 Mechanical Engineering Design in Wind Energy Converters (2 ocr) Autumn (Alternate years, will not be lectured in 20082009) Lecturer: N.N. Contents: The course gives mechanical engineering background for wind energy converter design. Static and dynamic wind loads on rotor blades, nacelle and tower, wave and ice loads on offshore foundations. Dimensioning of load bearing structures for strength, fatigue, and vibrations, manufacturing and installation of components. Rotor blade and nacelle turning
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mechanisms, reduction gear, instrumentation, control and maintenance. Requirements: Lectures, exercises and examination. Literature: Wind Energy Handbook and additional material. Prerequisites: Ene-47.160. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
Language: Finnish
Kon-67.112 Advanced Non-destructive Testing (P) (2 ocr) 26+0 (2+0) (Lectured when necessary) Lecturer: N.N. Contents: The purpose is to broaden students knowledge of NDT-techniques. Special topics include NDT of new materials, development trends of NDT-techniques, special techniques, automation of NDT and measurement of material properties with NDT. Requirements: Examination. Literature: Lecture notes. Prerequisites: Kon-67.3301 or equivalent knowledge. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
Kon-67.204 Postgraduate Seminar on Engineering Materials (P) (2-6 ocr)
Kon-67.123 Design Exercises in Selection of Engineering Materials (3 ocr) 0+120 III-IV Lecturer: Prof Hannu Hänninen Contents: Every student will carry out a design exercise. Requirements: Design exercise. Prerequisites: Kon-67.3100, Kon-67.3401 and Kon67.4120. (simultaneous). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-67.200 Postgraduate Seminar on Engineering Materials (P) (2-6 ocr) Period Lecturer: Prof Hannu Hänninen (responsible) Contents: CCurrents topics and advance in materials technology. Seminars deal with special problems of materials technology. Requirements: Attendance at seminars and literature work. Literature: Literature will be announced at lectures. Prerequisites: Studies of materials technology or equal knowledge. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher.
Kon-67.201 Postgraduate Seminar on Engineering Materials (P) (2-6 ocr) Kon-67.202 Postgraduate Seminar on Engineering Materials (P) (2-6 ocr) Kon-67.203 Postgraduate Seminar on Engineering Materials (P) (2-6 ocr)
Kon-67.300 Postgraduate Seminar on Welding Technology P (2-6 ocr) Period Lecturer: Dos. Risto Karppi (responsible) Contents: Course contents and scope varies yearly. Current topics and advance in welding technology. Seminars deal with special problems in welding technology. Requirements: Attendance at seminars and literature work. Literature: To be announced later. Prerequisites: Studies of welding technology or equal knowledge. Additional information: English speaking students accepted on course with individual special arrangements, please kontact teacher. Language: Finnish Kon-67.301 Postgraduate Seminar on Welding Technology P (2-6 ocr) Kon-67.302 Postgraduate Seminar on Welding Technology P (2-6 ocr) Kon-67.303 Postgraduate Seminar on Welding Technology P (2-6 ocr) Kon-67.304 Postgraduate Seminar on Welding Technology (P) (2-6 ocr) Kon-80.201 Postgraduate Seminar on Foundry Engineering (P) (1-3 ocr) I-II, III-IV (Minimum participant number required) Lecturer: Prof Juhani Orkas Contents: Postgraduate course deals with specific subjects related to ongoing studies. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
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Department of Surveying GMA.kand Bachelor’s Thesis and Seminar (10 cr) KTA.kand Bachelor’s Thesis and Seminar (10 cr) Maa-0.1000 Surveying as a profession and a branch of science (1 cr)
D.J., Rhind, D.W. (2005) Geographic Information Systems and Science, 2nd ed. John Wiley. (partly). Other material TBA in Noppa. Prerequisites: T-106.1206, Yhd-0.1100. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.1120 Language: Finnish. The course can be made in English.
Maa-0.3000 Methodology of Surveying Science (1-5 cr) Maa-123.1110 Introduction to Cartography and Geoinformatics (3 cr) IV Lecturer: Paula Ahonen-Rainio, lecturer Contents: The course introduces the modelling of spatial features, methods of georefernecing, essential geographic data resources, and the components of geographic information systems (GIS). Examples of spatial analyses and basic algorithms are given. In addition, the course introduces the concept of map and its principle elements, and gives an overview of map design and mapping processes. It also introduces and gives an overview of application fields of GIS. Exercises consist of working with maps and a GIS software and of studying applications of geoinformatics. Requirements: Exercises and exam. Evaluation: The grade of the course is the grade of the exam (1-5). Exercises are graded as passed/failed; all the exercises have to be passed. Literature: Longley, P.A., Goodchild, M.F., Maguire, D.J., Rhind, D.W. (2005) Geographic Information Systems and Science, 2nd ed. John Wiley. (partly). Other material TBA in Noppa. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.1110 Language: Finnish. The course can be made in English.
Maa-123.1310 Theories and Techniques of Geoinformatics (7 cr) III (Exercises period IV) Lecturer: Paula Ahonen-Rainio, lecturer Contents: Principles of spatial modelling and spatial analysis. Basic data structures for spatial data. Introduction to geographic data management and management of a geographic information system. Specification of geographic datasets, quality models of geographic data and quality evaluation. Visualisation of geographic data on maps. Concepts of spatial data infrastructures and issues of data policy. Exercises consist of working with different GIS software products, study of geographic data resources, and field evaluation of data quality. Requirements: Exercises and exam. Evaluation: The grade of the course is composed 2/3 of the exam grade and 1/3 of the graded exercises. Literature: Longley, P.A., Goodchild, M.F., Maguire, D.J., Rhind, D.W. (2005) Geographic Information Systems and Science, 2nd ed. John Wiley. (partly). Other material TBA in Noppa. Prerequisites: Maa-123.1110 (or Maa-123.1120) and T106.1223. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.1310 Language: English
Maa-123.1120 Introduction to Geoinformatics in Civil and Environmental Engineering (4 cr) IV Lecturer: Professor Ari Jolma, Paula Ahonen-Rainio, lecturer Contents: The course introduces the modelling of spatial features, methods of georeferencing, essential geographic data resources, and the components of geographic information systems (GIS). Examples of spatial analyses and basic algorithms are given. In addition, the course introduces the concept of map and its principle elements. The course gives an overview of applications of GIS in civil and environmental engineering. The exercises introduce to common geographic datasets and processing of them, and to fundamental methods in geoinformatics and visualisation of geospatial data. Requirements: Exercises and exam. Evaluation: The grade of the course is the grade of the exam (1-5). Exercises are graded as passed/failed; all the exercises have to be passed. Literature: Longley, P.A., Goodchild, M.F., Maguire,
Maa-123.1320 Geoinformatics for Real Estate Economics (5 cr) III Lecturer: Paula Ahonen-Rainio, lecturer Contents: Principles of spatial modelling and spatial analysis. Introduction to geographic data management. Specification of geographic datasets, uncertainty and quality models of geographic data; quality evaluation. Visualisation of geographic data on maps. Management of a geographic information system. Concepts of spatial data infrastructures; geospatial metadata; issues of data policy. Exercises comprise of working with different GIS software products on real estate economy applications. Requirements: Exercises and exam. Evaluation: The grade of the course is composed 2/3 of the exam grade and 1/3 of the graded exercises. Literature: Longley, P.A., Goodchild, M.F., Maguire, D.J., Rhind, D.W. (2005) Geographic Information Systems and Science, 2nd ed. John Wiley. (partly). Other material TBA in Noppa. Prerequisites: Maa-123.1110 or Maa-123.1120.
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Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.1320 Language: English Maa-123.1330 Supplementary Course in Geoinformatics (2 cr) III (Exercises period IV) Lecturer: Paula Ahonen-Rainio, lecturer Contents: This course is intended to supplement Maa123.1320 into Maa-123.1310 for those students who need to extend their prerequisite knowledge for further studies in geoinformatics. The topics cover spatial data structures and practice of quality evaluation. The course is organized as a part of Maa-123.1310. Requirements: Exercises and exam. Evaluation: Based on the grade of Maa-123.1320 and the supplementary exam. Literature: Material will be agreed with the teacher. Prerequisites: Maa-123.1320 and T-106.1223. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.1330 Language: English Maa-123.2340 Spatial Data Algorithms (6 cr) III (Programming exercise in period IV) Lecturer: Professor Kirsi Virrantaus Contents: Voronoi-diagram with variations, TIN, map overlay, plane sweep and rotational sweep based algorithms, polygon map traversal, graph problems, raster base route optimisation, visibility graph, spatial indexing, DCEL, quad tree, winged edge, quad edge. Programming exercise. Requirements: Studio sessions, programming exercise and exam. Evaluation: Exam grading 1-5 (or failed), programming exercise grading 1-5 (or failed). The grade of the course is composed 2/3 of the exam grade and 1/3 of the graded exercise. Literature: Material distributed during the lectures: lecture handouts, articles. Prerequisites: Maa-123.1310 and T-106.1223 Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.2340 Language: English Maa-123.2441 GIS Software Development (3-5 cr) Spring (period IV) Lecturer: M.Sc. Jari Reini Contents: Geospatial software engineering: use of objectorientation, software libraries, programmable environments, versioning, documentation, configuration management, licensing, testing, deployment. Implementation of GIS on common platforms: command line tools, graphical applications, Web mapping, Internet technologies, OGC standards. The exercises comprise small programming tasks for common use-cases, analysis of program code, and use of common tools such as versioning systems and web-based tools. Requirements: Lectures, programming exercise and exam. Literature: TBA in Noppa.
Prerequisites: Maa-123.1310, T-76.3601 or Maa123.2320 and Maa-123.2330, programming skills. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.2441 Language: English Maa-123.3410 Fuzzy Modeling of Geographic Information (4 cr) II Lecturer: Docent Vesa Niskanen Contents: The course introduces the student to fuzzy logic and fuzzy modelling in theory and also in practice by exercises made in Matlab Fuzzy Toolbox environment. The special emphasis is on fuzzy modelling of imprecise geographic information and vague spatial objects like soil map polygons and phenomena like elevation and land use. The course consists of lectures and exercises as well as an individual project work. Requirements: Laboratory exercises, exam and project work. Literature: Niskanen,V., Soft Computing in Human Sciences, lecture material. Prerequisites: Maa-123.1310 Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3410 Language: English Maa-123.3430 Visualisation of Geographic Information P (5 cr) I-II Lecturer: Paula Ahonen-Rainio, lecturer Contents: Theories of visual design, cartographic visualization and cartographic communication. Map design for paper, screen and mobile displays. Colour in design and production. Usability and intereaction with maps. Requirements: Lectures, teamwork, portfolio of design exercises and written reports. Evaluation: Portfolio is graded 1-5 (or failed). Literature: Slocum, T. et al. (2005) Thematic cartography and geographic visualization, 2nd ed., Pearson/Prentice Hall. Other material TBA in Noppa. Prerequisites: Maa-123.1110 or Maa-123.210 Substitutive: Replaces Maa-123.430 Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3430 Language: English Maa-123.3450 Hydrography P (2 cr) II Lecturer: Maarit Mikkelsson, M.Sc.(Eng.) Contents: Nautical charts, hydrographic mapping methods, GIS in hydrography and nautical chart production, ENC. Requirements: Exam and exercises. Evaluation: Exam, grading 1-5 (or failed). Literature: TBA in Noppa. Prerequisites: Maa-123.1110 Substitutive: Replaces Maa-123.550 Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-
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123.3450 Additional information: The course is organised every second study year. It is organised in the Autumn 2008. Language: English Maa-123.3460 Topographic Maps P (6 cr) IV Lecturer: Paula Ahonen-Rainio, lecturer Contents: History of topographic maps, modern topographic maps and map databases in Finland, overview of topographic maps in foreing countries. Generalization and multi-scale representations of maps. Introduction to geomorphology, and presentation of elevation. Place names in maps. Requirements: Lectures, teamwork and assignments. Evaluation: Exam grading 1-5 (or failed). Assignments passed/failed. Literature: TBA in Noppa. Prerequisites: Maa-123.1110 Substitutive: Replaces Maa-123.460 and Maa-123.210 together. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3460 Language: English Maa-123.3470 Web Map Project P (3 cr) III Lecturer: Paula Ahonen-Rainio, lecturer Contents: The course is composed of a project work that includes design of a serie of (thematic) maps with an interactive user interface and implementation of these maps in Internet. The course is intended to be made after Maa-123.3430 Visualisation of Geographic Information. Requirements: Project work in teams. Supporting lectures. Evaluation: Grading of the project results 1-5 (or failed). Prerequisites: Maa-123.430 or Maa-123.3430 Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3470 Language: English Maa-123.3490 Seminar on Cartography P (4 cr) IV Lecturer: Paula Ahonen-Rainio, lecturer Contents: Varying, current topics in cartography. Requirements: Agreed at the beginning of the course. The seminar is organized together with Maa-123.3590. Literature: Current papers on cartograpy and visualization research. Prerequisites: Maa-123.3430 or Maa-123.3530 or Maa123.3460. Language: English Maa-123.3510 GIS Analysis and Modelling P (5 cr) Autumn (periods I-II) Lecturer: Kirsi Virrantaus Contents: Analysis of point patterns, areas and polygon maps by using spatio-statistical mehods; statistics of fields, introduction to geostatistics; analysis of lines and graphs; analysis of multivariate spatial data; uncertainty issues of
analyses; spatial and spatio-temporal models, optimization, simulation; GIS supporting decision making. Requirements: Lectures and exercises, project work. Evaluation: Exam grading 1-5 (or failed), exercises passed/failed, project work passed/failed. Literature: Unwin,D., O´Sullivan,D., Geographic information Analysis. Other material TBA in Noppa. Prerequisites: Maa-123.1310, T-76.3601 or Maa123.2320 and Maa-123.2330, T-106.1223 Substitutive: Replaces Maa-123.420 and Maa-123.450 together. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3510 Language: English Maa-123.3520 Principles of Geostatistics P (3 cr) IV Lecturer: Rangsima Sunila Contents: Introduction to geostatistics, kriging, indicator kriging. Requirements: Lectures, exercises, exam. Evaluation: Exam, grading 1-5 (or failed). Exercises passed/failed. Literature: Lecture material. Prerequisites: Maa-123.3510 Substitutive: Maa-123.540 Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3520 Language: English Maa-123.3530 Visual Analysis in GIS P (4 cr) Autumn (period II) Lecturer: Paula Ahonen-Rainio, lecturer Contents: Principles of visual perception. Graphical elements and variables in visualisation. Use of thematic maps in visual analysis. Other methods of visual analysis for spatial, temporal and attribute components. Requirements: Lectures and weekly assignments. Evaluation: Grading is based on the exam and the assignments. Literature: Papers and articles, TBA in Noppa. Prerequisites: Maa-123.3510 (Maa-123.3510 can be made in parallel to this course) Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3530 Language: English Maa-123.3550 GIS Application Development L (8 cr) I-IV Lecturer: Jari Reini Contents: Design and implementation of a GIS application. Project work. Requirements: Project work. Evaluation: Project work grading 1-5 (or failed). Prerequisites: Maa-123.2340, Maa-123.2441 and T76.1143. Substitutive: Maa-123.470 or Maa-123.480. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3550 Language: English
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Maa-123.3560 Uncertainty in Geographic Information P (4 cr) II Lecturer: Professor Kirsi Virrantaus Contents: Quality management in the production of geographic information, ISO 19100 series standards in spatial data quality evaluation, error propagation/the analytic approach to estimate the uncertainty, simulation approach to estimate the uncertainty; examples on documenting and estimating data uncertainty and quality in research and practice. Requirements: Exercise/assignment and exam. Evaluation: Exam grading 1-5(or failed), exercises passed/failed. Literature: Zhang,W. & Goodchild, M., Uncertainty in Geographic Information, lecture materials. Prerequisites: Mat-2.2104 and Maa-123.3510 Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3560 Language: English Maa-123.3570 Geosimulation P (4 cr) IV Lecturer: Professor Ari Jolma Contents: This course considers geospatial modelling and simulation. Topics include introductions to cellular automata and its extensions, geosimulation with map algebra and its extensions, dynamic models and GIS, agent-based geospatial models, and software for geosimulation. Exercises in computer classrooms. Requirements: Exam and exercises. Evaluation: Graded exam 1-5(or failed), exercises passed/failed. Literature: Beneson, I., Torres,P., Geosimulation: automata-based modeling of urban phenomena; material announced on lectures. Prerequisites: Maa-123.1120 or Maa-123.3510 or Maa123.2440. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3570 Additional information: Arranged on demand. Language: English Maa-123.3580 Spatial Data Mining P (4 cr) Spring (period IV) Lecturer: Professor Kirsi Virrantaus Contents: Visual and mathematical methods for automatic and semi-automatic extraction of knowledge from spatial data sets: spatial and spatio-temporal distribution, global and local spatial autocorrelation, bivariate spatial correlation, spatial density, spatial interpolation/extrapolation/modeling, spatial patterns/outliers/combinations of variables that frequently occur in datasets, spatial clustering based on multivariate spatial data, spatial trends. Requirements: Exercise/project work and exam. Evaluation: Graded exam 1-5 (or failed), exercise passed/failed. Literature: TBA in Noppa. Prerequisites: Maa-123.3510, Maa-123.3530.
Web page: https://noppa.tkk.fi/noppa/kurssi/Maa123.3580 Language: English Maa-123.3590 Seminar on Geoinformatics P (4 cr) Lecturer: Kirsi Virrantaus Contents: Varying topics Requirements: Agreed at the beginning of the course. The seminar is organized together with Maa-123.3490. Literature: Current papers on geoinformatics. Prerequisites: Maa-123.3510 and Maa-123.3560 or Maa123.3520. Language: English Maa-20.1122 Principles of Cadastral Surveys (3 cr) Maa-20.1123 Introduction to Real Estate Valuation (3 cr) Maa-20.1125 Introduction to Real Estate Business (3 cr) Maa-20.2201 Agriculture and Forestry (3 cr) Maa-20.2315 Advanced Cadastral Surveys (5 cr) Maa-20.2331 Valuation of Compensation and Assessment (3 cr) Maa-20.2332 Housing markets and valuation (4 cr) Maa-20.2366 Real Estate Economics and Property Management (5 cr) Maa-20.3302 Science of Real Estate Economics (3 cr) Maa-20.3310 Real Estate Studies, Field Studies (2 cr) Maa-20.3312 Land Use Planning and Urban Economics (5 cr) Maa-20.3316 Detail Planning (3-5 cr) Maa-20.3317 Urban Planning and Development P (4 cr) Spring (period IV), at least 10 participants Lecturer: Barbara Havel Contents: The systems of urban development and planning. Theoretical case study in a role game called URBAX, which simulates the development of a city. Interaction between local planning policies and actors strategies. Economic base theory. Requirements: Presentation of the teamwork, participation in the game session and learning diary. Literature: Announced at the lectures. Prerequisites: Recommended after Maa-20.4630 Real Estate Development Substitutive: Replaces the course Maa-20.317 Urban Planning and Development (3 ocr). Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.3317 Language: English
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Maa-20.3330 Calculation Methods of Real Estate Economics (4 cr) Maa-20.3334 Enviromental Impact Assessment (4 cr) Maa-20.3335 Forest Valuation P (5 cr) Maa-20.3336 Valuation of Rural Properties (4 cr) Maa-20.3337 Commercial Property Market and Valuation P (4-6 cr) Maa-20.3338 Special Course in Real Estate Economics P (4-8 cr) Maa-20.3341 Real Estate Investment Analysis P (4-8 cr) Autumn (period I-II), seminar Lecturer: Prof. Kauko Viitanen, lecturers Contents: Real estate investment, its aims and contents. Real estate market. Alternative investment forms. Real estates in an investment portfolio. Value chains of real estate investment. Real estate financing. Real estate taxation. Lifecycle of real estates. Requirements: Seminar and/or exercises and examination. Prerequisites: TU-22.1144 or equal knowledge, Real Estate Investment (I) (Hanken). Substitutive: Replaces the course Maa-20.341 Real Estate Investment (5 ocr). Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.3341 Language: English Maa-20.3342 Analysis of Real Estate Assets P (4 cr) Spring (Period IV) Lecturer: Heidi Falkenbach, lecturers Contents: Indirect real estate investments and investment vehicles. Valuation of real estate investment companies and funds. Property portfolio investments and appraisal. Requirements: Participation in lectures, exercises, home assignment and term paper. Literature: Announced at the lectures. Prerequisites: Maa-20.3341, TU-22.1144 or equal knowledge, Real Estate Investment (I) (Hanken). Substitutive: Replaces the course Maa-20.342 Investment Analysis and Appraisal (3 ocr). Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.3342 Language: English Maa-20.3365 Corporate Real Estate Management (7-8 cr) Spring (Period IV) Contents: The course introduces to real estate management as a strategic support function of an organisation. Main topics are real estate strategy as a part of an organisation wide core strategy, added value of corporate real estate management, corporate real estate management in different kinds of business environments and company relocation decisions. Objective: After the course the students knows the main functions and roles of corporate real estate management
(CREM), is familiar with the strategic tools and means to support the core business, is able to apply the theoretical knowledge and concepts of CREM in practice and is able to recognize, analyze and solve the typical problem situations related to CREM. Requirements: Preliminary examination, lectures, exercises. Target group: The course belongs to the masters programme in real estate economics and masters programme in real estate investment and finance (REIF). Literature: Dewulf, G., Krumm, P., Jonge, H. de., Succesfull Corporate Real Estate Strategies, Arko Publishers, 2000, 128 p. Substitutive: Replaces the course Maa-20.365 Corporate Real Estate Management (4 ocr) Alternative course for Maa-20.3385 Yrityksen kiinteistöjohtaminen (7 cr). Web page: https://noppa.tkk.fi/noppa/kurssi/Maa20.2365/ Additional information: Language: English Language: English Maa-20.3367 Facility Management P (6 cr) Autumn (Periods I-II) Lecturer: prof. Brian Atkin, PhD. Suvi Nenonen Contents: Topics include scope and definitions of FM, FM strategy and the outsourcing decision, managing outsourced and in-house services, specifying services and supplies, selecting services providers, managing performance, and partnerships and long-term projects. Objective: The aim of the course is to provide a sound grounding in the principles and practice of facility management, and insights into the future creation and operation of built assets. Requirements: Lectures, on-line sessions, assignment. Target group: The course belongs to the masters programme in real estate economics and masters programme in real estate investment and finance (REIF). Literature: Material announced during the lectures and on the homepage. Substitutive: Replaces the course Maa-20.367 Facilities Management (4 ocr). Alternative course for Maa-20.3386 Toimitilajohtaminen (6 cr). Web page: https://noppa.tkk.fi/noppa/kurssi/maa-20.2367/ Language: English Maa-20.3371 Real Estate Planning and Land Consolidation P (5 cr) Maa-20.3374 Practical Training in Cadastral Surveying (2 cr) Maa-20.3375 International Land Management P (6 cr) I Lecturer: prof. N.N. Contents: Basic concepts and regulatory system in Western countries, developing countries and countries in transition. Property division, executory proceedings. The function of real estate registers. The importance of public registers. Legal safeguards. International comparison of systems. Requirements: Lectures, seminar presentation,
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examination, mandatory attendance at seminar sessions. Literature: Announced at the lectures. Substitutive: Replaces the course Maa-20.375 International Land Management (3 ocr). Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.3375 Language: English Maa-20.3376 Cadastral Surveys and Land Management (4 cr) Maa-20.3378 Real Estate Management, special topics P (4 cr) Maa-20.3380 European Challenge (5-10 cr) III(Two weeks in January) Lecturer: Nick Nunnington Contents: The European Real Estate Challenge is primarily an educational project for students of real estate designed to provide a realistic pan-European project and promote collaboration between students, academics and professionals. The project provides action learning and reflects both the globalisation of real estate and the growth in corporate real estate consulting. The project also promotes multidisciplinary team working. Objective: Objectives and learning outcomes for students participating in the Challenge include the following: To be more capable of effective and efficient team work and develop intercultural communication skills by working in multi-national teams; Through action-centred learning be capable of substantially integrating their learning from other modules; To define, identify and appraise the key issues in a given project situation and develop appropriate criteria for action (a check-list orientation); Demonstrate skills in liaison and co-ordination with other Challenge students; practitioners, and tutors; Undertake learning more independently and effectively, both as an individual and a member of a team; Analyse, prioritise and synthesise technical information; Write professional executive summary reports more competently and make more effective presentations; Demonstrate better understanding of corporate client requirements and be able to take and interpret clients’ requirements to formulate a strategic clients’ brief; Be able to more effectively investigate and analyse professional and academic issues relating to corporate property and relocation; Be able to contribute to interdisciplinary debate and research in the area of corporate real estate and contribute to a dataset using a collective research instrument; Have further developed their skills of self-criticism and self-reliance as a learner. Requirements: Pre-challenge work, participating in the actual challence 2 weeks abroad. Target group: The course belongs to the masters programme in real estate economics. Prerequisites: Maa-20.3338 or Maa-20.3341 and Maa20.3365 Web page: https://noppa.tkk.fi/noppa/kurssi/Maa20.3380/ Additional information: The project is funded by EC. The funding is provided for 6 TKK students per year. The submission to the course is on September 2008.
Language: English Maa-20.3381 Real Estate Entrepreneurship (5 cr) The course will not be arranged in the academic year 2008-2009 Contents: The contents vary every year. Substitutive: Replaces the course Maa-20.368 Real Estate Entrepreneurship (3 ocr). The course is the alternative course for Maa-20.3368 Kiinteistöliiketoiminta (5 op) and Maa-20.3388 Kiinteistöliiketoiminnan syventävät opintojakso (5 op) Language: English Maa-20.3382 Expropriation and Road Surveys I (5 cr) Maa-20.3383 Expropriation and Road Surveys II (4 cr) Maa-20.3385 Corporate Real Estate (7 cr) Maa-20.3386 Facility Management P (6 cr) Maa-20.3387 Seminars in Real Estate P (5-10 cr) I-II, III-IV Lecturer: Prof. Kauko Viitanen, Teaching Research Scientist Ari Hiltunen, and Teaching Research Scientist Anna-Liisa Lindholm Contents: The course supports the writing of the Master’s Thesis. The seminar papers written by the students will be used to develop the Master’s thesis. The subject of the seminar work is nearly the same as the subject of the Master’s thesis. Students are assumed to present their seminar works and to act as opponents to each other. Every student will have a supervisor and an instructor. Prerequisites: Prerequisites (courses organised by Hanken): Introduction to Real Estate, Real Estate Investments (I), Research methods for Real Estate, Urban Economics for Real Estate, Real Estate Fi-nance I, Real Estate Portfolio Management Prerequisites (courses organised by Helsinki University of Technology): Maa20.3341, Maa-20.3365, Maa-20.4630 Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.3387 Additional information: The course is part of the Master’s Degree Programme in Real Estate Investment and Finance. Language: English Maa-20.3388 Real Estate Business, advanced studies (5 cr) Maa-20.3389 Seminar on Real Estate Management P (5 cr) Maa-20.3390 Seminar on Real Estate Management P (5 cr) III-IV Contents: Issues in real estate and facilities management are treaded at the seminar based on foreign and Finnish literature and particular cases. Mandatory attendance in 80 % of the seminar sessions. Requirements: Seminar presentation, opponing and participation
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Target group: The course belongs to the masters programme in real estate economics. Substitutive: Replaces the course Maa-20.369 kiinteistöjohtamisen seminaari (3 ov). Alternative for the course Maa-20.33xx kiinteistöjohtamisen seminaari (5 op). Web page: https://noppa.tkk.fi/noppa/kurssi/Maa20.3390/ Additional information: English is recommended language for the seminar, but Finnish students can do their seminar work in Finnish as well. Language: English Maa-20.3391 Real Estate Management, special topics P (5 cr) Autumn-Spring (Periods II-III) Lecturer: PhD Suvi Nenonen Contents: Varying topics. The theme for the year 20082009 is Workplace management. Target group: The course belongs to the to the masters programme in real estate economics. Substitutive: The alternative course for this is Maa20.3378 Kiinteistöjohtamisen vaihtuva opintojakso (4cr). Subsitutes course Maa-20.3379 Real Estate Management, special topics (4 cr). Web page: https://noppa.tkk.fi/noppa/kurssi/Maa20.3391/ Language: English Maa-20.3392 Special Topics in Real Estate Economics P (5 cr) Maa-20.4620 Postgraduate Education in Real Estate and Facilities Management P (1-10 cr) I-IV (Autumn and Spring) Lecturer: Prof. Kauko Viitanen and Prof. Arvo Vitikainen Contents: Postgraduate studies. Main objective is to develop real estate branch postgraduate education together with other universities. Topical issues in real estate branch. Seminars, researcher meetings, presentations. Requirements: Seminars and meetings. Substitutive: Replaces the course Maa-20.620 Postgraduate Education in Real Estate and Facilities Management (1-10 ocr). Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.4620 Language: Finnish or English Maa-20.4630 Real Estate Development P (4 cr) Spring (Period III) Lecturer: Barbara Havel Contents: Models of development process. Development valuation - Residual method. Risk and uncertainty in development. Different methods of developing building land in Europe. Institutional environment. Connection between planning and plan implementation. The incidence of costs and gains in different types of land development process. Land value capture and compensation. Land policy tools, e.g. compulsory purchase, urban land readjustment. Development control systems and property rights.
Requirements: Lectures, seminar presentation, examination. Literature: Announced at the lectures. Prerequisites: Basics of Real Estate and Urban Economics Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.4630 Language: English Maa-20.4640 Scientific Writing P (2 cr) Autumn and Spring Lecturer: Kathleen Moore Contents: The purpose of the course on scientific writing and publishing is to improve academic/scientific writing skills in English. The course also gives the students knowledge on how to learn a revision process to improve the writ-ing and to receive feedback on the written text. The course also discusses the topics concerning publishing in international journals. The process of writing a journal article is went through. During the course students will learn how to write a good journal article and what it needs to get published in the best journals. The course has an assignment in which the students write an article for a scientific journal during the course. Requirements: Workshops attendance & exercise Evaluation: Passed/failed Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.4640 Language: English Maa-20.4650 Research Methodology P (8 cr) Autumn and Spring Lecturer: Lecturer N.N. Contents: The course consists of three parts: Research Methodology I, Methodology workshops and Research Methodology II The course gives insight for the student on how to design a good research problem to produce scientific know-ledge, how the research process should be started and how a good research plan is written. The ingredients of a successful dissertation will also be covered as well as aspects on how to follow the progress the research process will be covered as well as the main methods of research with the pros and cons will be introduced. The course gives the students the prerequisites for doing research and writing a good research plan.Methodology workshops The purpose for the workshops is to provide for the student information on different research methods and to what kind of data they should anb can be applied to. The workshops will be divided to quantitative and qualita-tive research methodologies. The purpose is to deepen the students’ understanding of the research method they are about to apply. The workshops introduce the students with international and Finnish specialists on the research methodologies. The specialists speak about different methods and also students present their choice of method for their research and reasons why the certain method has been chosen. The presentations will be critically evaluated by a board of senior researchers, who also will give tips and comments on the presentations and the methods selected. The workshops will be organized in a two-day form.
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Requirements: Workshops attendance & exercises Evaluation: Passed/failed Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.4650 Language: English
Language: English Maa-29.1301 Elementary Law (2 cr) Maa-29.1311 Real Estate Law (3-6 cr)
Maa-20.4651 Research Methodology II P (8 cr) Autumn and Spring Lecturer: N.N. Contents: In the second course of Research Methodology, the topics covered in the first course (Maa20.4050)will be deepened. The research plan will be fixed and during the course the student should create a clear picture of the research methodology that he/she will use in her research. During the course students will write a research plan and defend it. The purpose of the defense of the research plan is to make students explain the reasons behind the decisions made in the plan. As noted earlier, planning is indispensable part of a good research. Requirements: Workshops attendance & exercises Requirements: Workshops attendance & exercises Evaluation: Passed/failed Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.4651 Language: English Maa-20.4660 Research Project Management P (5 cr) Spring Lecturer: Jaakko Kujala Contents: The course introduces the students into the management of research projects. The course also explains how a successful research project is planned, marketed, implemented and managed through the lifecycle of the project. The course is provided in cooperation with the Graduate School in Electronics, Telecommunications and Automation (GETA) and International Doctoral Programme in Pulp and Paper Science and Technology (PaPSaT). Requirements: Workshops attendance & exercises Evaluation: Passed/failed Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-20.4660 Language: English Maa-20.4670 Research Seminar in Real Estate P (1-10 cr) Autumn and Spring Lecturer: N.N. Contents: The series includes seminar sessions approximately two times a month. The sessions have presentations from both senior researchers and Graduate School students. Each session is one and half hour long. The senior researchers presenting in seminar sessions during 2008 have been high quality real estate international professors as well as senior researchers from Finland. The students can get study points by attending the seminar sessions (1 point), by giving a presentation in a session (all sessions, 2 points & 75 % of sessions, 1 point) and by keeping learning diary for a semester (2 points). Requirements: Seminar session attendance & exercises Evaluation: Passed/failed Web page: https/noppa.tkk.fi/noppa/kurssi/Maa-20.4670
Maa-29.1321 Planning and Building Law P (3-6 cr) Maa-29.1330 Introduction to Environmental Law (2-3 cr) Spring (Period III) Lecturer: Erja Werdi, lecturer Contents: Giving a general view of the structure, main concepts, principles, goals and legislation in environmental law. Environmental aspects in land use planning, nature conservation, use of natural resources and legislation concerning environmental protection. Requirements: Examination. Literature: Announced in Noppa. Prerequisites: Maa-29.1301 (recommended) Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.1330 Language: Finnish (lectures) and English Maa-29.2312 Law of Surveying and Conveyance (3-6 cr) Maa-29.2321 Planning and Building Law II P (3 cr) Maa-29.2322 Law on Infrastructure Networks (3 cr) Maa-29.2323 Law of Construction and Real Estate Contracts (3-6 cr) Maa-29.2351 Principles of Law on Contracts and Obligations (3-6 cr) Maa-29.2373 Public Law P (3-6 cr) Maa-29.2374 Public Law II P (3 cr) Maa-29.3314 Seminar on Real Estate, Land Use Planning and Environmental Law (6 cr) Maa-29.3324 Land Use Planning and Environmental Law, practical course (4 cr) Maa-29.3332 Environmental Protection Law P (4 cr) Maa-29.3333 Nature Conservation Law P (3-6 cr) Maa-29.3334 Water Resources Law P (3 cr) Maa-29.3335 Environmental Liabilities of Companies P (4 cr) Maa-29.3336 Environmental Economic Law P (4 cr) Spring (Period III) Lecturer: Prof Ari Ekroos Contents: To get acquainted with environmental economic law, which includes e.g. environmental taxes and subsidies and the trade in emission permits.
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Requirements: Examination. Literature: Announced in Noppa. Prerequisites: Maa-29.3332 and Maa-29.3335 (recommended) Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.3336 Language: Finnish (lectures) and English.
6 cr)
Maa-29.3338 Environmental Law, special topics (2-6 cr)
Maa-29.3364 Legislations on Patents P (3 cr)
Maa-29.3341 International Environmental Law P (4 cr) Spring (Periods III-IV) Lecturer: Prof Ari Ekroos Contents: To get acquainted with the main sources, principles and parts of international environmental law. Requirements: Examination. Literature: Announced in Noppa. Prerequisites: Maa-29.1330 (recommended) Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.3341 Language: Finnish (lectures) and English Maa-29.3342 EU Environmental Law P (4 cr) Spring (Period III) Lecturer: Prof Ari Ekroos Contents: To get acquainted with the legislation and principles of EU environmental law. Requirements: Examination. Literature: Announced in Noppa. Prerequisites: Maa-29.3345 (recommended) Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.3342 Language: Finnish (lectures) and English Maa-29.3345 Introduction to the EU Law (3 cr) Autumn (Period II) Lecturer: Erja Werdi, lecturer Contents: EU organs, main principles of action, jurisdiction, decision types and procedures, relations between EU and national legislation. Special topics in one sector of EU legislation (changes every year). Requirements: Examination. Literature: Announced in Noppa. Prerequisites: Maa-29.1301 (recommended) Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.3345 Language: Finnish (lectures) and English Maa-29.3352 Law on Contracts P (4 cr) Autumn (Periods I-II) Lecturer: Prof Ari Ekroos, lecturer Erja Werdi Contents: To get acquainted with the law of contracts. Requirements: Examination. Literature: Announced in Noppa. Prerequisites: Maa-29.2351 (recommended) Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.3352 Additional information: Questions concerning the course: talousoikeus @ tkk.fi Language: Finnish (lectures) and English.
Maa-29.3356 Competition Law P (3 cr) Maa-29.3360 Patent, Copyright and Trademark Law P (2-4 cr)
Maa-29.3366 Intellectual Property Law, special topics (2-6 cr) Maa-29.3372 Labour Law P (3 cr) Maa-29.3376 Economic Law, special topics (2-6 cr) Maa-29.3381 Jurisprudence P (3-12 cr) Autumn and Spring (Periods I-IV) Lecturer: Prof Ari Ekroos Contents: To get acquainted with a sector of law more specifically. Contents depend on the agreed literature. Requirements: Examination. Literature: Announced in Noppa. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.3381 Language: Finnish, English. Maa-29.3382 Law, special assignment P (5-12 cr) Lecturer: Prof Ari Ekroos Contents: Written assignment on a legal issue, topic agreed with the professor. About 10-40 pages, depending on topic. Requirements: Written assignment. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.3382 Language: Finnish, English Maa-29.3383 Seminar on Economic and Environmental Law, advanced studies (2-5 cr) Autumn / Spring Lecturer: Prof Ari Ekroos Contents: Basic skills for legal research and writing as well as doctrine of legal sources. Intended for students who write their special assignment or Master’s thesis. Requirements: Seminar presentation and participation in the seminar Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.3383 Language: Finnish, English. Maa-29.3385 Environmental Law and Policy - Analysis for Business Opportunities P (2-6 cr) Lecturer: Prof Ari Ekroos Contents: National and EU environmental law and environmental policy documents from the point of view of business opportunities and competitive advantage. More information in Noppa. Requirements: Examination. Literature: Announced in Noppa. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.3385 Language: Finnish and English
Maa-29.3353 Law on International Contracts P (3-6 cr) Maa-29.3355 General Damage Compensation Law (3-
Maa-29.4391 Postgraduate Seminar on Law P (2-12 cr) Lecturer: Prof Ari Ekroos
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Contents: Postgraduate studies in economic and environmental law. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-29.4391 Language: Finnish, English. Maa-57.1010 Fundamentals of Photography, Photogrammetry and Remote Sensing P (4 cr) Spring (Period III) Lecturer: Jussi Heikkinen Doc.Sc. (Tech.), professor Henrik Haggrén Contents: In a course one get familiar with the theory of electromagnetic radiation model and theory of optics. The theory of photography and basics in sensor technique in order to produce digital images will be sought through (analog and digital). The course also introduces basics in satellite imaging and arial imaging as well as close range photogrammetry. Also the approaches of visual interpretation and numerical classification in case of aerial images and satellite images are introduced. In discussion of imaging the principles of geometry and imaging devices are looked through (central projection, orthophoto, scanners etc.). In area of close range photogrammetry the special case of stereoimaging and photogrammetric 3D measurring method are covered (imaging base, precision, quality of measurements, anglyph image). Objective: Course provides basic knowledge about photogrammetric measuring proces. After the course student understands the principles of image formation in photography and in satellite imaging. Additionally the course provides background for advanced courses in photogrammetry and remote sensing. Requirements: Lectures+exercise and examination. e.g. aerial image orienteering Evaluation: The course will be evaluated in scale 1-5. In order to pass the course one must get the exam and exercises accepted. Target group: The course is meant for undergraduate studies. Recomended time to make the course is at 1. year. Literature: G. Konecny: Geoinformation - Remote Sensing, Photogrammetry and Geographic Information Systems, Taylor&Francis, London 2003. Other literature shall be announced during the lectures and on the home page of the course. Prerequisites: No previous knowledge required. Substitutive: Replaces Maa-57.349 or Maa-57.350 Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.1010/ Additional information: If you want to do course in English, do contact the lecturer in advance. Language: Finnish Maa-57.1020 Fundamentals of Remote Sensing (3 cr) Autumn (Period I) Lecturer: Juho Lumme, M.Sc. (Tech.) Contents: The Remote Sensing Process, electromagnetic radiation and its properties, interaction of electromagnetic radiation with the Earth’s surface and atmosphere, active and passive instruments of microwave, visual light and infrared regions and their operational principles.
Objective: Student knows the remote sensing process and operational principles of remote sensing instruments and understand how electromagnetic radiation is used in remote sensing and how it interact with different objects. Requirements: Lectures, exercise and exam. Evaluation: Exam and exercise Literature: Lillesand, T.M. & Kiefer, R.W.: Remote Sensing and Image Interpretation, 3rd edition, John Wiley & Sons, Inc., 1994. Substitutive: Replaces the course Maa-57.235 Fundamentals of Microwave Remote Sensing (2 ocr). Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.1020/ Additional information: If you want to do course in English, do contact the lecturer in advance. Language: Finnish (lectures) Maa-57.1030 Fundamentals of Photogrammetry (3 cr) Spring (Period III) Lecturer: prof. Henrik Haggrén and Petri Rönnholm Lic. Sc. (Tech.) Contents: In the course, the geometric principles of photogrammetry are handled. Students get familiar with the useful and fundamental terminology of photogrammetry. The course makes students acquainted with the basics of photogrammetric mapping processes. After the course they will understand the relations between images and how the environment will appear in them. Objective: After completing the course students are able to acquire essential images for various mapping applications and capable in using stereo mapping software in image measuring. Requirements: Obligatory exercises and examination. Literature: K. Kraus: Photogrammetry, Volume 1, Fundamentals and standard processes, Dümmler, Bonn 1993; H. Salmenperä: Fotogrammetria, TTKK, Tampere 1999. Other literature shall be announced during the lectures and on the home page of the course. Prerequisites: Maa-57.1010 Substitutive: Replaces the course Maa-57.300 Fundamentals of Photogrammetry (2 ocr). Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.1030/ Additional information: In case you want to do course in English, do contact the lecturer in advance. Language: Finnish (lectures). Maa-57.2040 General Remote Sensing (3 cr) Autumn (Period I) Lecturer: Markus Törmä, Lic.(Tech.) Contents: Remote sensing satellites and their orbits, satellite systems, instruments and their uses, geometric and radiometric correction (calibration, atmospheric and topographic correction) of data, correction made by data provider, image enhancements (histogram manipulation, filtering) and information extraction using digital image processing (vegetation index, principal component analysis, Tasselled Cap-transformation) Objective: Student knows the components of remote sensing satellite and their meaning, orbital dynamics and parameters, knows the aims of remote sensing programs of NASA and ESA, knows different spaceborne remote
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sensing systems like Landsat, Spot and ERS (their instruments and uses), knows preprocessing methods and can choose suitable method for geometric and radiometric correction and can use common methods for image enhancement, feature and information extraction Requirements: Lectures (7-8), exercises and exam. Exercises are summary of several presentations of seminar of Remote Sensing Club of Finland (alternative: summary of several refereed journal articles) and preprocessing of satellite image (geometric and radiometric correction) Evaluation: Exam and mandatory exercise. Literature: Kramer, H.J.: Observation of the Earth and Its Environment – Survey of Missions and Sensors, Springer, partially Lillesand, T.M. & Kiefer, R.W.: Remote Sensing and Image Interpretation, John Wiley & Sons, Inc., partially The Changing Earth: New Scientific Challenges for ESA’s Living Planet Programme, European Space Agency ESA SP-1304 July 2006 EOS Science Plan: Executive Summary, NASA 1999 EOS Science Plan: The State of Science in the EOS Program, NASA 1999, partially Prerequisites: Maa-57.1020 Fundamentals of Remote Sensing (3cr) Substitutive: Replaces the course Maa-57.351 General Remotes Sensing (2 ocr). Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.2040/ Additional information: If you want to do the course in English, do contact the lecturer in advance. Language: Finnish (lectures) Maa-57.2050 General Photogrammetry (3 cr) Autumn (Period II) Lecturer: Prof. Henrik Haggrén and Petri Rönnholm, Lic.Sc. (Tech.) Contents: After the course student knows alternative photogrammetric measuring principles. General analytical model of photogrammetry : image coordinate observations, transformation to 3D coordinate systems, orientation and georeference of images, are handled during the course. Also analytical stereo measurements and single image photogrammetry techniques are introduced. Objective: In the course, students learn the basic theory of photogrammetry in details. After the course, students are capable to implement photogrammetric basic operations. Requirements: Obligatory exercises abd examination. Literature: Karl Kraus: Photogrammetry, Volume 1, Fundamentals and standard processes, Dümmler, Bonn 1993; Petteri Pöntinen: Kolmiulotteinen videodigitointi, TKK, Fotogrammetrian ja kaukokartoituksen laboratorio, Reports 2/1994. Prerequisites: Maa-57.1030 Fundamentals of Photogrammetry (3cr) Substitutive: Replaces the course Maa-57.301 General Photogrammetry (2 ocr). Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.2050/ Additional information: If you want to do course in English, do contact the lecturer in advance. Language: Finnish (lectures)
Maa-57.2060 Digital Image Processing L (4 cr) Spring (Period III) Lecturer: Keijo Inkilä Lic.Sc. (Tech.) Contents: Image transforms, sampling, enhancement, restoration, compression and geometric transformations Objective: To learn mathematical basics of digital image processing and to be able to exploit image processing in photogrammetric problems. Requirements: Obligatory exercises and examination. Literature: Lecture notes (in Finnish). Other literature shall be announced during the lectures and on the home page of the course. Substitutive: Replaces the course Maa-57.231 Digital Image Processing (2,5 ocr) L. Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.2060/ Additional information: In case you want to do the course in English, do contact the lecturer in advance. Language: Finnish (lectures). Maa-57.3100 Photogrammetry in Practice P (6 cr) Autumn (Period I) Lecturer: Professor Henrik Haggrén, Petri Rönnholm, L.Sc(Tech) Contents: The major topics of the course include mapping processes and applications, which are based both on photogrammetry and laser scanning. After the course students are able to model objects in 3D. Also, they get familiar to technologies which are available for collecting 3D geospatial information. In addition, topics cover imaging processes for mapping, georeferencing of images, mapping workstations, 3D terrain models, environmental models, and special applications of photogrammetry. During the course an extensive exercise is done dealing with photogrammetric mapping. Objective: Students learn extensively photogrammetric methods for mapping and modeling our environment. After the course, students are capable to realize even large photogrammtric projects. Requirements: Lectures and mandatory excercises. Literature: Literature shall be announced during the lectures and on the home page of the course. Prerequisites: Maa-57.2050, Basic courses in Mathematics Substitutive: Replaces (after agreement) course Maa57.220 Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3100/ Additional information: If you want to do course in English, do contact the lecturer in advance. Language: Finnish (lectures). Maa-57.3110 Remote Sensing in Practice P (6 cr) Autumn (period II) Lecturer: Juho Lumme and Markus Törmä Contents: Classification of remote sensing data, supervised and unsupervised classification, the most common statistical classifiers (box, minimum distance and Maximum Likelihood classifiers and k-means clustering), workflow of classification, change detection, empirical modelling using regression analysis, accuracy of classification (error matrix and accuracy values),
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Corine Land Cover Classification and applications Objective: Student knows the workflow of image classification, knows the principles of supervised and unsupervised classification, can use the most common classifiers found from image processing software, can perform change detection, can make accuracy analysis for classification result, can use linear regression analysis to estimate continuous variables and knows application of remopte sensing Requirements: Lectures, exercises and exam. Exercises are classification of satellite image (using image preprocessed at course Maa-57.2040) and modelling forest properties using regression analysis. Evaluation: Exam and mandatory exercise Literature: Lillesand, T.M. & Kiefer, R.W.: Remote Sensing and Image Interpretation, John Wiley & Sons, Inc., partially Campbell, J.: Introduction to Remote Sensing, Taylor & Francis, partially Other material announced during lectures Prerequisites: Maa-57.2040 General Remote Sensing Substitutive: Replaces the course Maa-57.251 Remote Sensing I Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3110/ Additional information: If you want to do the course in English, do contact the lecturer in advance. Language: Finnish (English if needed) Maa-57.3120 Analytical Photogrammetry I P (4 cr) Spring period III. First time in 2008-2009. Lecturer: Keijo Inkilä Contents: Basics of LS-estimation, physical camera models, theory of two or three images, methods for orientation, reconstruction and calibration. Objective: To be familiar with photogrammetric modelling, computation methods and quality control of the results. Requirements: Lectures and exercises. Literature: Lecture notes in Finnish. Other literature shall be announced during the lectures and on the home page of the course. Substitutive: Replaces the course Maa-57.241 Analytical Photogrammetry Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3120/ Additional information: In case you want to do course in English, contact the lecturer. Language: Finnish (lectures) Maa-57.3130 Digital Photogrammetry I P (4 cr) Spring, period IV. Will be first time during study year 2008-2009. Lecturer: Keijo Inkilä, Lic.Sc. (Tech.) Contents: Extraction, representation and measurement of edges, regions and points. Image pyramides and wavelet transforms. Objective: To know the feature extraction methods, which are the basis of photogrammetric automation. Requirements: Lectures and mandatory exercises. Literature: Lecture notes (in Finnish). Other literature shall be announced during the lectures and on the home page of the course. Substitutive: Replaces the course Maa-57.305 Digital
Photogrammetry I Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3130/ Additional information: In case you want to do course in English, contact the lecturer in advance. Language: Finnish (lectures) Maa-57.3140 Analytical Photogrammetry II P (4 cr) Autumn, period II. First time during study year 20092010. Lecturer: Keijo Inkilä, Lic.Sc.(Tech.) Contents: Projective geometry, projective camera models, rational function models, epipolar geometry, projective reconstruction, feature-based photogrammetry. Objective: To be familiar with the projective methods of photogrammetry and to be able to evaluate the pros and cons of the physical and projective approaches. Requirements: Lectures and mandatory excercises Target group: Kurssi kuuluu ylemmän tutkinto-ohjelman opintoihin. Literature: Lecture notes (in Finnish). Other literature shall be announced during the lectures and on the home page of the course Prerequisites: Maa-57.3120 Analytical photogrammetry I Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3140/ Additional information: In case you want to do the course in English, contact the lecturer in advance. Language: Finnish (lectures). Maa-57.3150 Digital Photogrammetry II P (4 cr) Autumn, period II. Will be lectured first time during study year 2009-2010. Lecturer: Keijo Inkilä, Lic.Sc.(Tech.) Contents: Area- and feature-based image matching, geometric and radiometric object reconstruction, object tracking, automation of photogrammetric problems. Objective: To know, how to extract accurate geometric and physical 3D object information automatically from digital images. Requirements: Lectures and excercises Evaluation: Examination and exercises. Literature: Other literature shall be announced during the lectures and on the home page of the course. Prerequisites: Maa-57.3130 Digital photogrammetry I Substitutive: Replaces the course Maa-57.306 Digital fotogrammetri II (2 ocr) Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3150/ Additional information: In case you want to do the course in English, contatct the lecturer in advance. Language: Finnish (lectures). Maa-57.3160 Digital Photogrammetry III P (2 cr) Spring (period IV). Will be lectured first time during study year 2009-2010 Lecturer: Petteri Pöntinen, Jussi Heikkinen, Petri Rönnholm Contents: The course is based on problem based learning and the students will implement a photogrammetric system as a team work. The course includes object recognition and scene analysis using pattern recognition and artificial intelligence methods. Objective: The student will be introduced to object
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recognition and scene analysis from the photogrammetric point of view. Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3160/ Additional information: In case you want to do course in English, do contact lecturer in advance. Language: Finnish, (English if needed). Maa-57.3170 Close Range Photogrammetry P (3 cr) I (Autumn) Will be lectured first time in 2009-2010 in period I. Lecturer: Petteri Pöntinen, Lis.Sc.(Tech) and Professor Henrik Haggrén Contents: Basics of ray optics, mathematical models of close range photogrammetry, image acquisition and measuring devices, camera calibration, network design, photogrammetric measuring systems, special techniques (moiré, raster photogrammetry, tomography), measurement of deformations, example applications in medicine, industry, archaeology and architecture. Objective: After the course students are familiar with ray optics and mathematical models of close range photogrammetry. Students are able to understand phenomena that affect to the accuracies of image measurements and also to estimate accuracies of measurements. Students are aware about calibration methods and their applicability for varying tasks. In addition, students are familiar with close-range applications in the fields of industry, archeology, architecture, and medicine. Requirements: Lectures and excercises. Excursion to company the related to the course topics. Literature: Literature shall be announced during the lectures and on the home page of the course. Substitutive: Replaces the course Maa-57.260 Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3170/ Additional information: If you want to do course in English, do contact the lecturer in advance. Language: Finnish (lectures). Maa-57.3180 Laser Scanning P (2 cr) Autumn (period II) Lecturer: Petri Rönnholm, Lic.Sc.(Tech) Contents: Topics of the course include principles of airborne and terrestrial laser scanning, accuracies and applications. Students learn how to register different laser scanning data and how to create 3D models of our surroundings using laser scanning instruments. In addition, post-processing methods of 3D laser point clouds are introduced and principles of integration of laser point clouds and digital images are presented. Objective: Course provides both theoretic and practical principles of laser scanning. After the course students can understand differences of laser scanning systems and are able to acquire and select laser scanning data sets suitable for the application in focus. Requirements: Lectures and mandatory excercises Evaluation: Tentti Literature: Literature shall be announced during the lectures and on the home page of the course. Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3180/ Additional information: If you want to do course in
English, do contact the lecturer in advance Language: Finnish (lectures) Maa-57.3200 Radar Remote Sensing P (3 cr) Autumn (period I) Lecturer: Kirsi Karila ja Mika Karjalainen Contents: Radar instruments concentrating on Synthetic Aperture Radar, SAR-imaging, properties of SAR-images, influence of instrument and target parameters, geometric and radiometric correction of data, image processing, SAR-polarimetry, SAR-interferometry and DEM extraction, differential SAR-interferometry, image interpretation (modelling and classification), application of radar remote sensing. Objective: Student knows different kinds of radar instruments and their properties, knows the influence of radar and target parameters to measured signal, can choose suitable instrument, can make geometric and radiometric correction, can make image interpretation, knows SAR-polarimetry and interferometry and their uses and knows applications of radar remote sensing. Requirements: Lectures, exercise and exam. Evaluation: Exam. Literature: shall be announced during the lectures and on the home page of the course. Substitutive: Replaces the course Maa-57.370 Radar Remote Sensing Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3200/ Additional information: In case you want to do course in English, do contact the lecturer in advance. Language: Finnish and English Maa-57.3210 Data Classification and Modelling in Remote Sensing P (4 cr) Period II (Autumn). Will be lectured first time during study year 2009-2010 Lecturer: Markus Törmä, Lic.Sc.(Tech.) Contents: Statistical pattern recognition from point of view of remote sensing, methods and properties of statistical classification, feature selection an extraction, classification of hyperspectral data, fuzzy classification, contextual classification, segmentation, empirical, semiempirical and theoretical modelling, assimilation of remote sensing data with environmental models. Objective: Student is able to choose and implement statistical classifier, can use statistical feature extraction and selection methods, can use proper methods to classify hyperspectral data, knows fuzzy classification, can use empirical modelling, knows semi-empirical modelling and knows what assimilation means in this context. Requirements: Lectures, exercise (implement classifier, segmentation algorithm, modelling or assimilation method) and exam Evaluation: Exam and mandatory exercise Literature: Landgrebe, D.A.: Signal Theory Methods in Multispectral Remote Snsing, John Wiley & Sons. Other literature shall be announced during the lectures and on the home page of the course Prerequisites: Maa-57.3110 Remote Sensing in Practice, T-61.3020 Principles of pattern recognition, Mat-1.1110
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Basic course in Mathematics C1, Mat-1.2620 Applied Probability B, Mat-2.2104 Introduction to Statistical Inference Substitutive: Maa-57.3110 Remote Sensing in Practice, T-61.3020 Principles of pattern recognition, Mat-1.1110 Basic course in Mathematics C1, Mat-1.2620 Applied Probability B, Mat-2.2104 Introduction to Statistical Inference Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3210/ Language: Finnish and English
Language: English
Maa-57.3220 Remote Sensing Assignment P (9 cr) Autumn+Spring, periods I-III. First time during study year 2009-2010. Lecturer: Juho Lumme, M.Sc.(Tech.) Contents: Course includes practical exercises on remote sensing and knowledge learned on earlier remote sensing courses is applied to practical exercises. Exercises will be performed mainly using remote sensing software. The course is self-controlling and students are allowed to search and share more information among themselves. Objective: The aim of this course is to get to know assignments in remote sensing and learn to apply remote sensing information to different project works. After the course, student knows how to work in a remote sensing project and student learns to apply knowledge to practical work. Requirements: Exercises. Evaluation: Excercises Literature: Will be announced at lectures and on the www-page. Prerequisites: Maa-57.3210 Substitutive: Replaces the course Maa-57.252 Remote Sensing II Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.3220/ Additional information: In case you want to do course in English, contact the lecturer. Language: Finnish, English if needed.
Maa-57.4040 Special Assignment, Photogrammetry and Remote Sensing P (7 cr)
Maa-57.4010 Postgraduate Seminar on Photogrammetry, Photo-interpretation and Remote Sensing P (2-6 cr) Contents: Lectures and presentations on actual topis for increasing professional insight. Actual topics will be decided during the seminar. Requirements: Adequate participation in seminar and usually own presentation. Target group: Post-graduate students Substitutive: Replaces the course Maa-57.295 Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.4010/ Language: English
Maa-57.4030 Exercise in Imaging Technology P (7 cr) Contents: Problem solving within imaging technology and its realization. Substitutive: Replaces the course Maa-57.355 Exercise in Imaging Technology (5 ocr) P,V Web page: https://noppa.tkk.fi/noppa/kurssi/maa-57.4030/ Additional information: Contact lecturer Language: Finnish or English
Maa-6.1213 Introduction to geodesy (3 cr) Maa-6.1214 Modern geodesy (3 cr) Maa-6.2203 Adjustment Calculus (3 cr) Maa-6.2222 Practical Geodesy (3 cr) Maa-6.2227 Geodetic field work (4 cr) Maa-6.2279 Satellite positioning (4 cr) Maa-6.3230 Mathematical Geodesy (3 cr) Maa-6.3241 Geodetic Metrology (3 cr) Maa-6.3253 Geodesy Seminar P (3 cr) Maa-6.3254 Navigation and positioning Seminar P (3 cr) 26+26(2+2) spring (periods III-IV) Lecturer: Prof Martin Vermeer Contents: The objective is to provide a deeper knowledge of the processing of geodetic information, comprising methods for collecting, measuring, computing, analysing and modelling bodies of geodetic information. Additionally, topical issues in geodetic informatics will be treated. The course will be given in seminar format. Requirements: Agreed during the course. Literature: Literature relevant to the seminar subject. Prerequisites: Maa-6.203 or Maa-6.2203, Maa-6.230 or Maa-6.3230, Maa-6.284 or Maa-6.3284. Substitutive: Course corresponds to the course Maa6.254. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-6.3254 Language: Finnish or English Maa-6.3260 Engineering Geodesy P (3 cr)
Maa-57.4020 Research Seminar on Photogrammetry, Photo-interpretation and Remote Sensing P (3 cr) Lecturer: professor Henrik Haggrén Contents: Demonstration of research works within photogrammetry, photo-interpretation and remote sensing. Requirements: Adequate participation in seminar and own presentation. Substitutive: Replaces the course Maa-57.400
Maa-6.3263 Engineering Geodesy in Building and Industrial Surveying P (3 cr) Maa-6.3271 Physical Geodesy P (3 cr) Maa-6.3272 Space Geodesy P (3 cr) Maa-6.3280 GIS and Geodetic Measurements P (2 cr)
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26+13(2+1) autumn (periods I-II) Lecturer: prof. Martin Vermeer Contents: Use of GPS in conjunction with GIS: GPS in the production of geodata, measurement methods, equipment and application examples. Requirements: Exam and exercises. Literature: Announced during the lectures Prerequisites: Maa-6.279 or Maa-6.4279 or Maa-6.2279 (compulsory for students of the option Surveying and Mapping Technology, recommended for others) Substitutive: Course corresponds to the course Maa6.280. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-6.3280 Language: Finnish,English Maa-6.3282 Statistical Methods in Geodesy P (3 cr) Maa-6.3283 Reference Systems P (3 cr) Maa-6.3284 Map Projections (3 cr) Maa-6.3285 Navigation Methods P (3 cr) 26+13(2+1) autumn (periods I-II), arranged only odd autumns, not lectured in the academic year 2008-2009 Lecturer: Prof. Martin Vermeer Contents: Fundamentals of navigation. Stochastic processes, Kalman filter, inertial navigation and mechanisation, the real time concept, GPS navigation, on-the-fly ambiguity resolution, use of GPS reference stations, their data communications solutions and standards; navigation and geographic information systems; topical issues. Requirements: Exam and exercises / an exercise task. Literature: Material distributed during lectures. Prerequisites: Maa-6.203 or Maa-6.2203 recommended. Substitutive: Course corresponds to the course Maa6.285. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-6.3285 Language: Finnish,English Maa-6.3286 GNSS-technologies P (3 cr) 36 spring (period III) Lecturer: Martin Vermeer; external teachers from the satellite positioning industry Contents: Various subjects on the technology of satellite positioning and satellite positioning receivers; modelling of the observation process; use of the Internet and wireless communication; further subjects to be announced. Requirements: Examination, consisting of lectures, exercises and self-activity. Literature: Enge-Misra: “Global Positioning System, Signals, Measurements and Performance”; other material. Web page: https://noppa.tkk.fi/noppa/kurssi/Maa-6.3286
Language: Finnish,English Maa-6.3401 Project Assignment (2-5 cr) I-II or III-IV Lecturer: Prof. Martin Vermeer Jaakko Santala, Dr.Tech. Requirements: Project by agreement between lecturer and student Language: Finnish,English Maa-6.4299 Geodesy Postgraduate Seminar 1 P (1-6 cr) 32+0 Implemented as a research school course, according to possibilíties in spring or autumn Lecturer: Prof. Martin Vermeer, ivited lecturers Contents: Varying, topical issues within the geodetic discipline. Pre-graduate students may participate under certain conditions. Possibility to present and publish a seminar paper. Requirements: Implemented as a research school course, according to possibilities in spring or autumn Substitutive: Course corresponds to the course Maa6.299. Additional information: Language: Finnish, Swedish or English. Language: Finnish,Swedish,English Maa-123.520 Special Assignment in Geoinformation Technique (5 ocr) Lecturer: Professor Kirsi Virrantaus Contents: Student writes a research paper or other study on a specific topic in geoinformation technique. Language: English Maa-123.530 Special Assignment in Cartography (5 ocr) Lecturer: Professor Kirsi Virrantaus, Paula AhonenRainio, lecturer Contents: Student writes a research paper or other study on a specific topic in Cartography. Requirements: Agreed with the teacher. Language: English Maa-20.400 Real Estate Studies, special assignment (5 ocr) Maa-57.306 Digital Photogrammetry II (P) (2 ocr) Maa-6.290 Special Study in Geodesy (5 ocr) Lecturer: Jaakko Santala, Dr.Tech Contents: An essay individually agreed upon with the professor and seminar. Additional information: Language: Finnish, Swedish or English. Language: Finnish,swedish or english
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Department of Structural Engineering and Building Technology Rak-0.1200 Basic Course in Structural Engineering and Building Technology (3 cr)
Additional information: Language: English or Finnish according to agreement. Language: English
Rak-11.1201 R-CAD (4 cr) Rak-11.2107 Bridges and Foundation Structures (4 cr) 30 + 20 (4 + 2) I-II Lecturer: N. N. Contents: Loads in structures. Bridge types. General foundation methods. Design, analysing and dimensioning of foundations. Computational models of base slabs, piles and pile groups. Requirements: Lectures, exercises, compulsory assignments, examination. Literature: To be announced separately. Lecture notes. Prerequisites: Rak-54.2106 (compulsory). Web page: https://noppa.tkk.fi/noppa/kurssi/rak-11.2107/ Additional information: Language: Teaching in Finnish; individual study in English possible. Language: Finnish Rak-11.3000 Bridges, General Course (4 cr) 24 + 36 (2 + 3) I-II Lecturer: N. N. Contents: Codes concerning bridges. General design of bridges. Design and dimensioning of supporting structures. Design of simple timber, concrete and steel bridges. Construction and scaffoldings. Requirements: Lectures, design task under supervision, examination. Prerequisites: Rak-11.2107 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-11.3000/ Additional information: Language: English or Finnish according to agreement. Language: English Rak-11.3100 Load-Carrying Structures I (4 cr) 24+24 (2+2) I-II (First time in Autumn 2008) Lecturer: N. N. Contents: Main types of load-carrying structures and their analysing methods: girders and grillages. Requirements: Lectures, exercises, examination. Prerequisites: Rak-54.2200 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-11.3100/ Additional information: Language: English or Finnish according to agreement. Language: English Rak-11.3200 Bridges, Special Course (4 cr) (48 + 0 (4 + 0) III-IV (First time in Spring 2009) Lecturer: N. N. Contents: Special items of the design (structural, economic and aesthetic design), analysis and construction of different types of bridges. Requirements: Lectures, examination. Prerequisites: Rak-11.3000 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-11.3200/
Rak-11.3300 Bridge Design Exercise (4 cr) 0 + 12 (0 + 2) I (First time in Autumn 2009) Lecturer: N. N. Contents: Special items of the design (structural, economic and aesthetic design), analysis and construction of different types of bridges. Requirements: Design exercise under supervision. Prerequisites: Rak-11.3200 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-11.3300/ Additional information: Language: English or Finnish according to agreement. Language: English Rak-11.3400 Load-Carrying Structures II P (4 cr) 24 + 24 (2 + 2) III-IV (First time in Spring 2009) Lecturer: N. N. Contents: Main types of load-carrying structures and their analysing methods: trusses, arches, cable-stayed and suspension structures. Requirements: Lectures, exercises, examination. Prerequisites: Rak-11.3100, Rak-54.3100 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-11.3400/ Additional information: Language: English or Finnish according to agreement. Language: English Rak-11.3500 Bridge Engineering, Special Assignment P (4-8 cr) I-II (First time in Autumn 2009) Lecturer: N. N. Contents: Literature research, computer program or computation, or experimental or theoretical research on selected topic. Requirements: Individual study including a report. Web page: https://noppa.tkk.fi/noppa/kurssi/rak-11.3500/ Additional information: Language: English, Finnish or Swedish according to agreement. Language: English Rak-11.4600 Licentiate Seminar in Bridge Engineering P (4-8 cr) I-II or III-IV (First time in 2008 - 2009) Lecturer: N. N. Contents: The aim of the seminar is to present advanced analysis methods and production technologies of different types of bridges. Different topics yearly. Requirements: Seminar meetings and presentations according to agreement. Web page: https://noppa.tkk.fi/noppa/kurssi/rak-11.4600/ Additional information: Language: English or Finnish according to agreement. Language: English
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Rak-43.1210 Introduction to Building Physics (4 cr) Rak-43.1215 Introduction to the design of load-bearing structures (4 cr) Rak-43.2100 Basis of Structural Design I (4 cr) Rak-43.2400 Heat Insulation and Vapour Barrier Materials and Structural Solutions (4 cr) Rak-43.3100 Design of Load-bearing Building Frames of Building I (4 cr) Rak-43.3110 Design of Concrete Structures (4 cr)
materials. Three-dimensional state of stress and strain and generalized Hookes law. Failure criteria. Geometrical properties of cross-sections. Stresses in axially loaded members and symmetric bending. Differential equations of beam deflection. Principle of superposition. Plastic bending and plastic moment. Buckling of columns and columns under eccentric loads. Requirements: Examination. Obligatory exercises. Literature: Lecture notes. Recommended: R. C. Hibbeler, Mechanics of Materials, Prentice Hall. F. P. Beer& E.R. Johnston, Mechanics of Materials, McGrawHill. Prerequisites: Rak-54.1100 Additional information: Language: Finnish; individual study in English possible.
Rak-43.3120 Design of Timber Structures (4 cr) Rak-43.3130 Exercise Course in Design of Concrete Structures I (2 cr) Rak-43.3135 Exercise Course in Design of Concrete Structures II (2 cr) Rak-43.3140 Exercise Course in Design of Timber Structures (2-4 cr) Rak-43.3150 Special Assignment in Structural Engineering (4-8 cr) Rak-43.3160 Design of Buildings for Lateral and Vertical Loads II P (4-6 cr) Rak-43.3300 Repair Methods of Structures I (4 cr) Rak-43.3310 Repair Methods of Structures II (8 cr) Rak-43.3410 Building Physics Design I, Therminal and Moisture Technical Design (6 cr) Rak-43.3415 Building Physics Design 2, Acoustic Design (4 cr) Rak-43.3420 Calculations in Building Physics (6 cr) Rak-43.3430 Special Assignment in Building Physics (4-8 cr) Rak-43.3500 Introduction to Fire and Safety Engineering (2 cr) Rak-43.3510 Fire Dynamics (4 cr) Rak-43.3520 Fire Simulation (4 cr) Rak-54.1100 Statics (3 cr) Rak-54.1200 R Mechanics of Materials for Structures (4 cr) Autumn Lecturer: Prof Jukka Aalto Contents: Stresses, strains and mechanical properties of
Rak-54.1300 Introduction to Structural Mechanics (4 cr) III-IV Lecturer: Prof Jukka Aalto Contents: Analysis of statically determinate structures: Cable, truss, frame, arch and compression line. Displacements of trusses and deflections of beams. Principles of statically indeterminate structures: Forceand deflection method. Unsymmetric bending and torsion. Beams composed of different materials. Deflection caused by shear and sandwich beam. Beam on elastic foundation. Requirements: Spring Literature: Lecture notes. Recommended: R. C. Hibbeler, Mechanics of Materials, Prentice Hall. F. P. Beer& E.R. Johnston, Mechanics of Materials, McGrawHill. Prerequisites: Rak-54.1200. Additional information: Language: Finnish; individual study in English possible. Rak-54.2100 Structural Mechanics I (4 cr) I-II Lecturer: Prof Juha Paavola Contents: Principle of virtual work and energy methods. Displacements of structures by the unit load method. General force method for beam structures. Elastic methods for frames. Compressed and bent beam and buckling of frames. Physically non-linear beams. Plastic methods for beams and frames. Requirements: Obligatory exercises and examination. Literature: Lecture notes. Prerequisites: Rak-54.1300. Additional information: Language: Finnish; individual study in English possible. Rak-54.2200 Structural Mechanics II (4 cr) III-IV Lecturer: Prof. Juha Paavola Contents: Elastic methods for disks and plates. Flexible plates and plate buckling. Plastic methods for plates. Requirements: Obligatory exercises and examination. Literature: Lecture notes. Prerequisites: Rak-54.2100. Additional information: Language: Finnish; individual
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study in English possible. Rak-54.3100 Structural Mechanics III (4 cr) III-IV Lecturer: Prof. Jukka Aalto Contents: Principles of shell theory. Thin-walled structures. Lateral and torsional buckling. Thin-walled structures. Lateral and torsional buckling. Principles of shell theory. Buckling of shells. Requirements: Obligatory exercises and examination. Literature: Lecture notes. Prerequisites: Rak-54.2200. Additional information: Language: Finnish; individual study in English possible. Rak-54.3200 Numerical methods in structural engineering (5 cr) III-IV Lecturer: Teaching research scientist Reijo Kouhia Contents: Introduction to numerical methods in structural engineering. Applications of the finite element method to heat/moisture conduction, beam problems, plane stress and plate problems. Requirements: Exercise work and examination. Literature: Lecture notes. Prerequisites: Rak-54.2200 Additional information: Language: Finnish; individual study in English possible. Rak-54.3300 Structural Mechanics, variable course L (4 cr) III-IV Lecturer: Teachers of structural mechanics Contents: Special topics of structural mechanics, which are of main importance in structural analysis and design. Annually varying: Structural stability, structural dynamics, computational methods, continuum mechanics, theory of plasticity, damage mechanics, etc. Requirements: Obligatory exercises and examination. Prerequisites: Rak54.2200 Additional information: Specially: In academic year 2007-2008 the course is given two times: 1) Structural Stability, I-II 2) Theory of Plasticity, III-IV. Language: Finnish; individual study in English possible. Rak-54.3400 Structural Mechanics, special assignments L (4-6 cr) Autumn and Spring Lecturer: Teachers of structural mechanics Contents: Studies of methods, applications or special problems of structural mechanics. Use of literature and writing of technical reports. Special assignments is a literature study, limited theoretical or experimental research work or a part of a research project, writing of computer code etc. Requirements: Prepared under supervision of the teacher. Prerequisites: Rak-54.2200 or Rak-54.111. Additional information: Language: Finnish; individual study in English possible.
Rak-54.3500 Structural Mechanics, personal studies L (4-6 cr) I, II ,III, IV Lecturer: Teachers of structural mechanics Contents: Studies on special applications and methodologies of structural mechanics, which the student is personally interested in. Requirements: Agreed with the teacher. For example book examination, exercises and/or oral examination. Prerequisites: Rak-54.2200 or Rak-54.111. Additional information: Language: Finnish; individual study in English possible. Rak-54.3600 Seminar on Structural Engineering L (4 cr) III-IV Lecturer: Professors of Structural Engineering. Prof Jukka Aalto and Prof Juha Paavola. Contents: Studies of special problems in structural engineering. Use of literature, oral and written presentation. Topics change annually. Studies of special problems in structural mechanics. Use of literature, oral and written presentation. Topics change annually. Requirements: Seminar meetings (2 h/week). Preparing written and oral presentation. Seminar meetings (2h/week). Preparing written and oral presentation. Prerequisites: Rak-54.2200 Additional information: Language: Finnish; individual study in English possible. Language: Finnish; individual study in English possible. Rak-63.1100 Construction Processes and Systems (4 cr) Rak-63.1240 Management of infrastructure projects (4 cr) Rak-63.2235 Management of Building Projects (4 cr) Rak-63.3186 Special Assignment in Construction Management and Economics (6-12 cr) Rak-63.3188 Seminar in Construction Management and Economics (3 cr) Rak-63.3196 Special Topics in Construction Economics and Management, P (3 cr) Rak-63.3200 Information Technology in Construction (3 cr) The course is implemented only if additional funding is available. Lecturer: N.N. Contents: The state-of-art and future of hardware, software, and netware with the relevant applications in the selected areas such as product and process modeling, scheduling, CAD, internet, etc. Objective: The aim of the course is to give an overall introduction to different types of hard-, soft- and netware, with a particular emphasis on those types of applications which are of particular relevance to the construction industry.
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Requirements: A written IT strategy. Mandatory attendance (70 %) in lectures and company applications. Evaluation: On a scale of 0 (failed) - 5 (excellent). At minimum, the acceptable quality of the plan. Literature: to be announced separately. Prerequisites: Course-specific Substitutive: Replaces Rak-63.200 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.3200 Language: English Rak-63.3211 Design Economics of Buildings (5 cr) Rak-63.3213 Property Management (4 cr) Rak-63.3217 Construction Contracting and Contractual Procedures (4 cr) Rak-63.3220 Real Estate Development (3 cr) Rak-63.3238 Advanced Construction Project Management (P) (4 cr) Rak-63.3239 Design Economics of Infrastructure (5 cr) Rak-63.3245 Management of Construction Contractors (3 cr) Rak-63.3250 Facility Services (3 cr) Autumn Lecturer: Jukka Puhto, M.Sc. Contents: Service quality, facility services, service purchasing, facility management, service agreements, relationship management. Requirements: Exercises. No examination. Literature: Grönroos: Palveluiden johtaminen ja markkinointi; Puhto: Kiinteistönhoidon hankinnan kehittäminen; Atkin: Total Facilities Management. Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.3250 Additional information: Language: Finnish; individual study in English possible. Language: Suomi Rak-63.3310 Cases in International Construction Business P (4 cr) 10 + 10 A student may choose Contents: (a) An introduction to globally and internationally leading contractors, designers, and suppliers; some associations and markets, and (b) a webbased investigation of a crucial, firm-focused or market/sector/business-focused theme related to ICB where a student will write and compile a set of the powerpoint (word) dias (and possibly present these in a team session) based on: (i) firm-specific data or (ii) country-specific, sector-specific, or business-specific data. Objective: “(1) To broaden students’ knowledge and understanding of global, sector, industry, country, business and/or firm-specific approaches, logics, and strategies in various global, international, regional, national, and local contexts of construction and capital investments (2) To create students’ basic skills for analyzing a firm, a sector, a country/region, or a business
as well as for writing analytical reports from the view of business development or business planning. (3) To enhance students’ skills for communicating with Finland-based and foreign firms and organizations which (i) operate in global or international capital-investment markets, (ii) export to foreign markets, or (iii) enter the local market in Finland. “ Requirements: Pre-examination, a web-based brief (ppt dias), learning diary Evaluation: “On a scale of 0 (failed) - 5 (excellent), with the weight of the pre-examination 60 % and that of the web-based brief 40 %. “ Target group: Graduate course in Special Module R309C International Construction Business Literature: The pre-examination literature will be updated in August (annually) along the global, Chinese, US, European, Nordic, Baltic, and Finnish views. Lecture notes. Substitutive: Replaces Rak-63.302 and Rak-63.312 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.3310 Language: English Rak-63.3320 Strategies in International Construction P (6 cr) 24+24 (III-IV) Contents: Introduction to the contextual, competing, and collaborating views and concepts of a firm’s strategy in strategic management literature, e.g. Porterian, resourcebased, competence-based, knowledge-based, organization-based, process-based, dynamism-based, and evolutionary. Applications to businesses based on and firms operating in international capital-investment markets. Objective: (1) To introduce business-management research, concepts, and applications with an emphasis on international and global views, (2) to enhance students’ knowledge and understanding of the eight schools of thought on business management, and (3) to enhance students’ skills for applying a business-management concept to a particular business domain within international capital-investment markets, i.e. engineering, design & consulting, construction & contracting, building products and systems deliveries, property ownership, development, and management, or lifecycle services for the fixed capital stocks (e.g. buildings, infrastructure, plants, transmission networks, or utilities). Requirements: Pre-examination, joint sessions, and an application of the selected business-management concepts to the focal context. Evaluation: On a scale of 0 (failed) - 5 (excellent), with a weight of the pre-examination 50 % and that of the application 50 %. Target group: Graduate course in Special Module R309C International Construction Business Literature: The pre-examination literature will be updated for each term. Lecture notes. Prerequisites: Rak-63.3310 Substitutive: Replaces Rak-63.320 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.3320 Language: English
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Rak-63.3330 Operations in International Construction Business P (5 cr) 0+30 (I-II) Lecturer: Doc., PhD Kalle Kähkönen, Lic.Sc. Lauri Palojärvi, M.Sc. Kari Sainio, M.Sc, MBA Tuija Lönnrot, M.Sc. Lasse Rajala Contents: (1) Entry management, marketing, and clients behavior (e.g. in Russia), (2) acquisition management; of local firms (e.g. in Russia/Baltic region), (3) management of design & engineering services (e.g. EU countries, overseas), and (4) risk management in typical foreign projects (e.g. in Russia). In each stage, the particular business environment is reviewed, such as Russia, Germany, the Baltic countries, or other selected EU countries. Objective: Students understand a set of basic differences, uncertainties, and risks that are inherent in international construction markets, cultures, practices, projects, and operations as well as in basic tasks which a young engineer typically performs in the areas of the marketing, engineering, and execution of construction-intensive projects (contracts) abroad as well as in the context of a foreign subsidiary. Requirements: Intensive 4-part teamwork. No examination. Evaluation: On a scale of 0 (failed) - 5 (excellent) based on the team’s performance. Target group: Graduate course in Special Module R309C International Construction Business Literature: Teamwork hand-outs for each part. Prerequisites: Rak-63.3310 Substitutive: Replaces Rak-63.330 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.3330 Language: English Rak-63.3340 Special Assignment in International Construction Business P (5 cr) 0+30 A student may choose Lecturer: Researchers in CME and ICB Contents: The research paradigm and the requirements for conducting studies in international construction business (ICB). Objective: Students develop their basic skills for carrying out studies in international construction business (ICB). Requirements: Research assignment (the instructor specifies a topic for each student). No examination. Evaluation: On a scale of 0 (failed) - 5 (excellent) based on the written assignment. Target group: Graduate course in Special Module R309C International Construction Business Literature: Eligible references are selected for each student and her or his assignment. Prerequisites: Rak-63.3310, Rak-63.3320 and Rak63.3330 Substitutive: Replaces Rak-63.340 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.3340 Language: English Rak-63.3351 Quality Management of Projects P (4-8 cr)
According to a student choice Contents: Students learn fundemantal issues in the quality management of projects. Topics and learning methods vary over academic year. Requirements: Examinatioon and/or seminar work depending on the actual content of each course. Evaluation: Scale 0-5 Target group: Continuing education students and postgraduate students Literature: To be announced separately course by course. Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.3351 Additional information: Lahti, Otaniemi or internationally Language: Finnish or English Rak-63.3352 Management of Project Business P (4-8 cr) According to a student choice Contents: Students learn fundemantal issues in the management of projects business. Topics and learning methods vary over academic year. Requirements: Examinatioon and/or seminar work depending on the actual content of each course. Evaluation: Scale 0-5 Target group: Continuing education students and postgraduate students Literature: To be announced separately course by course. Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.3352 Additional information: Lahti, Otaniemi or internationally Language: Finnish and/or English Rak-63.4290 Postgraduate Seminar in Construction Management and Economics P (3-5 cr) 0 + 30 (0 + 3) I-IV Lecturer: Prof. Jouko Kankainen Contents: The presentation of the aims, limitations, and plan of her or his intended postgraduate study in its early phase. The reporting of the findings and the conclusions in a later phase. Active, critical discussion about others’ presentations during sessions. Objective: To integrate postgraduate students with scientific research in CME and to activate them to conduct their studies effectively. Requirements: 2-3 presentations of a postgraduate student’s doctoral or licentiate-level study during sessions. The regular attendance in joint sessions during one (academic) year. Graduate students of Rak-63.3188 attend joint sessions. Evaluation: On a scale of non-accepted, accepted, and excellent performance. Target group: Postgaduate course, mandatory for students with CME as Major or Minor Literature: Examples of studies in CME. Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.4290 Language: Finnish and English Rak-63.4291 Postgraduate Course in Construction Contracting P (5-10 cr) Students may choose Contents: The reviews of the selected publications. The
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writing of the manuscripts of some scientific articles eligible for the publication in international journals or the presentation at conferences in the field of CME (as exercises). Objective: Postgraduate and adult students gain in-depth knowledge about construction contracting and contract management. They master the selected, advanced topics. Requirements: Manuscripts for scientific articles Evaluation: On a scale of 0 (failed) - 5 excellent Target group: Postgraduate course Literature: To be agreed upon with the teacher. Substitutive: Replaces Rak-63.291 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.4291 Language: Finnish and English Rak-63.4292 Postgraduate Course in Design Economy and Maintenance Management of Buildings P (5-10 cr) Students may choose Lecturer: Doc., D.Sc. Arto Saari Contents: The reviews of the selected publications. The writing of the manuscripts of some articles eligible for the publication in international journals or the presentation at conferences in the field of CME (as exercises). Objective: Postgraduate and adult students gain in-depth knowledge about design economy and facility management. They master the selected, advanced topics. Requirements: Manuscripts for scientific articles Evaluation: On a scale of 0 (failed) - 5 excellent Target group: Postgraduate course Literature: To be agreed upon with the teacher. Substitutive: Replaces Rak-63.292 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.4292 Language: Finnish and English Rak-63.4293 Postgraduate Course in Construction Project Management P (5-10 cr) Students may choose Contents: The reviews of the selected publications. The writing of the manuscripts of some articles eligible for the publication in international journals or the presentation at conferences in the field of CME (as exercises). Objective: Postgraduate and adult students gain in-depth knowledge about project management. They master the selected, advanced topics. Requirements: Manuscripts for scientific articles Evaluation: On a scale of 0 (failed) - 5 excellent Target group: Postgraduate course Literature: To be agreed upon with the teacher. Substitutive: Replaces Rak-63.293 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.4293 Language: Finnish and English Rak-63.4294 Postgraduate Course in Management of Contractors and Internationalization P (5-10 cr) Students may choose Lecturer: Univ. Teacher, Lic.Sc. Pekka Huovinen Contents: The reviews of the selected publications. The writing of the manuscripts of some articles eligible for the publication in international journals or the presentation at conferences in the field of CME (as exercises).
Objective: Postgraduate and adult students gain in-depth knowledge about the management of construction contractors and internationalization. They master the selected, advanced topics. Requirements: Manuscripts for scientific articles Evaluation: On a scale of 0 (failed) - 5 excellent Target group: Postgraduate course Literature: To be agreed upon with the teacher. Substitutive: Replaces Rak-63.294 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.4294 Language: Finnish and English Rak-63.4295 Postgraduate Special Assignment in Construction Management and Economics P (5-10 cr) Students may choose Contents: The conduct of a small-scale pre-study, inquiry, or development task realted to a topic supporting the intended postgraduate thesis. The writing of a manuscript for a scientific article. Objective: To conduct a pre-study for the rigorous planning of her or his intended doctoral or licentiate thesis Requirements: A report and a manuscript for an article Evaluation: On a scale of non-accepted, accepted, and excellent performance. Target group: Postgraduate course Literature: Examples of studies in CME. Substitutive: Replaces Rak-63.295 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-63.4295 Language: Finnish and English Rak-82.1106 Building Materials (3 cr) 32+9 (2+1) Autumn Lecturer: Maarit Järvinen, apecial teacher Contents: Internal structure of materials: mechanical, thermal, and moisture properties of building materials. Production, quality control, utilisation, and prospects of building materials. Recycling and reclaiming of building materials. Wood based materials. Bricks and mortars. Organic materials: plastics, thermal insulators, bitumen. Corrosion. Composite materials. Plasters, paints, coverings, adhesives, joint sealants. Glass. Ceramic materials. Requirements: Lectures. Laboratory work (5 h), which has to be approved before examination. Examination. Literature: Lecture notes, Ashby-Jones: Askeland: The Science and Engineering of Materials or LeppävuoriProkki-Kanerva-Vähäkallio: Rakennusaineet, Otapaino 1991 or Siikanen Unto: Rakennusoppi, TTY 2001 or Burström Per: Byggnadsmaterial Language: Finnish; individual study in English possible. Rak-82.1111 Concrete Technology 1 (4 cr) 32+32 (3+2) Spring Lecturer: Prof Vesa Penttala Contents: Concrete properties. Concrete technology: concrete proportioning and concreting methods. Corrosion of reinforced concrete. Objective: The aim of the course is to acquaint the student with concrete technology. Requirements: Lectures and maths exercises. Laboratory
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work (6 h), which has to be approved before examination. Examination. Literature: Lecture notes, Mehta: Concrete. Structure, properties and materials, 1986, Ljungkrantz et al.: Betonghandbok, Material, 1997., BY 201: Betonitekniikan oppikirja, 2004. Language: Finnish; individual study in English possible. Rak-82.2121 Production Technology of Concrete Structures (4 cr) 27+0 (2+0) Autumn Lecturer: Andrzej Cwirrzen, teaching researcher Contents: Utilization of concrete in construction work. Production tools and methods in concrete engineering. Mould and reinforcement techniques. Fabrication of in situ concrete structures. Production and assembly of prefabricated concrete components. Winter concreting. Special concrete work methods. Cement and concrete industry. Objective: To acquaint the student with production and assembly of concrete structures. Requirements: Lectures. Excursions to construction sites. Design exercise, which has to be approved before examination. Examination. Total grade = 0.75 * grade of examination + 0.25 * grade of design exercise. Literature: Lecture notes, Nawy (ed): Concrete construction handbook, 1997, Ljungkrantz et al.: Betonghandbok, Arbetsutförande, 1997, BY 201: Betonitekniikan oppikirja, 2004. Prerequisites: Rak-82.1111 Additional information: Language: English Rak-82.3131 Concrete Technology 2 (6 cr) 27 + 47 (2 + 3) Autumn Lecturer: Prof Vesa Penttala Contents: Chemistry of cement and additives, admixtures, fibre concrete, polymer concrete, high performance concrete, lightweight concrete. Durability of concrete structures. Objective: To improve the knowledge of concrete technology and to acquaint the student with the properties and production of special concretes. Requirements: Lectures. Maths exercises. Laboratory work (17 h) and a design exercise, which have to be approved before examination. Examination. Total grade = 0.75 * grade of examination + 0.25 * grade of design exercise. Literature: Lecture notes, Neville: Properties of Concrete, 1995, Cement and Mortar Technology and Additives, 1980., Rixom & Mailvanagam: Chemical Admixtures for Concrete, 1986, Czernin: Zementchemie für Bauingenieure, 1977, Hannant: Fibre Cements and Fibre Concretes, 1978, CBI: Armeringskorrosion 1980, The Concrete Society: Sprayed Concrete, Fibrous Concrete, Lightweight concrete, Admixtures, 1980, Penttala et al.: Korkealujuuksisen betonin valmistustekniikka, 1986; Mannonen et al: Itsetiivistyvien betonien suhteitus, valmistustekniikka ja perisominaisuudet, 2004; Tulimaa et al: Ympäristöystävälliset ja hyvin säilyvät betonit, 2005. Prerequisites: Rak-82.2121 Production Technology of
Concrete Structures Substitutive: Rak-82.131 Concrete Technology 2 Language: Finnish; individual study in English possible. Rak-82.3136 Product Development of Structures (4 cr) Rak-82.3138 Advanced Building Materials Technology P (4 cr) Autumn + Spring Lecturer: Prof Vesa Penttala Contents: Advanced issues in building materials technology. Requirements: Lectures. Seminar lectures. Exercises. Examination. Prerequisites: Rak-82.3131 Language: Finnish; individual study in English possible. Rak-82.3141 Seminar on Building Materials Technology (3 cr) Rak-82.3152 Building Materials Technology, special assignment (6-10 cr) I,II,III,IV Lecturer: Prof Vesa Penttala Objective: To acquaint the student with independent research work and information retrieval. Requirements: Literature review or small-scale experiments in the laboratory. The experimental results are presented as a research report. Prerequisites: Rak-82.3131 Language: Finnish, English Rak-82.4161 Postgraduate Seminar Building Materials Technology P (4-6 cr) 20 + 0 (1 + 0) Spring Lecturer: Prof Vesa Penttala Objective: To further improve the knowledge of building materials technology. Requirements: Presentations of topics related to building materials technology. Language: Finnish; individual study in English possible. Rak-83.2200 Basics of Structural Design II (4 cr) Spring (First time spring 2008) Lecturer: Prof Pentti Mäkeläinen Contents: Fundamental design principles of steel structures and timber structures. Design of steel beams and columns, steel trusses and steel frames. Design of timber beams and columns, timber trusses and timber frames. Requirements: Exercises, homework, laboratory test demonstrations and examination. Literature: Adapted parts of Eurocode 3 and Eurocode 5 (EN1993, EN1995). Jukka Kinnunen et al.: Teräsrakenteiden suunnittelu, Rakennustieto Oy, 2001. Kähkönen: Kantavat puurakenteet. RIL 120-1983: Puurakenteiden suunnitteluohjeet. RakMK B7 ja RakMK B10. Prerequisites: Rak-0.1200, Rak-43.1215 and Rak-54.1300. Additional information: Language: Finnish; individual study in English possible.
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Rak-83.3100 Design of Steel Structures (4 cr) Rak-83.3200 Composite Structures (4 cr) Rak-83.3300 Exercise Course in Design of Steel and Composite Structures (4 cr) Rak-83.3400 Fabrication Technology of Steel Structures (3 cr)
Rak-83.3500 Special Assignment in Steel Structures (48 cr) Rak-83.4100 Postgraduate Course in Steel Structures (3-6 cr) Rak-83.4150 Postgraduate Special Assignment in Steel Structures (5-10 cr) RYT.kand Bachelor’s Thesis and Seminar (10 cr)
Department of Applied Mechanics ENE.kand Bachelor’s Thesis and Seminar (10 cr) ENE.kyps Maturity Test () KON.kand Bachelor’s Thesis and Seminar (10 cr) KON.kyps Maturity Test () Kon-0.1100 General Information on Mechanical Engineering (1 cr) Spring Lecturer: Leila Kuusela, planning officer (responsible) Contents: The objective of the course is to present the degree programmes of Mechanical Engineering and Energy and HVAC Technology and their main options, as well as the major and minor subjects and the resarch units; the requirements of the degree programme, the degree regulation, legal protection issues, administration of the faculties and of the university. Information about practical training will be presented and some guidance in the studies and in the planning of studies will be given. Requirements: Active participation and examination. Literature: Lecture hand-outs and the study guide. Substitutive: The course replaces the old version Kon.0.100 General Information on Mechanical Engineering (0,5 cr). Additional information: For completing this course in English, please contact the international study advisor of Mechanical Engineering. English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.3000 Introduction to Vehicle Engineering (3 cr) Kul-24.3100 Ship Conceptual Design (5 cr) I-II Lecturer: Prof Petri Varsta Contents: Concepts in naval architecture. Hull form and associated hydrostatic calculations. Main dimensions and sectors of initial design. Ship safety and definitions rules of authorities. Administration of a newbuilding. Ship types and their special features. Requirements: Intermediate examinations or examination and compulsory design exercise and
exercises. Literature: Lecture notes. Prerequisites: P and O modules. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.3200 Introduction of Marine Hydrodynamics (5 cr) III-IV Lecturer: Prof Jerzy Matusiak Contents: Ship’s resistance. Propellers and propulsion of a ship. Interaction between hull, propeller and main engine. Introduction to ship’s dynamics. Requirements: Examination. Compulsory exercises. Literature: Lecture notes, Matusiak: Laivan propulsio (Propulsion of a Ship, in Finnish), Matusiak: Laivan kulkuvastus M-289. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.3300 Ship Buoyancy and Stability (5 cr) I-II Lecturer: Prof Jerzy Matusiak Contents: Hydrostatics. Stability of an intact and a damaged ship. Special features of the stability of fast ships. Rolling motion of a ship. Subdivision of a ship. Requirements: Examination. Compulsory laboratory exercise. Compulsory exercises. Literature: Matusiak: Laivan kelluvuus ja vakavuus. (Buoyancy and Stability of a Ship, in Finnish). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.3400 Ship Machinery Systems (5 cr) I-II Lecturer: Prof Pentti Häkkinen Contents: What a naval architect should know about ship machinery. Propulsion machinery selection. Machinery and ship auxiliary systems. Control of emissions, noise and vibrations. Design exercise on machinery selection
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and dimensioning. Excursion to ship engine room. Requirements: Examination. Exercise affects one rhird of the grade. Literature: Lecture notes, available in English. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.3500 Winter Navigation (5 cr) (Seminar work, III-IV) Lecturer: Prof Pentti Kujala Contents: Ice resistance of ships. Model and full scale tests. Machinery, manoeuvrability, propulsion, propellers. Icebreaking vessels. Ice loads. Ice class rules. Icebreaker assistance modes. Economic calculations of winter navigation. An excursion to an operating icebreaker will be made. Requirements: Examination and compulsory excercises and design exercise Literature: Lecture notes. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.3600 Introduction to Risk Management P (3 cr) I-II Lecturer: Prof Pentti Kujala Contents: Uncertainty factors in structural design.Calculation of probabilities and statistical processes. Calculation methods for reliability analysis. Application of reliability analysis for transport vehicles. Partial safety factors. Reliability analysis and development of rules. Risk analysis. Requirements: Examination and compulsory exercises and design exercise. Literature: Lecture notes. Prerequisites: Mat-1.2600 (compulsory, passed). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish.
associated calculations, design of general arrangement, hull structures, limited weight- and cost calculations. At the las phase of the assignment the lines plan and associated calculations can be carried out using a computer prgram (NAPA or comporable) that is considered as a partial completion of the course CAD in Shipbuilding Technology (Kul-24.4340). The result of the assignment is presented in a seminar. Requirements: Spring. Prerequisites: Kul-24.3100 obligatory. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4120 Ship Structural Design P (5 cr) III-IV Lecturer: Prof Petri Varsta Contents: The foundations of structural technology in ship’s hull. Statistical analysis of loads. Calculation methods for the response of hull girder. Application of finite element method. The failure modes of hull girder and its modelling. The dimensioning of the main structural members and choice of materials. Visit to a structural design office. Requirements: Intermediate examinations or examination 2/3 of the final grade, and compulsory design exercise, 1/3 of the final grade. Literature: Lecture notes and Hughes: Ship Structural Design. Prerequisites: Kul-24.3100, Kul-49.2150, obligatory, recommended Kul-49.3300. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish.
Kul-24.3710 Potential Flow Theory for Lifting Surfaces (3 cr) I-II Lecturer: Antonio Sanchez-Caja Ph.D. Requirements: Examination and compulsory exercises. Literature: Lecture notes. Prerequisites: Kul-34.3100 (compulsory, passed). Additional information: Kurssi luennoidaan ja suoritetaan englanninkielisenä. Language: English.
Kul-24.4130 Shipyard Engineering (5 cr) I-II Lecturer: Heikki Remes, D.Sc. (Tech.) Contents: The lectures cover the organisation, of, and the methods for all phases of the shipbuilding process. Design, Material administration, Hull construction, and Outfitting. Visit to a shipyard. In the assignment production plans for a ship project are prepared. Requirements: Examination and assignment, which affects the final grade by 1/3. Literature: Räisänen (ed.): Laivatekniikka (Ship Technology), chapters 30-41 (in Finnish). Prerequisites: Kul-24.3100 obligatory. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish.
Kul-24.4110 Ship Project A (5 cr) III-IV Lecturer: Prof Petri Varsta and assistents Contents: An extensive design assignment that is carried out group of two persons. The assignment cantains definition of the main dimensions, lines drawing and
Kul-24.4140 Ship Dynamics P (5 cr) I-II Lecturer: Prof Jerzy Matusiak Contents: The course presents an unifiel approach to two seemingly different fields of Ship Theory; that is the maneouvering and the seakeeping. Motion dyamics of a
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ship regarded as a rigid body in a general motion with sixdegree-of-freedom is considered. The effects of nonlinearities of the applied sub-models on the physical phenomena associated with the ship behaviour are discussed. Requirements: Examination. Literature: Lecture notes. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4210 Ice Conditions and Ship Navigation in Ice P (5 cr) III-IV Lecturer: Prof Matti Leppäranta and Risto Jalonen Lic. Sc. (Tech.) Contents: Structure of ice, especially sea ice and ice conditions. Brash ice, ice ridges and multi-year ice. Formation of ice cover and ice conditions. Thermodynamical and other properties of ice features plus deformation and strength of ice. Development of ice cover and ice mechanics. Statistical description of ice conditions. Ice observations, remote sensing techniques and description of ice conditions. Ice resistance and other factors affecting ship´s passage in ice covered waters. The efficiency of ship propulsions and manoeuring in ice. Ship transit simulations in ice and their utilisation in selection of design alternatives regarding fleet. Requirements: Examination and assignments. Literature: Lecture notes. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4220 Merhant Shipping (3 cr) I-II Lecturer: Ilkka Iittiläinen M.Sc. (Tech.), Master of Laws Contents: Concepts of merchant shipping, cargo and traffic types, main principles of transport law, economics of shipping and shipping companies, newbuildings, sale & purchase, chartering, shipping companies and their functions. The course consists of 15 hours of lectures and a written seminar report on a given topic. Reports to be presented in the seminar. During the presentation of the report a student will act as opponent. Requirements: Examination, written seminar report and presentation of same in the seminar, acting as an opponent. Literature: To be announced during the lectures. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4230 Safety and Risks of Marine Traffic P (5 cr) III-IV Lecturer: Prof Pentti Kujala Contents: Maritime risk picture. Statistical risk
management and decisions. Traffic modelling. Damage estimation. Risk analysis techniques. Cost-benefit analysis. Formal safety assessment (FSA). Accident analysis. Safety regulations. Requirements: Examinations and compulsory excercises and design exercise Literature: Lecture notes and Kristiansen, S.: Risk analysis and safety management of maritime transport. Prerequisites: Kul-24.3600. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4240 Laboratory Assignment in Ice Model Techniques (2 cr) III-IV Lecturer: Risto Jalonen Lic. Sc. (Tech.) Contents: A group assignment about ship model tests in ice, two ice sheets per group and 2-3 students per group. Requirements: Laboratory assignment (26 h). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4310 Arctic Offshore Structures P (5 cr) I-II Lecturer: Kaj Riska D.Sc. (Tech.) Contents: Exploitation of oil and gas in arctic areas. The main types of offshore structures and main design factors. Technical features of different platforms. Loads of structures. Special requirements of arctic areas. Requirements: Exercises and examination. Literature: Lecture notes. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4320 Small Craft Design (5 cr) III-IV (Even years) Lecturer: Markku Hentinen, M.Sc. (Tech.) Contents: Boat industry, product development and technical design. Small craft types, their materials, loads and structures. Reinforced plastic structures in boats. International rules and classification. Hull types, their resistance and propulsion aspects. Special features of sailing yachts. Requirements: Examination and design exercise. Literature: Lecture notes. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4330 Small Craft Fluid Mechanics (3 cr) III-IV (Odd years) Lecturer: N.N. Contents: The foundations of the hydrodynamics of motorboats. The basics of the hydro- and aerodynamics
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of sailboats. Requirements: A compulsory personal literature survey that will be presented at a seminar. Examination. Literature: Lecture notes. Prerequisites: Kul-34.3100 Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish.
shaftline torsional vibrations. Requirements: Examination. Exercise affects the grade with weight 1/3. Literature: Lecture notes. Prerequisites: Kul-24.3400. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish.
Kul-24.4340 CAD in Naval Architecture (4 cr) I-IV Lecturer: Jani Romanoff M. Sc. (Tech.) Contents: A naval architectural design work exercise with the NAPA and NAPA Steel software. The work can be assiciated with the courses Kul-24.4110 and Kul-24.4130. Requirements: Examination and exercise. Literature: Lecture notes. Prerequisites: Kul-24.201 (compulsory, passed). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish.
Kul-24.4420 Realiability and Maintenance P (4 cr) I-II Lecturer: Prof Pentti Häkkinen Contents: Damage chains in mahinery systems and their modelization. Methods to improve operational reliability, especially in mechanical power transmission systems. Organisation of service operations. New mantenance and repair methods. Seminar presentation on a specified topic. Industrial plant visit. Requirements: Examination. Literature: Lecture notes. Prerequisites: Kul-24.3600. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish.
Kul-24.4350 Passenger Ship Architecture (5 cr) III-IV Lecturer: Janne Andersson, industrial designer. Contents: The design of a ship in architectural point of view. Functional and aesthetic design. Factors influencing appearance, general arrangement and interior of a ship. The course has an emphasis in passenger ships. Requirements: The examination of the course takes place on completion of a design exercise on ten theme days. A design exercise is given after a familiarizing lecture. Course assignment. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4360 Ship Model Testing, exercises (2 cr) I-II Lecturer: Keijo Hanhirova M.Sc. (Tech.) Contents: Ship model experiments in ship technology. Requirements: Laboratory exercise (26 h). Evaluation: Pass/Fail. Prerequisites: Kul-24.3200 (obligatory, accepted). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-24.4410 Ship Machine Systems II P (5 cr) III-IV Lecturer: Prof Pentti Häkkinen Contents: Propulsion machinery main components and system architecture. Selection criteria. Prime movers and power transmission systems. Shaft line dynamics. Manufacture, installation and operation of the main components. The exercise consists of propulsion
Kul-24.4510 Optimization of Structures P (5 cr) III-IV Lecturer: Jani Romanoff D.Sc. (Tech.) Contents: Formation of the optimization problems in structural design. Unconstrained and constrained optimization. Sensitivity analysis. Continuous, integer and discrete problems in engineering. Conflicting objectives and Pareto optimality. Linear programming and Simplex method. Genetic Algorithms for global optimization. Various applications in design of structures. Requirements: Examination and assignment affecting the final grade by 2/3 and 1/3 respectively. Literature: Lecture notes and Belegundu & Chandrupatla, Optimization Concepts and Applications in Engineering, Prentice-Hall, 1999. Prerequisites: Kul-24.2150 obligatory. Additional information: All course elements in English. Language: English. Kul-24.4520 Computational Marine Hydrodynamics P (5 cr) I-II Lecturer: Tommi Mikkola, M.Sc. (Tech.) Contents: Potential flow models. Approximations of viscous flows. Turbulence modelling. Numerical methods in hydrodynamics. Ship’s wavemaking and resistance. Requirements: Examination. Compulsory exercises. Literature: Lecture notes. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish.
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Kul-24.5000 Postgraduate Seminar on Marine Technology P (5-8 cr) I-II Lecturer: Prof Jerzy Matusiak Contents: This licenciate seminar is aimed at postgraduate students and researchers. The course concentrates on research problems, research methods and current matters in offshore technology and naval architecture. Requirements: Sufficient participation, a seminar lecture and examination. Substitutive: kul-24.291. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-34.3100 Introduction to Fluid Mechanics (5 cr) III-IV Lecturer: prof. Timo Siikonen Contents: Applications of Bernoulli equation, the linear momentum equation, flow over bodies, the moment-ofmomentum equation, Navier-Stokes equations, potential flow, dimensional analysis, pipe flow. Requirements: Two mid-term examinations. Literature: Young, Munson and Okiishi: A brief introduction to fluid mechanics. Prerequisites: Mat-1.1310 , Mat-1.1320 and Kul-49.1100. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish Kul-34.3150 Flight Mechanics I (5 cr) I-II Lecturer: Temporary professor Erkki Soinne Contents: Airplane equations of motion, atmosphere, drag polar, performance measures and their optima, basis of control, static longitudial stability, concept of dynamic stability. Requirements: Exercises, project work and 2 examinations. Literature: Lecture notes in Finnish or corresponding literature in English. Prerequisites: Kul-24.3000, Kul-34.3100, Kul-49.3100. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.3200 Airplane Aerodynamics (3 cr) III-IV Lecturer: Temporary professor Erkki Soinne Contents: Lift and drag, wing-related flow phenomena, methods for aerodynamics studies, effects of compressibility, airflow and wing characteristics, examples of complete airplane characteristics. Requirements: Exercises, examination and project work. Literature: Lecture notes in Finnish or corresponding literature in English. Prerequisites: Kul-24.3000, Kul-34.3100, Kul-34.3150.
Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.3300 Aircraft Structures (4 cr) I-II Lecturer: Prof Olli Saarela Contents: Aircraft structures and loads, structural requirements, materials, manufacturing techniques, structural solutions, quality control, inspection and repair, trends. Requirements: Exercises and examination. Literature: Lecture notes in Finnish or summary notes and supplementary literature in English Prerequisites: Kul-24.3000. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.3400 Aircraft Systems (4 cr) III-IV Lecturer: M. Sc. Jarkko Aakkula Contents: General description, flight control, landing gear, powerplants, fuel system, hydraulics, electrical system, communications and navigation, environmental systems, emergency systems, cabin systems, special systems of helicopters. Requirements: Seminar presentation and examination. Literature: Moir, I., Seabridge, A.: Aircraft Systems, Professional Engineering Publishing 2001, summary lecture notes in Finnish. Prerequisites: Kul-24.3000. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.3500 Aircraft Project (4 cr) III-IV Lecturer: Prof Olli Saarela Contents: Project description, design goals, airworthiness requirements, initial specification, conceptual design, detailed design, type certification, production, maintenance, updates. Requirements: Obligatory exercises and examination. Literature: Lecture notes in Finnish or summary notes and supplementary literature in English. Prerequisites: Kul-24.3000, Kul-34.3150, Kul-34.3300. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.3600 Composite Structures (5 cr) I-II Lecturer: Prof Olli Saarela Contents: Structures and applications, raw materials and prefabricates, manufacturing techniques, mechanics of composites, production of structures.
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Requirements: Partly obligatory exercises and examination Literature: Saarela ei al.: Komposiittirakenteet, Muoviyhdistys 2003, summary lecture notes and supplementary literature in English. Prerequisites: Kul-49.2100. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.3700 Gas Dynamics (2 cr) I Lecturer: N.N. Contents: Basics of gas dynamics, conservation equations, duct flow phenomena, shock waves, supersonic 2-dimensional flow, small-disturbance theory. Requirements: Exercises and examination. Literature: Lecture notes. Prerequisites: Kul-34.3100. Additional information: The course can be completed also in English with individual arrangements. Language: Finnish Kul-34.4100 Flight Mechanics II P (5 cr) I-IV (every other year, not lectured in 2008-2009) Lecturer: Erkki Soinne,temporary professor Contents: General equations of motion, stability derivatives, static lateral-directional stability, control forces, dynamic stability, airworthiness requirements, flight control systems, simulation methods, modeling of aircraft and atmosphere, simulation systems. Requirements: Exercises, project work and examination. Literature: Roskam, J.: Airplane Flight Dynamics and Automatic Flight Controls, Part I, and lecture notes in English. Prerequisites: AS-84.1128, Kul-34.3150, Kul-34.3200, Kul-34.3500. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.4200 Aerodynamic Design of Aeroplanes P (5 cr) III-IV (every other year, will be lectured in 2008-2009) Lecturer: Erkki Soinne,temporary professor Contents: General aims, drag phenomena, interferences, principles of aerodynamic optimization, design limitations, design process, wing and tail design, propellers and jet engine installation. Requirements: Exercises, three project works and examination Literature: Lecture notes in Finnish and English, sections of Torenbeek, E., Synthesis of Subsonic Airplane Design. Prerequisites: Kul-34.3150, Kul-34.3200, Kul-34.3500. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
Kul-34.4300 Structural Design of Aircraft P (4 cr) II (every other year, will be lectured in 2008-2009) Lecturer: Prof Olli Saarela Contents: Design organisation and design process, load analyses, structural analyses, concept design, detailed design, fatigue analyses, verification and validation of design. Requirements: Exercises and examination. Literature: Lecture notes in Finnish or summary notes and supplementary literature in English. Prerequisites: Kul-34.3150, Kul-34.3300, Kul-34.3500. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.4400 Aeroelasticity (3 cr) I-II (every other year, will be lectured in 2008-2009) Lecturer: Erkki Soinne, temporary professor Contents: Background, static phenomena, flutter phenomena, unsteady aerodynamics, determination of critical velocity, experimental methods, airworthiness requirements, design aspects, aeroservoelasticity, dynamic response. Requirements: Exercises, project work and examination. Literature: Lecture notes in English. Prerequisites: Kul-34.3200, Kul-34.3300, Kul-34.3500. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.4451 Individual Assignment in Fluid Mechanics, short (5 cr) 0+0 I-IV Lecturer: Prof Timo Siikonen Contents: A calculation-, design-, or laboratory exercise related to the development and study of a thermal or flow machine or process. Requirements: Approved assignment. The assignment can also be done as teamwork. Prerequisites: Ene-39.4031 Additional information: The course can be completed also in English with individual arrangements. Language: Finnish. Kul-34.4452 Individual Assignment in Fluid Mechanics, large P (10 cr) I-IV Lecturer: Prof Timo Siikonen Contents: A large calculation-, design-, or laboratory exercise related to the development and study of a thermal or flow machine or process. Requirements: Approved assignment. The assignment can also be done as teamwork. Prerequisites: Ene-39.4031 Additional information: The course can be completed also in English with individual arrangements. Language: Finnish.
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Kul-34.4500 Spacecraft Structures (3 cr) III-IV (every other year, will be lectured in 2008-2009) Lecturer: M. Sc. Timo Brander Contents: Rocket and satellite structures, design organisation and design norms, design loads, environmental and other requirements, material selection, design and sizing of structures, verification and validation, applications. Requirements: Övningsarbete och tentamen. Literature: Lecture notes in Finnish or summary notes and supplementary literature in English. Prerequisites: Kul-24.3000, Kul-34.3300. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.4551 Postgraduate Seminar in Fluid Mechanics P (2-5 cr) 20+10 III-IV Lecturer: Prof Timo Siikonen and visiting lecturers. Contents: Course is arranged on alternating and current subjects depending on resources and interest. Requirements: Making a presentation on own research field and listening to presentations of others. Language: English Kul-34.4552 Postgraduate Seminar on Computational Fluid Mechanics P (2-5 cr) 20+10 III-IV Lecturer: Prof Timo Siikonen Contents: This seminar is aimed at training researches in making presentations. The seminar also acts as a discussion forum on current matters. Requirements: Making a presentation on a selected research subject and listening presentations of others. Language: English. Kul-34.4600 Physics of Turbulence P (4 cr) III-IV Lecturer: D. Sc. Antti Hellsten Contents: Fundamentals of turbulent flow, turbulence modelling. Requirements: To be announced. Prerequisites: Kul-34.3100, Ene-39.4031. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.4700 Lightweight Structures P (5 cr) III-IV (every other year, not lectured in 2008-2009) Lecturer: Prof Olli Saarela Contents: Mechanical models and design allowables of materials and material systems, mechanics of sandwich and shell structures, stability of structures, analysis and design of structural discontinuities, joining in lightweight structures, numerical analyses of lightweight structures. Requirements: Project work, partly obligatory exercises and examination. Literature: Lecture notes in Finnish or summary notes
and supplementary literature in English. Prerequisites: Kul-34.3600, Kul-49.3300. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.4800 Experimental Fluid Dynamics (3 cr) III (every other year, not lectured in 2008-2009) Lecturer: M. Sc. Mikko Korhonen Contents: Fundamentals of experimental fluid dynamics and wind tunnel testing. Requirements: Three project tasks and examination. Literature: Barlow, Rae, Pope: Low Speed Wind Tunnel Testing. Prerequisites: Kul-34.3100, Kul-34.3700,Kul-34.4600, Ene-39.4031. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-49.1100 Dynamics I (4 cr) III-IV Lecturer: prof. Gary Marquis Contents: Basic course in particle and rigid body dynamics. After the course, a student (1) knows the usual concepts, material models, basic laws, constitutive equations and coordinate systems of mechanics, (2) knows how to determine position, velocity and acceleration in different coordinate systems and apply kinematical constraints, (3) is able to write the equations of motion of a particle, s system of particles, and a rigid body in plane motion, and solve for the unknown quantities in simple cases. Requirements: Exercises, mid-term examinations or final examination. Literature: To be announced later. Prerequisites: Rak-54.1100 or equivalent knowledge Substitutive: Course is a substitution for Kul-49.010 Dynamics I (2,5 cr) Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-49.2150 Mechanics of Materials I (5 cr) III-IV Lecturer: Kari Santaoja, senior lecturer Contents: Definition of the fundamental concepts, beam bending, stress and strain states and the relationship between them, yield and fracture criteria, measurements by strain gauges, torsion of a circular shaft. Requirements: Exercises, mid-term examination or final examination. Literature: Kari Santaoja, lecture notes. Substitutive: Replaces courses Kul-49.2100 and Kul49.2200. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher.
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Language: Finnish Kul-49.3100 Dynamics II (4 cr) I Lecturer: N.N Contents: The course is intended to supplement Kul49.1100 Dynamics I (4 cr) on the following themes: three-dimensional motion of a rigid body, Lagrange’s equations of motion. After the course, a student (1) knows the coordinate systems, concepts and basic laws important in treatment of the three dimensional motion of a rigid body, (2) is able to write the equations of motion in terms of the Euler angles, (3) knows how to apply the Lagranges formalism in writing the equations of motion. Requirements: Exercises, examination. Literature: To be announced later. Prerequisites: Kul-49.1100 Dynamics I (4 cr) Substitutive: Replaces Kul-49.014 Dynamics II (2,5 cr) Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish. Kul-49.3200 Mechanics of Materials II (5 cr) I-II Lecturer: Prof. Jukka Tuhkuri Contents: Fatigue, stability of rods and beam-columns, torsion of members of arbitrary cross section, general bending of beams, energy methods. Requirements: Exercises and mid-term examination or final examination. Literature: Parnes: Solid Mechanics in Engineering, Wiley Prerequisites: Kul-49.2150 (5 cr) Substitutive: Replaces Course Kul-49.121 Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-49.3300 Finite Element Method I (5 cr) III-IV Lecturer: Jouni Freund, senior lecturer Contents: To learn basics of element method and its applications to linear elastic problems, specially under rod, beam, sheet and plate applications when foundation is the principle of virtual work. Literature: N.Ottosen & H.Petersson, Introduction to the finite element method, 410pp. Prerequisites: Kul-49.3200 or corresponding courses. Substitutive: Replaces Kul-49.131. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-49.3400 Dynamics of Structures; lectures and exercises P (5 cr) Kul-49.3450 Dynamics of Structures; applications P (3
cr) III-IV Lecturer: N.N Contents: Project work related to the course Kul-49.170. Can also be a vibration analysis part of other appropriate project work. Substitutive: Replaces Kul-49.171. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-49.4100 Finite Element Method II P (5 cr) Kul-49.4150 Finite Element Method, applications (3 cr) Kul-49.4200 Plate and Shell Theory P (5 cr) Kul-49.4300 Fracture Mechanics and Fatigue P (5 cr) Kul-49.4400 Ice Mechanics P (5 cr) III-IV (Alternate years, will not be lectured 2008-2009) Lecturer: N.N Contents: To learn the physical background for ice mechanical behaviour in order to predict ice loads on structures and ice bearing capacity. Physical structure of ice, ice formation, ice and snow mechanical properties, ice bearing capacity, ice loads on offshore structures, river ice jamning, and basic properties of snow. Requirements: Attending lectures and exercises, and final examination. Literature: J. Kämäräinen: Studies in Ice Mechanics, HUT Laboratory for Mechanics of Materials Report 15, and material distributed during the lectures. Prerequisites: Kul-49.3100, Kul-49.3200 or a corresponding course. Substitutive: Replaces Kul-49.210. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-49.4500 Thermomechanics and Material Modelling P (5 cr) I-II (alternate years, will be lectured 2008-2009) Lecturer: Kari Santaoja, senior lecturer Contents: Thermomechanics of internal variables is studied in order that the student will be capable of testing material models. The local field equations are derived from the global basic laws of nature. These field equations are the foundation for mechanics of materials and for thermomechanics. The Levenberg-Marquardt method for determination of the values for the material parameters is derived. The capability of this method is evaluated by examples. At the end of the course the implementation of material models into commercial finite element computer codes is studied by examples. After passing this course the student is familiar with the foundations of mechanics of materials, he/she can implement a material model in the ABAQUS finite
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element program and he/she can determine the values of the parameters for a material model. Requirements: Examination and a voluntary assignment. Literature: Examination and a voluntary assignment. Prerequisites: Good knowledge of material mechanics, mechanics, structural mechanics or thermodynamics. The course material covers all the information needed to pass the course. Therefore, a small amount of previous knowledge of the topics mentioned above is adequate for passing this course with excellent marks. Additional information: Lectured in English if needed. Language: Finnish Kul-49.4800 Individual Assignments in Mechanics of Materials P (3-6 cr) I-II, III-IV Lecturer: Prof Gary Marquis, Prof Jukka Tuhkuri, Kari Santaoja, senior lecturer ja Jouni Freund, senior lecturer Contents: Application project on either theoretical or experimental research in the field of Mechanics of Materials. Can also be an application or a part of other project work in Mechanical Engineering Department courses, or an industry project. Prerequisites: Courses of Mechanics of Materials relevant to the project. Substitutive: Replaces Kul-49.180. Additional information: A student may make only two special assigments. Lectured in English if needed. Language: Finnish Kul-49.5100 Postgraduate Course in Mechanics of Materials P (4-8 cr) Kon-0.171 History of Technology and Industry, general (2 ocr) III-IV, Not available in acadenic year 2008-2009. Lecturer: Timo Myllyntaus PhD (responsible), information Prof Kalevi Aaltonen Contents: Main characteristics of the history of technology and industry, with special emphasis on Finland. Contents vary yearly. The course increases in the history of technology and industry, informs about the courses that deepen its contents and direct the interest to special areas of interest, and guides to selfaccess studies. Requirements: Attendance at lectures and an essay. Evaluation: pass/fail. Literature: Will be notified during the lectures. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kon-0.210 Mechanical Engineering Design in Wind Energy Converters (2 ocr) Autumn (Alternate years, will not be lectured in 20082009) Lecturer: N.N. Contents: The course gives mechanical engineering background for wind energy converter design. Static and dynamic wind loads on rotor blades, nacelle and tower, wave and ice loads on offshore foundations.
Dimensioning of load bearing structures for strength, fatigue, and vibrations, manufacturing and installation of components. Rotor blade and nacelle turning mechanisms, reduction gear, instrumentation, control and maintenance. Requirements: Lectures, exercises and examination. Literature: Wind Energy Handbook and additional material. Prerequisites: Ene-47.160. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.124 Aeroplane Aerodynamics Applications (1 ocr) Lecturer: Erkki Soinne, temporary professor Contents: Experimental/computational aerodynamic exercise related to course Kul-34.131. Prerequisites: Kul-34.131 (attending lectures). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.125 Aeroplane Aerodynamics, extensive applications (P) (3 ocr) Lecturer: Erkki Soinne, temporary professor Contents: Extensive experimental/computational aerodynamic exercise related to course Kul-34.131. Prerequisites: Kul-34.131 (attending lectures). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.146 Flight Mechanics, extensive applications (P) (3 ocr) Lecturer: Erkki Soinne, temporary professor Contents: Extensive application related to old courses Kul-34.147 or Kul-34.148. Prerequisites: Kul-34.147 and Kul-34.148 (both attending lectures). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.152 Analysis and Design of Light Structures, application (P) (3 ocr) Lecturer: Prof Olli Saarela Contents: Design and/or analysis exercise focused on lightweight structures. Requirements: Report and seminar. Prerequisites: Kul-34.150 (attending lectures). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.165 Aerodynamic Design of Aeroplanes (P) (4
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ocr) III-IV (lectured together with Kul-34.4200) Lecturer: Erkki Soinne, temporary professor Contents: The aim is to teach methods for determining the external shape of an aircraft. The selection of wing area, planform and location is discussed, and the sizing of tail surfaces and jet engine inlets are considered. The multidisciplinary design constraints are reviewed, and a number of sample cases are briefly studied. Requirements: Exercises, three project works and examination. Literature: Lecture notes and sections of Torenbeek: Synthesis of Subsonic Airplane Design. Prerequisites: Kul-34.131, Kul-34.147, Kul-34.148 (all obligatory). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.176 Structural Design of Aeroplanes, application (P) (3 ocr) Lecturer: Prof Olli Saarela Contents: Design and/or analysis exercise focused on aircraft structures. Requirements: Report and seminar. Prerequisites: Kul-34.175 at the same time. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.185 Aeroelasticity (1 ocr) I-II (lectured together with Kul-34.4400) Lecturer: Erkki Soinne, temporary professor Contents: Aeroelastic phenomena and their analysis are introduced, including static aeroelasticity, fundamentals of unsteady aerodynamics, flutter and the determination
of critical speed, implications of flutter for preliminary design, and dynamic response. Requirements: Examination. Literature: Lecture notes (in Finnish). Prerequisites: Kul-34.131, Kul-34.175, Kul-49.170 (all obligatory). Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.202 Postgraduate Seminar on Composite Structures L (2-6 ocr) III-IV Lecturer: Prof Olli Saarela Contents: Specific topics on analysis/design of lightweight polymer composite structures (to be agreed in the beginning of the course). Requirements: Report and seminars. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish Kul-34.211 Postgraduate Seminar on Aeronautical Engineering (2-6 ocr) III-IV Lecturer: Prof Olli Saarela Contents: Important research topics in the field of aerospace technology are reviewed. The topics are agreed in the beginning of the course. Seminar sessions with oral presentations, discussion and criticism are arranged. Requirements: Written report and participation in seminar sessions, possibly an examination. Additional information: English speaking students accepted on course with individual special arrangements, please contact teacher. Language: Finnish
Department of Civil and Environmental Engineering Rak-32.2010 Rock Mechanics (3 cr) 20+8 (2+1) I-II Contents: Rock as a material, the stress-strain relation, friction, yield, elasticity and strength of rock, laboratory and field testing, failure mechanisms, effect of size and stress gradient. Requirements: Solving a set of numerical exercises, two mid-term exams or final exam Literature: Compendium; Brady, Brawn: Rock Mechanics for Underground Mining; The complete ISRM suggested methods for rock characterization, testing and monitoring: 1974-2006 Prerequisites: Rak-32.1119 Substitutive: Rak-32.137, Rak-32.138 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.2010/ Additional information: Individual study in English possible Language: Finnish
Rak-32.2020 Blasting Engineering (2 cr) Rak-32.2030 Rock Engineering (5 cr) Rak-32.2040 Mining Engineering (5 cr) 40 + 20 (6 + 3) III - IV Contents: Design and economic principles of design and operation of surface and underground mines. Opening decision, mine start-up, mining methods, hoisting, ventilation, drainage, mine closure. Mine legislation, work safety, environmental matters. Mining project evaluation and economic control of operating mines. Literature: IME/SME: Mining Engineering Handbook 1-2, 1992; Hustrulid, W.,Kuchta, M.: Fundamentals of Open Pit Mining and Design, A. A. Balkema, 1995; lecture notes. Prerequisites: Rak-32.2010, Rak-32.2020
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Substitutive: Rak-32.224 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.2040/ Language: Finnish, individual study in English possible Rak-32.3010 Rock Construction (5 cr) 36+0 (3+0) I - II (partly period) Contents: General planning and special requirements for the most general rock facilities. Special solutions for excavation and reinforcement in rock construction. The knowhow needed for a rock facility planner in general or for structural planning. Requirements: Guided industry visits and exam Literature: MTR: Rock Engineering Alternative; Carmody, Sterling: Underground space design: A guide to subsurface utilisation and design for people in underground spaces; RIL: 169-1987 Kalliotilojen rakentamisohjeet; Valtion painatuskeskus: S3- ja S6luokan väestönsuojien teknilliset määräykset. Prerequisites: Rak-32.2010, Rak-32.2020, Rak-32.2030 (all obligatory). Substitutive: Rak-32.122 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.3010/ Language: Finnish, individual study in English possible Rak-32.3020 Design of Underground Excavations (10 cr) 0 + 54 (0 + 2) I - IV Contents: Comprehensive feasibility study for a rock facility: preinvestigations, general planning, dimensioning, selection of method, cost calculations. Acquaintance the work of a general rock and structural planning engineer. Requirements: Feasibility study of a given subject, seminar presentation and exam. Literature: Compendium; Hudson (ed.): Comprehensive Rock Engineering, Pergamon Press, Oxford 1993 (where applicable). Prerequisites: Rak-32.2010, Rak-32.2020, Rak-32.2030, Rak-32.3010 (all obligatory) Substitutive: Rak-32.127 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.3020/ Additional information: Simultaneous study of Rak32.3010 recommended Language: Finnish, individual study in English possible Rak-32.3510 Applied Rock Mechanics for Hard Rock Mining (3 cr) 16+16 I (period) Contents: Stope and pillar design in underground hard rock mining, rock stress and rock stress measurements, rock reinforcement, mechanized rock bolting, cablebolting, shotcreting. Requirements: Compulsory exercises and examination. Literature: Lecture notes. Hoek, E., Kaiser, P., Bawden, W.: Support of Underground Excavations in Hard Rock., A.A. Balkema, 1995. Prerequisites: Rak-32.2010 (compulsory) Substitutive: Rak-32.317 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.3510/ Language: English
Rak-32.3520 Numerical Mine Modelling (3 cr) 16+16 I (period) Lecturer: Damian Baranowski M.Sc. (Tech.) Contents: Management of investigation data, data analyses, visualization, geological and geotechnical modelling, rock mechanical analyses, open pit and underground mine design. Requirements: Compulsory exercises and examination. Literature: Lecture notes. Substitutive: Rak-32.321 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.3520/ Language: English Rak-32.3530 Mining Technology and Economics (3 cr) 16+16 I (period) Contents: Mine as an economical project, different feasibility studies, mining production planning parameters, strategic planning. financing and management, case studies. Mine visit. Requirements: Compulsory exercises and final examination. Literature: Lecture notes. Prerequisites: Rak-32.2040 (compulsory) Substitutive: Rak-32.341 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.3530/ Language: English Rak-32.3540 Automation and Maintenance of Mining Equipment (3 cr) 16+16 I (period) Lecturer: prof. U. Kumar Contents: Production automation and maintenance as an elementary part of highly mechanized mines total economy. Operational reliability of production machinery. Effects of automation on process planning and maintenance. Requirements: Compulsory exercises and examination. Literature: Lecture notes. Prerequisites: Rak-32.2040 (compulsory) Substitutive: Rak-32.253 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.3540/ Language: English Rak-32.3550 Mine excursion (3 cr) 10 + 30 I (period) Contents: Several operating hard rock mines are visited. Their operation processes are studied and compared. Students prepare and present reports on selected subjects after the tour. Requirements: Presented report. Literature: Material obtained from the mines. Prerequisites: Rak-32.3510, Rak-32.3520, Rak-32.3530 and Rak-32.3540 (all compulsory) Substitutive: Rak-32.113 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.3550/ Language: English Rak-32.3560 Mineral processing (6 cr) 60 + 60 (period) (Every second year, next time spring 2009) Lecturer: Pekka Mörsky M.Sc. (Tech)
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Contents: Mineral processing in mining. Process mineralogy, concentrating process, comminution, separation, dewatering, concentrate and waste handling, environment. Technical and economical factors. Process and plant design. Requirements: Mandatory laboratory exercises and exam. Literature: Lecture notes Prerequisites: Rak-32.224 or Rak-32.2040 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.3560/ Language: English Rak-32.3570 Ore Geology (3 cr) Rak-32.3580 Mining Geology (3 cr) Rak-32.4100 Rock Engineering P (1-10 cr) III - IV (period) Lecturer: prof. N.N. Contents: Postgraduate course on rock engineering, mining engineering and rock mechanics. The contents of the course change annually. Prerequisites: Rak-32.2010, Rak-32.2040, Rak-32.3010 Substitutive: Rak-32.187, Rak-32.188 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.4100/ Language: Finnish, individual study in English possible Rak-50.1119 Basics of geomechanics (4 cr) III-IV (Spring) Lecturer: Rock mechanics: ma.prof. Juha Antikainen Contents: Soil and rock classifications. Physical and geotechnical properties of soils and their determination in the laboratory. Mechanical properties of rock and their determination. Site investigations. Requirements: Examination, compulsory maths, site and laboratory exercises. Target group: 2. year Literature: Will be given in lectures. Substitutive: Substitutes Rak-50.119 Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.1119 Additional information: Language: Finnish, individual study in English possible. Language: Finnish Rak-50.2121 Basic course in geotechnics (5 cr) I-II (Autumn) Contents: Settlement, bearing capacity and stability of soil layers. Earth pressure. Groundwater. Geotechnical design. Foundation methods. Excavations. Frost protection. Drainage. Soil Improvement. Requirements: Examination, compulsory maths, laboratory and field exercises. Target group: 3. year Literature: Scott: An Introduction to Soil Mechanics and Foundation Engineering (Excluding chapters 7 and 8). Additional literature will be given in lectures. Prerequisites: Rak-50.1119 Substitutive: Substitutes Rak-50.121 Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.2121 Language: Finnish, individual study in English possible. Rak-50.2123 Geotechnics of structures (5 cr)
Spring (III-IV) Contents: Site investigations. Foundations on ground. Pile foundations. Soil improvement. Retaining structures. Earth works in house construction. Foundation of pipes. Dewatering of construction site. Frost protection. Requirements: Examination, compulsory maths and design exercises. Literature: Will be given in lectures. Prerequisites: Rak-50.2121 Substitutive: Substitutes Rak-50.123 Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.2123 Additional information: Language: Finnish, individual study in English possible. Language: Finnish Rak-50.2132 Community Geotechnics (5 cr) Spring (III-IV) Contents: Site investigations for construction of road and water works and municipal engineering. The failures of cut slopes and embankments and the reasons of failures. Ground improvement methods of cut slopes and embankments: Process descriptions, design basics and risk estimation. Transition constructions. Earth dams. Requirements: Examination, compulsory maths exercises. Target group: 3. year Literature: Will be given in lectures. Prerequisites: Rak-50.2121. Substitutive: Substitutes Rak-50.132 Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.2132 Language: Finnish, individual study in English possible. Rak-50.3125 Advanced Course in Geotechnics (5 cr) Autumn (I-II) Contents: The theories of soil mechanics. Mechanical properties of soils. The elastic and plastic theories and applications. Rheology applications in soil mechanics. Seepage flow. Requirements: Examination. Compulsory maths and laboratory exercises. Design exercise. Target group: 4. year Literature: Will be given in lectures. Prerequisites: Rak-50.2121 Substitutive: Substitutes Rak-50.125 Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.3125 Language: Finnish; individual study in English possible. Rak-50.3135 Geotechnical Design (5 cr) Spring (III-IV) Contents: Geotechnical design. Pile foundations. Foundation damage inspection, control and repair. Monitoring. Soil improvement. Excavations. Requirements: Lectures. Design exercises. Examination. Target group: 4. year Literature: Will be given in lectures. Prerequisites: Rak-50.2121 Substitutive: Subtitutes Rak-50.135 Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.3135 Language: Finnish. Individual studies in English possible.
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cr) Rak-50.3138 Environmental Geotechnics P (4 cr) I-II, Autumn (Uneven years) Contents: Investigations and purification of contaminated land, seal constructions for soil and groundwater, industrial by-products in earth structures and recycling of materials. Requirements: Lectures, student presentations, examination. Literature: Will be given in lectures. Prerequisites: Rak-50.2121 Substitutive: Substitutes Rak-50.138 Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.3138 Language: Finnish; individual study in English possible.
Rak-50.4150 Postgraduate Seminar in Geotechnics P (5 cr) II-IV Contents: Seminar presentations on soil mechanics or foundation engineering. Requirements: Presentation of a seminar lecture and attending other lectures. Target group: Post-garduate students Literature: Will be given in the starting lecture. Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.4150 Language: Can be presented in English. RYT.kand Bachelor’s Thesis and Seminar (10 cr)
Rak-50.3145 Seminar on Geotechnics P (5 cr) II-IV Contents: Seminar presentation on soil mechanics or foundation engineering. Objective: Seminaarissa perehdytään kirjallisen ja suullisen esitystaidon perusteisiin sekä kirjastojen, kirjallisuuden ja tiedonhaun käyttöön. Requirements: Presentation of a seminar lecture and attending other lectures. Target group: 4. year Literature: Will be given in the starting lecture. Prerequisites: Rak-50.121, Rak-50.125, Rak-50.123 or Rak-50.132 Substitutive: Substitutes Rak-50.145 Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.3145 Language: English Rak-50.3149 Numerical Methods of Geotechnics P (5 cr) Spring (III-IV) Contents: The basics of Finite Element Method and its application in geotechnics: seepage, consolidation, stressstrain analysis. Modelling of construction. Computer programs used for calculations of geotechnical problems. Requirements: Lectures. Compulsory maths exercises. Use of FEM-programs. Exam. Target group: 4. or 5. year. Can be included to postgraduate studies. Literature: Will be given in lectures. Substitutive: Substitutes Rak-50.149 Web page: https://noppa.tkk.fi/noppa/kurssi/Rak-50.3149 Language: Finnish; individual study in English possible. Rak-50.3151 Special Assignment in Geotechnics P (3-6 cr) I,II,III,IV Lecturer: Prof Pauli Vepsäläinen, Laboratory Manager Matti Lojander, Univ.teacher Henry Gustavsson Contents: Research work on soil mechanics or foundation engineering: either based on laboratory experiments, field measurements or academic work. Requirements: Independent research work. Substitutive: Substitutes Rak-50.151 Language: English Rak-50.4100 Postgraduate Course in Geotechnics P (5
Yhd-0.1100 Basic Course in Municipal and Environmental Engineering (3 cr) 26 + 4 III - IV Lecturer: Pirjo Rantanen Contents: Introduction to municipal and environmental engineering. Role of water supply and sanitation systems in municipalities. Water consumption, treatment and supply, wastewater treatment. Introduction to municipal solid waste management. Water resources in the world, their use and connection to food production. Basics of water construction. A general view of high-way engineering. Structure and geometry of highways and streets.4) Introduction to traffic engineering and planning. Solutions to problems for different traffic forms. Requirements: Lecture period, exercises. Target group: Recommended on the first year of bachelor level studies. Literature: Lecture notes. Additional information: Individual study in English possible. Language: Finnish Yhd-0.1110 Basic Course of Transportation and Highway Engineering (4 cr) III Lecturer: Prof. Timo Ernvall, Prof. Tapio Luttinen, Prof. N.N. Contents: Importance of transportation. Traffic studies. Traffic flow characteristics. Transportation planning. Impacts of transportation. Transportation economics. Road planning. Street planning. Structures and surfaces of roads. Maintenance. Objective: Gives basic knowledge of importance of person and freight transportation, studying and planning of transportation systems, road and street planning, road structures and surfaces, traffic control and operation. Requirements: Compulsory calculation exercises and exam. Evaluation: Total grade forms as a weighted average of accepted grades of required parts. Target group: The course belongs to the basic module of civil and environmental engineering R202-1 Literature: Literature announced during lecture period. Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-0.1110/
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Additional information: Language: Finnish; individual study in English possible. Language: Finnish, individual study in English possible Yhd-10.2101 Surface Materials for Roads and Streets (5 cr) Yhd-10.2201 Geometric Design of Roads and Streets (5 cr) Yhd-10.3100 Pavement Design and Construction of Roads and Streets (5 cr) Yhd-10.3200 Road and Street Maintenance (5 cr) Yhd-10.3501 Advanced Course in Highway Engineering I (5 cr) Yhd-10.3502 Advanced Course in Highway Engineering II (5 cr) Yhd-10.3503 Railway Engineering (5 cr) Yhd-10.3504 Laboratory and Field Investigation Course in Highway Engineering (5 cr) Yhd-10.4100 Postgraduate Course in Highway Engineering (5 cr) Will be lectured by the demand Lecturer: Professor Terhi Pellinen Contents: Advanced studies in highway engineering and in depth analysis of current issues. Objective: Lectures and seminars for postgraduate students. Requirements: Lectures and seminar Target group: Course includes in the post graduate studies for the civil and environmental engineering. Literature: To be announced later Substitutive: Replaces course Yhd.-10.300 Postgraduate seminar on highway engineering Additional information: Language Finnish, individual studying in English possible Language: Finnish Yhd-102.1104 Introduction to Environmental Management (3 cr) Autumn Lecturer: N.N. and guest lecturers Contents: Themes include (1) global environmental changes and (2) interactions between technology, society and the environment. Specific themes in the course include climate change, population growth and the environment, global water issues, international environmental law, environmental management, environmental policy instruments, environmental impact assessment and sustainable development. Objective: The course aims at motivating new students to understand environmental issues relating to technology. Requirements: Exam. Literature: Miller, G.T. jr.: Living in the environment, 8th or later edition, International Thomson Publishing.
Lecture material Prerequisites: General studies in chemistry and physics recommended. Language: Finnish, litterature and lecture notes in English. Yhd-102.3119 Industrial Ecology P (4 cr) 30 + 30, III-IV Course is at TKK Lahti. Lecturer: Olli Salmi, M.Sc. (eng.) Contents: Introduction to ecological concepts, introduction to technological systems, introduction to industrial ecology, examples of industrial ecosystems, possibilities to apply is industrial ecology in planning, institutional and organisational dimensions of industrial ecology. Requirements: Web-based assignments. Literature: Will be announced during the course Prerequisites: Yhd-73.3225 Life Cycle Techniques of Products Production Systems Additional information: Literature and lecture notes in English. Language: Finnish Yhd-102.3125 Environmental Strategies P (6 cr) Not lectured this academic year Lecturer: N.N. Contents: Introduction to environmental strategies, institutional design in environmental management, systems of environmental regulation, impact assessment as a strategic tool, product design and the environment, eco-efficiency tools, critique of eco-efficiency, rethinking the role of sustainability indicators, methodological issues in scenario construction, scenarios as tools for power. Requirements: Assignments, exam. Literature: Hukkinen, J., Institutions in Environmental Management, Routledge, 1999. Lecture material (in English). Prerequisites: Yhd-102.104 Introduction to environmental management. Additional information: Language: Finnish, litterature and lecture notes in English. Yhd-102.3127 Social and Environmental Implications of Technology P (6 cr) Not lectured this academic year Lecturer: Prof. N.N. Contents: Technology as an ecosocial phenomenon, perspectives on technology studies, structure and functioning of organisations, institutions and technological systems, traditional and modern institutions in environmental management, high risk technologies, high reliability management, adaptive environmental management, high reliability ecosystem management, technological and social innovations. Requirements: Assignments, exam. Literature: Bijker, W.E., Hughes, T.P. and Pinch, T., The Social Construction of Technological Systems, MIT Press, 1987. Hukkinen, J., Institutions in Environmental Management, Routledge, 1999. Lecture material (in English). Prerequisites: Yhd-102.104 Introduction to
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environmental management. Language: Finnish, litterature and lecture notes in English. Yhd-102.3128 Advanced Studies in Environmental Strategies and Technology Assessment (5 cr) Yhd-102.3311 Introduction to Futures Studies P (6 cr) Yhd-102.3312 Methods of Futures Studies P (8 cr) Yhd-102.3313 Methods of Futures Studies in Practice P (6 cr) Yhd-102.4133 Postgraduate Studies in Environmental Strategies P (10 cr) Yhd-102.4135 Postgraduate Studies in Technology Assessment P (10 cr) Yhd-102.4138 Postgraduate Seminar in Environmental Strategies P (10 cr) Yhd-102.4140 Individual Postgraduate Studies in Environmental Strategies P (10 cr) Yhd-12.1020 Introduction to Water Resources Engineering (4 cr) Yhd-12.2005 Applied Hydrology (5 cr)
technologies and their use in the context of developing world. Looking at energy, transportation, waste management, water management, ICT and housing in urban settings. Requirements: Lectures, lecture diary, combination of literature, seminars, essays and workshops. Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-12.3086 Language: English Yhd-12.3090 Sustainable Technologies Studio: Facing Local and Global Challenges (10 cr) Spring (III-IV) Lecturer: Dr. Olli Varis, guest lecturers Contents: A learning studio for advanced master’s students. The studio includes interactive workshops, lectures and an extensive project work. The lecturers introduce factual experiences from international projects, research methods and challenges in the field of development. The lectures and workshops introduce students to international project work including project design, management, scheduling, finance and reporting, dynamics of group work, research ethics and methods. In the actual group work the students will participate in real projects within research groups, organizations or companies. Requirements: Group work, workshops, lectures and learning diary Prerequisites: Yhd- 12.3080, Yhd- 12.3085, Vie-98.1222 (recommended to be taken simultaneously) Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-12.3090 Language: English
Yhd-12.2010 Hydraulics (5 cr) Yhd-12.2015 Quality of natural waters (5 cr) Yhd-12.3005 Water Resources Planning (6 cr) Yhd-12.3010 Hydraulic Structures I (4 cr) Yhd-12.3015 Computational Methods in Water Resources Engineering (5 cr) Yhd-12.3081 State of the World and Development (2 cr) Autumn (I) Lecturer: Different lecturers. Contents: This course gives an introduction to the state of the world. The course highlights the environmental, social and economic aspects of sustainable development and explores the dilemma of development. Guest lecturers from different universities and organizations. Requirements: Lectures, workshops and exam. Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-12.3081 Language: English
Yhd-12.3095 Sustainable Communication P (2 cr) II Lecturer: Dr Paula Siitonen Contents: In this course we learn and practice enriching dynamics, i.e. ways and timing of communication and interactions, which are likely to support creativity, innovations, adaptations, sustainability and learning, be it at the level of individuals, groups or organizations. We work with the cases in the contexts of multicultural organizations, participatory environmental processes, conflict management and everyday life. We learn what i.e. complexity, systems thinking and metalearning mean in practice. We practice dialogue, facilitation, communication, improvising and organizing and facilitating workshops. Requirements: Two days intensive course Target group: Master’s and Ph.D. students Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-12.3095/ Language: English Yhd-12.3105 Subsurface Hydrology (5 cr) Yhd-12.3110 Transport of Harmful Substances (5 cr)
Yhd-12.3086 Sustainable Global Technologies, Changing Course (6 cr) Autumn (I-II) Lecturer: Different lecturers. Contents: Content changes annually. Autumn 2008: Sustainable Urbanization. Focus is on sustainable
Yhd-12.3115 Impact Assessment of Water Resources Projects (5 cr) Yhd-12.3120 Global Water Problems (5 cr) I-II, organised biannully (odd years). For the first time in
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autumn 2009. Contents: Sufficiency of world water resources. Relations between water and food production. Water problems in developing countries. Climate change and impacts on water resources. Requirements: Assignments and presentation. Substitutive: Yhd-12.136 Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-12.3120 Language: English Yhd-12.3125 Special Course in Water Resources management (5 cr) Yhd-12.3130 Hydraulic Structures II (5 cr) Yhd-12.3135 Environmentally Sound Hydraulic Engineering (5 cr) Yhd-12.4050 Postgraduate Seminar on Water Resources Engineering (5 cr) I-IV Contents: Postgraduate seminar on advanced and current topics related to water resources engineering. Topics are announced in the beginning of the course. Requirements: Seminar and presentation Substitutive: Yhd-12.181 Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-12.4050 Additional information: Course can be taken several times Language: Finnish/English Yhd-33.1600 Introduction to Engineering Geology (4 cr) Yhd-33.2110 Principles of Applied Geophysics (5 cr) Lectures Period I, Practicals Periods I-II Lecturer: Prof Markku Peltoniemi and Tero Hokkanen, Lic Tech. Contents: Introduction of techniques applied to geophysical surveys within minerals exploration, rock engineering and environmental studies. Basics on the theory, petrophysics, instrumentation, data acquisition, and processing and interpretation for the most commonly used geophysical techniques. Requirements: Lectures, practicals, final examination. Literature: Peltoniemi: Maa- ja kallioperän geofysikaaliset tutkimusmenetelmät, Otakustantamo 515, 1988; Bärs: Sovelletun geofysiikan laskuharjoituksia, TKK-IGE C16 1993; complementary literature. Substitutive: both Mak-33.110 and Mak-33.111 Additional information: Language: Finnish; can also be taken in English. Language: Suomi Yhd-33.2290 Environmental geology (3 cr) Yhd-33.2580 Exercises in applied geology and geophysics (3 cr) Yhd-33.2610 Precambrian and Quaternary Geology (5 cr)
Yhd-33.3070 Theory of Geophysical Fields (4 cr) Yhd-33.3130 Airborne Geophysical Methods (3 cr) Spring Lecturer: Prof Markku Peltoniemi Contents: Planning of airborne geophysical surveys, utilisation of survey results. Aeromagnetic, airborne electromagnetic, and airborne gamma-ray spectrometric methods. Requirements: Exercises, final examination. Literature: Peltoniemi: Aerogeofysikaaliset menetelmät, TKK-IGE-C-20, 1998, 269 p; complementary literature. Prerequisites: Yhd-2110 or Mak-33.110. Substitutive: Mak-33.113 Additional information: Course given every other year, next time spring 2009. Course can also be given in English. Language: Finnish Yhd-33.3140 Geophysical Methods in Environmental Studies (4 cr) Yhd-33.3150 Geophysical Ground Survey Methods (5 cr) Yhd-33.3168 Rock Engineering Geology (4 cr) Yhd-33.3180 Geophysical Methods in Civil Engineering Studies (3 cr) Yhd-33.3265 Geophysical Inversion Methods (4 cr) Autumn Lecturer: PhD Norbert Szabo Contents: Inverse problem types and solutions using linear and global optimization methods. Forward modelling, constructing and analysing inversion procedures, validation of inversion results. Independent and joint inversion of geophysical data sets. Potential field and borehole geophysical applications. Software implementation. Requirements: Assignments, an examination. Literature: Menke: Geophysical Data Analysis, Discrete Inverse Theory. Academic Press 1989; additional material and software from University of British Columbia, Geophysical Inversion Facility; additional articles from recent geophysical journals Prerequisites: Yhd-33.2110/Mak-33.110 and Yhd33.3070/Mak-33.107. Substitutive: Mak-33.126 Additional information: Period; every other year; will be lectured in autumn 2009. Language: English Yhd-33.3330 Seminar on Applied Geophysics (4 cr) Autumn Lecturer: Prof Markku Peltoniemi Contents: Planning and implementation of geophysical survey projects. Combined interpretation methods for geophysical datasets. Requirements: Seminar presentation and report.
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Literature: Articles from recent geophysical literature. Prerequisites: Yhd-33.2110/Mak-33.100, and Yhd33.3180/Mak-33.112 or Yhd-33.3140/Mak-33.114 Substitutive: Mak-33.133 Additional information: Course can be given also in English. Language: Finnish Yhd-33.3550 Structural Geology (3 cr) Yhd-33.3870 Geomathematical methods (4 cr) Yhd-33.3880 Geological 3D-modelling (3 cr) Yhd-33.3890 Practical exercises in geoenvironmental technology (3 cr) Yhd-33.4110 Postgraduate Course in Geoenvironmental Technology P (2-6 cr) I-IV Lecturer: Prof Markku Peltoniemi and invited lecturers Contents: Special knowledge for a selected topical area within applied geophysics, engineering geology or geoenvironmental technology. Requirements: Guest lectures, and seminar report with presentation for an individually chosen topic Target group: Postgraduate students Literature: Variable according to the topical area Prerequisites: Good knowledge within engineering geology, applied geophysics, or geoenvironmental technology depending on the course topic Substitutive: Yhd-33.4100 or Yhd-33.4350 Language: Finnish or English Yhd-71.2115 Transportation Policy and Economics (4 cr) 27+15 I Lecturer: prof. Tapio Luttinen Contents: Economic importance of transportation. Goal setting and decision making in transportation policy. Assessment of time, traffic accidents and environmental impacts. Economic calculations of transport investments. Market of transport services, tendering and pricing. Regional economic impacts. Objective: Understanding of goal setting and measures in transportation policy, utilization of economical aids in analyzation of impacts of transportation system, identifying of importance of transportation and nature of transportation markets, understanding of socio-economic and commercial points of view, getting acquired with the principles of economic efficiency comparison and pricing Requirements: Compulsory calculation exercises and exam. Evaluation: Total grade forms according to the exam grade. Target group: Kurssi kuuluu liikenne- ja tietekniikan jatkomoduuliin R207-2 Literature: Quinet, Vickerman: Principles of Transport Economics; lecture notes. Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-71.2115/
Additional information: Language: Finnish; individual study in English possible. Language: Finnish (individual study in English possible) Yhd-71.2120 Transportation System Planning (6 cr) 30+36 III-IV Lecturer: Prof. Timo Ernvall Contents: Interaction of transportation and land use. Transportation system planning. Properties and planning of car transportation, public transport, pedestrian and bicycle transportation, and parking. Accessibility of transportation facilities. Transportation planning process. Comparison of planning alternatives. Objective: Make familiar with planning of transportation system as a whole and more detailed with transportation systems of car, public transport, walking and cycling. Requirements: Lectures (in Finnish), compulsory planning exercises and exam. Evaluation: Total grade forms according to the weighted average of exam and exercise grades. Literature: Lecture notes. Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-71.2120/ Additional information: Language: Finnish; individual study in English possible. Language: Finnish (individual study in English possible) Yhd-71.3125 Traffic Safety (3 cr) Yhd-71.3130 Environmental Aspect of Transportation (3 cr) Yhd-71.3140 Traffic Flow Characteristics (3 cr) 20+15 III-IV Lecturer: Prof Tapio Luttinen Contents: Traffic flow theories and models. Speeds. Time headway distributions. Principles of queueing theory. Calculation methods of capacity and delays. Requirements: Lectures (in Finnish), compulsory calculation exercises (15 h), assignment and exam. Evaluation: Total grade forms according to the exam grade. Substitutive: Substitutes the course Yhd-71.145 Traffic Flow Characteristics Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-71.3140/ Additional information: Language: Finnish; individual study in English possible. Language: Finnish Yhd-71.3145 Traffic Simulation P (3 cr) 20+20 III, odd years Lecturer: Iisakki Kosonen, teaching researcher. Contents: Basic concepts. Microscopic and macroscopic traffic flow simulation. Simulation of traffic control. Simulation of traffic demand. Computer programs and hardware. Requirements: Exam. Compulsory simulation exercises (20 h). Literature: Kosonen: HUTSIM - Simulation tool for traffic signal control planning; Pursula: Niittymäki, Ojala (ed.): Liikennetekniikan seminaari 1999-2000, Liikenteen simulointi; Lecture notes.
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Substitutive: Substitutes the course Yhd-71.148 Traffic simulation Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-71.3145/ Additional information: Language: Finnish; individual study in English possible. Yhd-71.3155 Transport Telematics (3 cr) Course will not be arranged. Lecturer: Iisakki Kosonen, teaching researcher. Contents: Traffic management. Traffic and travel information. Vahicle telematics. Booking and payment. Freight and fleet management. Public transport telematics. Information systems and techniques of transport telematics. Requirements: Exam. Compulsory exercises. Individual literature survey. Literature: Pursula, Karasmaa, Ojala (ed.): Liikennetekniiikan seminaari 1998-1999, Liikenteen telematikka; Lecture notes. Substitutive: Substituting course Yhd-71.3250 Traffic management Additional information: Language: Finnish; individual study in English possible. Yhd-71.3165 Freight Transportation Systems (4 cr) 27+15 II Lecturer: Prof Timo Ernvall Contents: Freight transportation system of Finland. Demand of freight transportation. Technical characteristics and cost structures of freight transportation systems. Special features of different transport modes. Intermodal and multimodal transportation. Planning and operation of freight transportation. Requirements: Lectures (in Finnish), compulsory exercises and exam. Evaluation: Total grade forms by the weighted average of the exam grade and exercise grades. Literature: Lecture notes and literature announced during lecture period. Substitutive: Substitutes the course Yhd-71.161 Freight Transportation Systems Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-71.3165/ Additional information: Language: Finnish; individual study in English possible. Language: Finnish Yhd-71.3175 International Freight Transport (3 cr) 20+15 IV, odd years Lecturer: Prof Timo Ernvall, Markku Haikonen, specialist teacher Contents: Special features of Finnish international freight transport. Freight transport and related regulations in EU. Planning of international freight transport. Expediting. Requirements: Lectures (in Finnish), compulsory exercises and exam. Literature: Lecture notes and literature announced during lecture period. Prerequisites: TU-22.201 Substitutive: Substitutes the course Yhd-71.171 International Freight Transport
Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-71.3175/ Additional information: Language: Finnish; individual study in English possible. Yhd-71.3180 Transportation Engineering, current topics P (2-4 cr) Autumn Lecturer: Prof Timo Ernvall, N.N., specialist teacher Contents: Advanced topical issues. Contents and teachers change annually. Requirements: Exam. Literature: Lecture notes, lecture hand-outs. Additional information: Language: Finnish; individual study in English possible. Yhd-71.3185 Transportation and Highway Engineering (5 cr) Yhd-71.3190 Seminar on Transportation Engineering (3 cr) I-III Lecturer: Prof Timo Ernvall, Prof Tapio Luttinen Contents: Presentations given by students. Objective: Basics of technical writing. Presentation, professional discussion, and conference techniques. Requirements: Preparing a written paper and giving an oral presentation. Participation in seminars and accomplishment of tasks (presentation, opponent, chairman and secretary). Substitutive: Substitutes the course Yhd-71.190 Seminar on Transportation Engineering Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-71.3190/ Additional information: Language: Finnish; individual study in English possible. Yhd-71.3235 Traffic Studies and Forecasting (5 cr) Yhd-71.3250 Traffic Management (5 cr) 40+25 (6+3) III Contents: Basic concepts of traffic control, driver information systems, traffic signal control, traffic management, traffic and travel information, information systems and techniques in control and management Requirements: Lectures (in Finnish), compulsory exercises and exam Literature: Lecture notes and literature announced during the course Substitutive: Substitutes courses Yhd-71.150 Traffic Control and Yhd-71.177 Transport Telematics Web page: https://noppa.tkk.fi/noppa/kurssi/yhd-71.3250/ Language: Finnish (individual study in English possible) Yhd-71.3260 Urban Transport Systems (5 cr) Yhd-71.4195 Postgraduate Seminar on Transportation Engineering P (3-6 cr) Autumn + Spring (First time autumn + spring 20082009.) Lecturer: Prof Timo Ernvall, Prof Tapio Luttinen Contents: Education for degrees of licentiate and doctor by lessons and seminar presentations.
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Requirements: Case dependent, either exam, literature survey or literary and oral presentation. Additional information: Language: Finnish; individual study in English possible. Yhd-73.2110 Fundamentals of water and wastewater treatment (5 cr) 24 + 30 II Lecturer: specialist teachers Anne-Mari Aurola and Erkki Vuori, prof. Riku Vahala Contents: Fundamentals of water chemistry and microbiology, sampling and analyses. Health-based and operational monitoring of water quality. Water-borne diseases and outbreaks. Indicator organisms. Characteristics of wastewater. Reactor patters. Microbial growth, kinetics and metabolism. Nitrification and denitrification. Anaerobic fermentation and oxidation. Separation and transport mechanisms. Requirements: Lectures (in Finnish), laboratory and calculation exercises, examination Target group: Recommended on the 3. year of bachelor level studies. Literature: Will be announced during the lecture period Prerequisites: Ke-35.9220, Yhd-12.1020 Substitutive: Replaces the course Yhd-73.113 Web page: https://noppa.tkk.fi/noppa/app Additional information: Individual study in English possible. Language: Finnish Yhd-73.3005 Water and Wastewater Engineering (6 cr) 26 + 26 (2+2) I-II Lecturer: prof. Riku Vahala Contents: Community and rural water systems. Water intake. Source water protection. Drinking water treatment. Artificial recharge of ground water. Distribution systems. Water use. Wastewater and stormwater collection. Construction of pipelines. Wastewater treatment and sludge disposal. Risk analyses and management. Organisation and general planning of water services. Requirements: Lectures (in Finnish), exercises, excursions, examination Target group: Recommended on the first year of master level studies. Literature: Will be announced during the lecture period. Prerequisites: Yhd-73.2110 Substitutive: Replaces the course Yhd-73.133. (NOTE. Not vice versa.) Web page: https://noppa.tkk.fi/noppa/app Additional information: Individual study in English possible. Language: Finnish Yhd-73.3010 Municipal Solid Waste Management (4 cr) 20+6 I-II Lecturer: Juha Kaila Contents: Development of municipal solid waste management. Waste flows in municipalities, management objectives and legislation. Alternatives for
waste collection, transportation, treatment, utilization and disposal. Requirements: Lectures and visits, home tasks, portfolio Target group: Recommended on the first or second year of master level studies. Literature: Tchobanoglous et al.: Integrated solid waste management, McGraw-Hill 1994 (partly) Prerequisites: Yhd-0.1100 Substitutive: Replaces the course Yhd-73.170 Web page: https://noppa.tkk.fi/noppa/app Additional information: Individual study in English possible. Language: Finnish Yhd-73.3105 Design of Water Treatment Plants (5 cr) 20+28 III-IV, odd years Lecturer: specialist teachers Tapio Ala-Peijari and Unto Tanttu, prof. Riku Vahala Contents: Well construction. Coagulation and flocculation. Sedimentation and flotation. Filtration. Ion exchange. Adsorption. Biological and AOP methods. Membrane filtration. Stripping and aeration. Ozonation. UV irradiation and chlorination. Alkalisation. Artificial recharge of ground water. Process selection, plant, hydraulic and structural design, automation and cost estimation. Requirements: Lectures (in Finnish), exercises, laboratory exercises, design exercise Target group: Recommended on the first or second year of master level studies. Literature: Will be announced during the lecture period. Prerequisites: Yhd-73.2110 and Yhd-73.3005 Substitutive: The design exercises of courses Yhd-73.3105 and Yhd-73.3110 together replace the course Yhd-73.146. The rest replaces the courses Yhd-73.137 and Yhd73.139. Web page: https://noppa.tkk.fi/noppa/app Additional information: Individual study in English possible. Language: Finnish Yhd-73.3110 Design of Wastewater Treatment Plants (5 cr) 20+28 III-IV, odd years Lecturer: specialist teacher Tommi Fred, prof. Riku Vahala Contents: Unit operations of wastewater treatment: screening, flow equalization, sand and oil separation, clarification, aeration, suspended and attached growth activated sludge processes, chemical and biological nutrient removal, disinfection. Reuse. Soil treatment and lagoons. Anaerobic and aerobic digestion, composting, conditioning, dewatering, drying and incineration of biosolids. Process selection and control. Plant, hydraulic and structural design. Automation and cost estimation. Environmental permits. Requirements: Lectures (in Finnish), laboratory and calculation exercises, design exercise Target group: Recommended on the first or second year of master level studies. Literature: Metcalf & Eddy (2003). Wastewater
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Engineering, Treatment and Reuse. McGraw-Hill. 1819 p. (partly) Prerequisites: Yhd-73.2110 and Yhd-73.3005 Substitutive: The design exercises of courses Yhd-73.3105 and Yhd-73.3110 together replace the course Yhd-73.146. The rest replaces the courses Yhd-73.137 and Yhd73.139. Web page: https://noppa.tkk.fi/noppa/app Additional information: Individual study in English possible. Language: Finnish Yhd-73.3115 Design of Water and Wastewater Networks (5 cr) 18+28 III-IV, even years Lecturer: prof. Riku Vahala, specialist teacher N.N. Contents: Hydraulic and water quality management in distribution system. Water hammer. Modeling and control. Pumping stations, pipes, manholes, storage and devices. Low-pressure sewer systems. Construction of pipelines. Inspection, cleaning, testing and disinfecting pipelines. No-dig technologies. Leakage and odor management. Planning, design and specifications. Cost estimation. Requirements: Lectures (in Finnish), exercises, design exercise Target group: Recommended on the first or second year of master level studies. Literature: Will be announced during the lecture period. Prerequisites: Yhd-73.3005 Substitutive: Replaces the course Yhd-73.138 Web page: https://noppa.tkk.fi/noppa/app Additional information: Individual study in English possible. Language: Finnish Yhd-73.3120 Organising Water and Wastewater Services (3 cr) 15+20 I-II, odd years Lecturer: prof. Riku Vahala, specialist teachers Teemu Vehmaskoski and N.N. Contents: Characteristics of water services. Strategic planning, management, client relations, benchmarking, balance sheet and economic planning of water works. Regional co-operative models, public-private partnership and outsourcing. Asset management. Ownership. Contractual agreements. Water Services Act. Requirements: Lectures (in Finnish) and exercises. Target group: Recommended on the first or second year of master level studies. Literature: Will be announced during the lecture period. Prerequisites: Yhd-73.3005 Substitutive: Replaces the course Yhd-73.147 Web page: https://noppa.tkk.fi/noppa/app Additional information: Individual study in English possible. Can be replaced by the course BIO-5256 Management Options of Water Services, 3 cr, Tampere technical university, lectured on spring, odd years. Language: Finnish Yhd-73.3125 Special Assignment in Water Engineering
(5 cr) I-IV Lecturer: prof. RIku Vahala and Pertti Vakkilainen Contents: Independent research work and writing of a report. Requirements: Laboratory work or literature review, research report. Target group: Recommended on the first or second year of master level studies. Prerequisites: Yhd-73.2110 or Yhd-12.2015, if laboratory work is included. Other prerequisites depending of topic. Substitutive: Replaces the course Yh-73.184, Yhd-12.145 or Yhd-12.171 Web page: https://noppa.tkk.fi/noppa/app Additional information: Individual study in English possible. Language: Finnish Yhd-73.3130 Remediation of Contained Soil and Groundwater (3 cr) 18+4 III-IV, odd years Lecturer: specialist teachers N.N. Contents: A general review of remediation situation in Finland. Common contaminants and their properties. Characterisation of contaminated soil and ground water. The principles and special features of the remediation of contaminated ground water, pump and treat- and in situmethods. Remediation and treatment of contaminated soil. How to prepare a remediation plan. Requirements: Lectures, study visit, home and group tasks Target group: Recommended on the first or second year of master level studies. Literature: Will be announced during the lecture period. Prerequisites: Yhd-73.2110 Substitutive: Replaces the course Yhd-73.165 Web page: https://noppa.tkk.fi/noppa/app Additional information: Individual study in English possible. Language: English Yhd-73.3206 Varying Studies in Environmental Technology P (1-10 cr) Yhd-73.3211 Environmental Technology P (5 cr) Yhd-73.3216 Natural Resources and Environmental Impacts P (7 cr) Yhd-73.3218 Environmental Impacts of Materials and Chemicals P (5 cr) Yhd-73.3221 Public Governance - Environmental Policy and Legislation P (3 cr) Yhd-73.3222 Design for Environment P (5 cr) Yhd-73.3225 Life Cycle Techniques of Product and Production Systems (5 cr) Yhd-73.3228 Environmental economics (3 cr)
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Yhd-73.3231 Industrial Environmental Engineering P (4 cr) Yhd-73.3241 Solid Waste Management P (4 cr) Yhd-73.3251 Material Recovery and Recycling P (5 cr) Yhd-73.3271 Special Assignment in Solid Waste Management P (5 cr) Yhd-73.3276 Master seminar course in environmental engineering and life cycle techniques (2 cr) Yhd-73.3277 Experimental methods in environmental engineering P (5 cr) Yhd-73.3285 Waste Logistics and Recycling P (4 cr) Yhd-73.3290 Mechanical and Biological Waste Treatment P (4 cr) Yhd-73.3295 Energy Recovery from Waste P (4 cr) Will be lectured 2009-2010 Lecturer: Loay Saeed D.Sc. (Tech.) Contents: Definition of waste, option for waste treatment and recycling, incineration, landfill, waste to energy processes, other treatment technologies. Requirements: Examination, excursion and execises Prerequisites: Yhd-73.3241 , Yhd-73.3251 Language: English Yhd-73.3300 Landfill technology P (3 cr) Rak-32.187 Seminar on Rock Mechanics P (3 ocr) (4+20) Lecturer: Juha Antikainen, D.Sc. (Tech.) Contents: The use of rock mechanics knowledge in practical problems, case studies. The contents of the study module change annually
Requirements: Seminar presentation and report Prerequisites: Mak-32.137 or Rak-32.137 (obligatory) Substitutive: Mak-32.187 Web page: https://noppa.tkk.fi/noppa/kurssi/rak-32.187/ Additional information: Individual study in English possible Language: Finnish Yhd-10.173 Highway Engineering, literature research (2 ocr) Fall, Spring Lecturer: Jarkko Valtonen, teaching researcher Contents: To specialise in a particular subject and to prepare the students for their Master’s theses. Requirements: Literature study on given source materials. Additional information: Language: Finnish; individual study in English possible. Yhd-10.175 Highway Engineering, special assignment (4 ocr) Spring, Autumn Lecturer: Jarkko Valtonen, teaching researcher Contents: To specialise in a particular subject and to prepare the students for their Master’s theses. Requirements: Literature study or laboratory research on a given subject. Additional information: Language: Finnish; individual study in English possible. Yhd-71.185 Transportation Engineering, special assignment (4 ocr) Autumn + Spring (Last time autumn + spring 20082009.) Lecturer: Prof Timo Ernvall, Prof Tapio Luttinen Contents: Research and planning assignments in the field of transportation engineering Requirements: Individual assignment. Additional information: Language: Finnish, English
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FACULTY OF CHEMISTRY AND MATERIALS SCIENCES http://chemat.tkk.fi Degree Programme of Chemical Technology Planning Officer Ms Sirje Liukko International Study Adviser
[email protected] Degree Programme of Forest Products Technology Planning Officer Ms Leena Hauhio International Study Adviser
[email protected] Degree Programme of Materials Science Planning Officer Ms Virve Pekkarinen International Study Adviser
[email protected]
Department of Biotechnology and Chemical Technology KE-100.2300 Polymer Technology I (3 cr) KE-100.2600 Laboratory Exercises of Polymer Technology, short course (2 cr) KE-100.2610 Laboratory Exercises of Polymer Technology, short course (2 cr) III Lecturer: Pirjo Pietikäinen, D.Sc. (Tech.) Contents: 4-6 demonstrative laboratory exercises on polymerization, analyzing, testing and identifying of polymers. Recommended with courses KE-100.2300, KE-100.9300 or KE-100.9310. Objective: The aim is to get familiar in laboratory with polymer synthesis, polymer properties, characterization as well as processing methods. Requirements: Participation in the laboratory exercises and accepted reports. Evaluation: Pass/Fail Web page: noppa.tkk.fi Language: English KE-100.3100 Polymer Technology II a (5 cr)
laboratory exercises. Requirements: Accepted laboratory work reports and attendance in the seminar. Evaluation: Pass/Fail Literature: Seppälä, J., Polymeeriteknologian harjoitustöitä, Otakustantamo, 891, 1998. Prerequisites: KE-100.2300, KE-100.9300, KE-100.9310 Web page: noppa.tkk.fi Language: English KE-100.3700 Polymerization Engineering (6 cr) KE-100.4100 Polymer Composites (4 cr) KE-100.4110 Polymer Processing and Characterization (4 cr) KE-100.4800 Biopolymers (3 cr) KE-100.5000 Special Study in Polymer Technology (47 cr) KE-100.5010 Seminar on Polymer Technology P (3-9 cr)
KE-100.3300 Polymer Technology II b (5 cr) KE-100.3310 Laboratory Exercises of Polymer Technology, extensive course (5 cr) KE-100.3320 Laboratory Exercises of Polymer Technology, extencive course (5 cr) II-III Lecturer: Minna Annala, M.Sc. (Tech.) Contents: 8-10 practical exercises on polymer synthesis, measurement of physical properties of polymers and processing methods. Objective: Aim is to combine the theory from the lectured courses with personal experience in the
KE-100.5020 Special Study in Polymer Technology (47 cr) I, II, III, IV Lecturer: Prof Jukka Seppälä and university teacher Pirjo Pietikäinen Contents: Both written and experimental work is included. Objective: The aim is to deepen knowledge on selected area of polymer science. Evaluation: Accepted report, grade 1-5 Prerequisites: KE-100.2300, KE-100.9300 or KE100.9310.; KE-100.3100 and KE-100.3300; KE-100.3300 and KE-100.3700 are recommended.
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Web page: noppa.tkk.fi Language: English KE-100.9300 Basics of Polymer Technology (MT, K, for students of the degree programme of Materials Science and Mechanical Engineering) (3 cr) KE-100.9310 Basics of Polymer Technology (P, for students of the degree programme of Forest Products Technology) (3 cr)
Objective: The objective of the course is to give practical knowledge on process development and design. Requirements: Lecture,exercise participation, seminar presentation and Exam. Evaluation: Examination, gr. 1-5 exercise participation give points to exam. Literature: Lecture notes and solved exercises. Prerequisites: KE-107.3100 Process Simulation Language: English KE-107.4700 Process Safety (3 cr)
KE-107.2100 Plant Design I (4 cr) KE-107.3100 Process Simulation (3 cr) Autumn (Period I) Lecturer: Prof. Markku Hurme Dr. Sarwar Golam Contents: Fundamentals of chemical process simulation, flowsheeting, optimization and soft computing. Course focuses on simulation of physical properties, equipment and processes using Pro/II simulation program. Objective: This course provides students with the knowledge and experience to use a process simulator effectively for the analysis and synthesis of process flowsheets. Requirements: Exam, exercise participation and accepted home work. Evaluation: Examination, gr. 1-5 Literature: Lecture notes and solved exercise. Prerequisites: KE-107.2100 Language: English KE-107.3210 Exercise Course in Bioprocess Design (5 cr) KE-107.4000 Process Safety (3 cr) Autumn & Spring Lecturer: Prof. Markku Hurme Dr. Sarwar Golam Contents: Introduction, toxicology, industrial hygience, MSDS, control, fires and explosions, prevent fires and explosions, reliefs, hazards identification, reactive chemicals, process risk management, dangerous properties of chemicals. Course doesnt contain lectures. Objective: The aim of the course is to give basic understanding on methods and principles in chemical process safety. Requirements: Literature works, exam based on literature given. Evaluation: Examination, gr. 1-5 Literature: Notes, copied materials Prerequisites: Basic knowledge on chemical processes. Additional information: Course doesnt contain lectures. Language: English KE-107.4300 Process Design I (3 cr) Autumn (Period II) Lecturer: Prof. Markku Hurme; Dr. Sarwar Golam Contents: Course gives practical knowledge on process development and process design. A case study on selection, design and feasibility of an inorganic chemical process is presented including safety, environmental and economic aspects.
KE-107.5500 Plant design II (8 cr) Spring Lecturer: Prof. Markku Hurme Dr. Sarwar Golam Contents: A preliminary design and feasibility study of a process, which is done as a design project. Includes acquiring of source information for design, methods of design, cost and profitability estimation. Project work is done in teams of ca. 5 students. Objective: The objective of the course is to give an overview on preliminary plant design. Requirements: Accepted design reports and presentations, participation in meetings. Evaluation: The course is graded from 0-5. Grading depends on the quality of design, style of each report, performances in meetings and final presentation. Literature: Plant design II guide Prerequisites: KE-107.3100, KE-107.4300, KE-42.3100, KE-42.3110 or equivalent Additional information: NOTE: Registrations for the course before the end of exam period in December. Corresponding course in Finnish is KE-107.5505 Language: English KE-107.5505 Plant design II (8 cr) KE-107.5510 Plant design II B (6 cr) Spring Lecturer: Prof. Markku Hurme; Dr. Sarwar Golam Contents: A preliminary design and feasibility study of a bio or food process, which is done as a design project. Includes acquiring of source information for design, methods of design, cost and profitability estimation. Project work is done in teams of ca. 5 students. Objective: The objective of the course is to give an overview on preliminary plant design of bio or food processes. Requirements: Accepted design reports and presentations, participation in meetings. Evaluation: The course is graded from 0-5. Grading depends on the quality of design, style of each report, performances in meetings and final presentation. Literature: Plant design II guide Prerequisites: KE-70.2500 or equivalent Additional information: NOTE: Registrations for the course before the end of exam period in December. Language: English KE-107.5515 Plant design II B (6 cr)
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KE-107.6000 Special Course in Plant Design P (1-5 cr) Autumn & Spring Lecturer: Prof. Markku Hurme and invited specialist and experts from industry and university. Contents: Recent special topics in chemical and process plant design. The subject of the course varies. Objective: The course provides students in-dept knowledge on special topics in chemical process and plant design. Requirements: Participation and Examination Evaluation: Exam. gr. 1-5 Literature: Lecture notes. Prerequisites: KE-107.2100. Language: English
KE-30.5100 Practical Course in Biochemistry and Microbiology (6 cr) KE-30.6000 Postgraduate Course on Technical Biochemistry P (1-6 cr) KE-30.6010 Special Course in Food Development P (3 cr) KE-40.1600 Introduction to the processes (2 cr) KE-40.1800 Ideal reactors (3 cr) KE-40.2500 Basics in Process Technology (5 cr)
KE-107.6005 Special Course in Plant Design P (1-5 cr) KE-107.6010 Special Study in Plant Design P (1-7 cr) Autumn & Spring Lecturer: Prof. Markku Hurme Contents: One ore more special studies on plant design as agreed with the instructor. Objective: Independent special studies on process and plant design. Requirements: Special work reports or literature studies. Evaluation: pass/fail Literature: Independent study as agreed Prerequisites: KE-107.2100 Language: English KE-107.6015 Special Study in Plant Design L (1-7 cr) KE-107.6025 Special Study in Bioplant Design P (1-7 cr) KE-30.2110 Microbiology II (5 cr) KE-30.2120 Biochemistry and Microbiology I (4 cr)
KE-40.2510 Seminar on Finnish Chemical Industry (2 cr) KE-40.4000 Research Project in Industrial Chemistry (7 cr) KE-40.4010 Special Course in Catalysis (6 cr) KE-40.4015 Special Course in Catalysis (6 cr) 0 + 100 (periodi) I, II, III, IV Lecturer: prof. Outi Krause Contents: Experimental work related to catalysis. The project will be based on a literature review, which will be done first. Objective: The aim of the course is to introduce the students to various catalyst characterization methods based on literature or practical measurements. Requirements: Laboratory experiments, literature review and report of the results Evaluation: The report will be evaluated at scale 1-5. Literature: Depends on the subject. Prerequisites: KE-40.4110 or equivalent studies. Language: English
KE-30.2500 Biochemistry II (5 cr) KE-30.2510 Biochemistry and Micobiology, Laboratory Course (5 cr)
KE-40.4100 Industrial Chemistry, laboratory course (4 cr) KE-40.4110 Kinetics of Catalytic Reactions (5 cr)
KE-30.3100 Microbiology III (3 cr) KE-40.4130 Multiphase Reactors (5 cr) KE-30.3110 Biochemistry III (3 cr) KE-30.4100 Industrial Microbiology P (4 cr) KE-30.4110 Microbiological Production Processes P (3 cr) KE-30.4500 Fermentation Processes (3 cr) KE-30.4510 Process Biochemistry P (4 cr) KE-30.4520 Food Product Development (4 cr) KE-30.5000 Practical Course in Food Development (6 cr)
KE-40.4140 Environmental Catalysis (5 cr) 24 + 6 (4 + 1) II, even years Lecturer: Prof Outi Krause Contents: Principles of catalysis. Most important catalytic processes for clean fuel production. Catalytic purification of exhaust and flue gases. Catalytic combustion. Examples of new, environmentally acceptable chemical processes. Objective: The goal of the course is to introduce the students to the principles of catalysis, to the use of catalysts in processes less harmful to the environment and to the use of catalysts in treating exhaust gases. Requirements: Lectures and excersises Evaluation: Exam, grade 1-5
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Literature: Will be announced later Prerequisites: KE-40.2500 or equivalent studies recommended Language: English KE-40.4520 Industrial chemistry seminar course (4 cr) KE-40.4525 Industrial chemistry seminar course (4 cr) 0 + 20 (periodi) III-IV Lecturer: prof. Outi Krause Contents: Seminar course. Seminar presentations dealing with selected chemical processes.Literature work and seminar presentation. Objective: The course trains for the preparation of master thesis. During the course the student learns how to analyse literature information by preparing a literature review from a given subject. Requirements: Approved seminar work and presentation. Evaluation: The literature work and seminar presentation will be evaluated. Grade 1-5. Literature: Depends on the subject. Prerequisites: KE-40.2500 or equivalent studies. Language: English KE-40.6000 Biofuels P (5 cr) 30 + 0 (Period) spring, odd years Lecturer: Prof Outi Krause Contents: The course will give an overview of present state of art in conversion of biomass to various fuels. At first the global enviroment will be described and EU directives will be presented. Various raw materials and conversion processes will be introduced. Some examples of operational or designed commercial size processes will be given. The properties of bio-fuels and their applications will be presented. The comparison with the conventional fuels will be given. Objective: The aim of the course is to give an overview of the present state of art in conversion of biomass to various fuels. Requirements: Lectures Evaluation: Exam, grade 1-5. Literature: As agreed Prerequisites: KE-40.2500 and KE-40.4110 or equivalent studies. Language: English KE-40.6020 Scale-up of Chemical Processes P (5 cr) 30 + 0 (Period) autumn, even years Lecturer: Prof. Outi Krause Contents: The course gives an overview of the scale-up of chemical reactions from laboratory to industrial scale. The course will disscuss scale-up and modelling, the different stages of scale-up (laboratory->bench->pilot>production), common problems involved, environmetal aspects, process safety and economy. The emphasis is on the heat and mass transfer issues of scale-up and on reactor safety. Objective: The aim of the course is to give an overview of the scale-up of chemical reactions from laboratory to industrial scale. The student recognizes the various phenomenas that affect the scale-up (mixing, mass and
heat transfer). Requirements: Lectures, exercises and seminar presentations. Evaluation: Exam, grade 1-5. Literature: As agreed Prerequisites: KE-40.4110 or equivalent studies. Language: English KE-40.6500 Seminar on Industrial Chemistry P (3-7 cr) KE-42.1700 Chemical Engineering I (5 cr) KE-42.3000 Chemical Engineering, laboratory course (3 cr) KE-42.3100 Chemical Engineering IIa (5 cr) KE-42.3110 Chemical Engineering IIb (5 cr) KE-42.3510 Processes and Products, laboratory course (2 cr) KE-42.4000 Chemical Engineering, advanced laboratory course (3 cr) KE-42.4010 Chemical Engineering, exercise course on special topics (3-8 cr) I, II, III, IV Lecturer: Assistant Timo Seuranen Contents: Homework exercises or laboratory experiments on selected topics of chemical engineering. Objective: Understanding of the topic of special project. Requirements: Approved reports. Evaluation: Accepted/not accepted Literature: As agreeded Prerequisites: KE-42.4000 (compulsory). Additional information: Language: Finnish/English. Language: Finnish KE-42.4100 Mechanical Unit operations (3 cr) KE-42.4110 Unit Operations, advanced course (4 cr) KE-42.4120 Process Development P (4 cr) I-II (Lectured even years) Lecturer: Prof. Ville Alopaeus Contents: Nowadays the same time scale of process development must be short to be competitive. The stops of process development from idea to product or process are taught to find innovative solutions to technical problems and process configurations. Case based learning. Objective: Understanding the steps of process development. Requirements: Lectures, exercises and exam. Evaluation: The grade is based on the sum of points of exams, homeworks and seminar Literature: As agreed Prerequisites: KE-42.3100, KE-42.3110 and KE-107.4300 Language: English
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KE-42.4500 Chemical Engineering III (9 cr) KE-42.4510 Equipment Design, advanced course (4 cr) KE-42.4520 Process Modelling - methods and tools (5 cr) III-IV Lecturer: Professor Ville Alopaeus Contents: Special topics related to mathematical modeling in chemical engineering. Overview of various numerical methods and their implementation. Objective: Course is intended mainly for post-graduate students and those who are at later stages in their graduate studies. Special attention is given to mathematical problems appearing in students’ own research, and students are also encouraged to bring their own topics to the seminars. Requirements: Lectures Homework Exams (pre- and final exams) Evaluation: Pre-exam Participation to lectures and exercises Homework Final exam Literature: Pre-exam: Rice & Do: Applied Mathematics and Modeling for Chemical Engineering, chapters 1-2 Final exam: Lecture notes and additional material distributed on the lectures Prerequisites: Basic courses on mathematics, chemical engineering and industrial chemistry Web page: noppa.tkk.fi Language: English KE-42.5510 Physical Properties in Chemical Engineering P (5 cr) 20 + 10 (periodi) III-IV, lectured odd years Lecturer: Doc. Kari Keskinen Contents: Lectures on the estimation methods and correlation of experimental data for the important thermophysical properties and where they can be applied. Exercises consist of comparisons of estimation and correlation methods to each other and to measurements. Also the accuracy and sensitivity of the estimation methods to the process design is studied using process simulators. Objective: Extending the knowledge and understanding the importance of physical properties in chemical engineering. Requirements: Lectures and exercises. Evaluation: The grade consists of homeworks and midexams. Literature: As agreed. Prerequisites: KE-42.3100 and KE-42.3110 Web page: noppa.tkk.fi Language: English KE-42.6000 Chemical Engineering Licenciate Seminar P (3-6 cr) I, II, III, IV (If needed) Lecturer: Prof. Ville ALopaeus Contents: Specific topics in chemical engineering, process modeling, methods and tools and their applications in various fields of chemical engineering.
Alternating content. Seminar lectures. Objective: Extending the knowledge of specific topics in chemical engineering. Requirements: Exercises and seminar lectures. Evaluation: Passed/not passed Literature: As agreed. Prerequisites: KE-42.3100 and KE-42.3110. Additional information: Language: English. May be lectured in Finnish, if there are no foreign students present. Language: English KE-42.6010 Distillation Design P (4 cr) Autumn (period), odd years Lecturer: Kari Keskinen and Juhani Aittamaa, Docent and researcher Kaj Jakobsson Contents: One-week intensive course with lectures and exercises and home work case studies. The course will give an overview of practical aspects of distillation simulation and design. Thermodynamics models, both predictive and experimental are presented. Design of plate and packed columns and the auxiliary equipment are considered. Modeling of distillation by equilibrium and rate-based approach are presented. Control and costing of distillation systems are also included. The course consists of some 30 hours of lectures and exercises. A simulation program is used in the exercises. There will be no examination, but case studies will be held instead. Objective: Extending knowledge of distillation. Requirements: Case studies. Evaluation: Passed/not passed Literature: Will be delivered during the lectures. Language: English KE-42.6500 Unit Operations of Environmental Technology P (4 cr) III-IV Lecturer: Juha Kallas, Docent Contents: Selected topics of unit operations that are used in environmental techniques. Membrane separations, separations of liquid/gas and solid/gas mixtures, chemical and biochemical methods, modelling. Number of participants limited to 25. Objective: Applying chemical engineering techniques in environmental applications Requirements: Literature exercise and examination. Evaluation: Exam Literature: As agreed Prerequisites: KE-42.3100 and KE-42.3110 Language: English KE-70.2500 Bioprocess Engineering I (5 cr) KE-70.2600 Unit Operations of Food and Biotechnology (5 cr) KE-70.3100 Bioprocess Engineering II (3 cr) KE-70.3200 Laboratory course of Bioprocess Engineering (3 cr)
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KE-70.3500 Bioprocess Simulation (3 cr) KE-70.3600 Bioprocess Engineering III L (5 cr) KE-70.4100 Process Design of Bioindustry (5 cr) KE-70.4200 Bioprocess Scale-up (5 cr) KE-70.4300 Metabolic Engineering and Modeling (5 cr) KE-70.4500 Protein Engineering L (5 cr) KE-70.4600 Practical Course in Bioprocess Engineering (5 cr) KE-90.2100 Basics of Process Automation (3 cr) KE-90.2110 Process Industry Measurements (3 cr) KE-90.2500 Basics in production planning and control (6 cr) IV Lecturer: Prof. Sirkka-Liisa Jämsä-Jounela Contents: Applications of production control are also discussed. Company visits. Objective: The aim of the course is to give knowledge about methods used in production planning and control of industrial processes. Requirements: lectures and exercises Evaluation: Final exam Grading: 1-5 Literature: Hillier, F. S., Liebermann, G. J.: Introduction to Operations Research, 7th.ed.; Compendium Prerequisites: KE-90.2100 Web page: http://kepo.hut.fi/index.php?current_page_1=Study&cur rent_page_2=Courses¤t_page_3=KE90.2500&id=62 https://noppa.tkk.fi/noppa/kurssi/ke90.2500/ Language: English KE-90.3100 Process modelling and simulation (6 cr) II Lecturer: Prof. Sirkka-Liisa Jämsä-Jounela Contents: The first part of the course introduces basic as well as differential mass and energy balances. Different constitutive relations are also introduced. Several examples of mathematical models are provided. The first part of the course also focuses on computer simulation and numerical methods. Finally the first part treats Laplace domain dynamics. The second part of the course focuses on empirical modeling. Topics such as linear regression and discrete time system identification are treated. Finally practical guidelines for performing system identification are provided. Objective: The aim of the course is to give an introduction to mechanistical process modeling and simulation using computer tools. Requirements: Exercises and final exam. Evaluation: Exercises and final exam. Grading: 1-5
Literature: Luyben: Process Modelling, Simulation and Control for Chemical Engineers, McGraw-Hill Prerequisites: KE-90.2100 Web page: http://kepo.hut.fi/index.php?current_page_1=Study&cur rent_page_2=Courses¤t_page_3=KE90.3100&id=57 https://noppa.tkk.fi/noppa/kurssi/ke90.3100/ Language: English KE-90.3500 Process modelling and simulation in practice (3 cr) Spring (Period III) Lecturer: Prof. Sirkka-Liisa Jämsä-Jounela Contents: Laboratory exercises in modeling and simulation with Matlab and Simulink. Objective: To implement learned mechnistical process modelling and simulation tools using computer in modelling of process equipments. Requirements: Assingments Evaluation: Assingments Grading passed/failed. Literature: Compendium; Luyben: Process Modelling, Simulation and Control for Chemical Engineers, McGraw-Hill Prerequisites: KE-90.3100 Web page: http://kepo.hut.fi/index.php?current_page_1=Study&cur rent_page_2=Courses¤t_page_3=KE90.3500&id=58 https://noppa.tkk.fi/noppa/kurssi/ke90.3500/ Language: English KE-90.4100 Production planning in practice (4 cr) I Lecturer: Prof Sirkka-Liisa Jämsä-Jounela Contents: Project works with Arena, SAPr3 and APO. Requirements: Exercises Evaluation: Exercises and final exam. Grading passed/failed. Target group: The course is designed for the students whose major is Process control and automation. Literature: W. David Kelton, Randall p. Sadowski, Deborah A. Sadowski: Simulation with Arena, McGrawHill, USA, 2003 Prerequisites: KE-90.2500 Web page: http://kepo.hut.fi/index.php?current_page_1=Study&cur rent_page_2=Courses¤t_page_3=KE90.4100&id=55 https://noppa.tkk.fi/noppa/kurssi/ke90.4100/ Language: English KE-90.4110 Information technology in process automation (3 cr) II Lecturer: visiting lecturers Contents: Design methods, tools (XML, FDT) and interfaces (OPC, ODBC) for application software development of process automation. Field buses (Profibus, FF, Ethernet) of process indutry. Laboratory project works using fieldbus and XML technologies.
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Guest speakers from the industry. Objective: To introduce modern and emerging tools, systems and field buses in process automation. Requirements: Lectures and assignments. Evaluation: Assignments and final exam. Grading: 1-5 Target group: The course is designed for the students whose major is Process control and automation. Literature: Compendium Prerequisites: Basic knowledge of control and process engineering (KE-90.3100) and basic programming skills Web page: http://kepo.hut.fi/index.php?current_page_1=Study&cur rent_page_2=Courses¤t_page_3=KE90.4110&id=65 https://noppa.tkk.fi/noppa/kurssi/ke90.4110/ Language: English KE-90.4500 Project work in process automation (3 cr) Spring (Period IV) Lecturer: Jerri Kämpe, M.Sc (Tech.) Contents: Course includes a practice process control with the PC-based Wonderware control system. Objective: The aim is to familiarize with PC-, PLC- and soft-PLC-based control systems, system configuration, PLC programming and user interface design. Requirements: Project work. Evaluation: Project work and final report evaluation. Grading: 1-5 Prerequisites: Basic knowledge of control and process engineering (KE-90.3100) and basic programming skills. Web page: http://kepo.hut.fi/index.php?current_page_1=Study&cur rent_page_2=Courses¤t_page_3=KE90.4500&id=59 https://noppa.tkk.fi/noppa/kurssi/ke90.4500/ Additional information: NOTE: Registration to this course during period III. Language: English KE-90.4510 Control applications in process industries (6 cr) Spring (Period III) Lecturer: Prof. Sirkka-Liisa Jämsä-Jounela, Mats Nikus, D.Sc (Tech.), Jouni Savolainen, M.Sc (Tech.) Contents: Classical and modern control theory is
disscussed briefly. Process dynamics, process modelling and identification, single-loop control and controller design, multivariable control, discrete time systems and design of digital controllers, model predictive control, selected topics in advanced process control and case studies. Objective: The aim of the course is to give an overview of control strategies used in process industry. Requirements: Lectures, exercises and assignments Evaluation: Final exam and assignment. Grading: 1-5 Literature: Ogunnaike, Babatunde A. & Ray, W.: Process Dynamics, Modelling and Control, Oxford university Press Prerequisites: KE-90.3100 Web page: http://kepo.hut.fi/index.php?current_page_1=Study&cur rent_page_2=Courses¤t_page_3=KE90.4510&id=61 https://noppa.tkk.fi/noppa/kurssi/ke90.4510/ Language: English KE-90.5100 Process monitoring (4 cr) Autumn (Period I) Lecturer: Mats Nikus, D.Sc (Tech.) Contents: The main principles of the statistical and neural data-based process monitoring methods (principal component analysis, partial least squares regression, selforganizing maps) as well as their combinations and applications will be covered. An insight how neural and fuzzy methods can be used to improve control systems will be given. the course will combine conceptual frameworks with a practical approach. Objective: The aim of the course is to give an overview on process monitoring and an introduction to neural and fuzzy process control methods. Requirements: Lectures, exercises and assignments Evaluation: Assignments and final exam. Grading: 1-5 Literature: To be announced. Lecture notes. Prerequisites: KE-90.3100 Web page: http://kepo.hut.fi/index.php?current_page_1=Study&cur rent_page_2=Courses¤t_page_3=KE90.5100&id=54 https://noppa.tkk.fi/noppa/kurssi/ke90.5100/ Language: English
Department of Chemistry KE-31.1800 Physical Chemistry I (3 cr)
KE-31.3120 Special Project in Physical Chemistry (5 cr)
KE-31.2100 Physical Chemistry II (3 cr) KE-31.3130 Polyelectrolytes (2 cr) KE-31.2110 Physical Chemistry Laboratory I (3 cr) KE-31.4100 Basic Electrochemistry (3 cr) KE-31.2120 Physical Chemistry III (3 cr) KE-31.4110 Electrochemical Kinetics (3 cr) KE-31.2500 Physical Chemistry Laboratory II (2 cr) KE-31.3100 Physical Chemistry IV (3 cr)
KE-31.4120 The Computational Methods of Physical Chemistry (4 cr) Autumn (Period II)
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Lecturer: Alex Bunker, PhD. Contents: The course deals with computational solutions for different physicochemical systems, for example Monte Carlo simulation and molecule dynamics. Objective: The aim of this course is to provide the students with an introduction to molecular modelling. Requirements: Lectures, exercises and a written exam. Evaluation: examination 1-5 Literature: Material is distributed during the lectures. Prerequisites: KE-31.3100 Language: English KE-31.4500 Electrochemistry Laboratory (2 cr) KE-31.4510 Transport Processes at Electrodes and Membranes (4 cr) KE-31.4520 Impedance Spectroscopy (2 cr) KE-31.4540 Special Topics in Electrochemistry P (2 cr) Spring (Period IV) Lecturer: prof. Kyösti Kontturi Contents: According to need, in spring 2008 the topic was electrochemistry of liquid-liquid interfaces. Objective: The aim is to study selected topics in electrochemistry. Requirements: Lectures and home work problems and/or laboratory experiments including reports. Evaluation: pass/fail Literature: As agreed. Prerequisites: KE-31.4100, KE-31.4110 Language: English
KE-31.5130 Nanothermodynamics P (2 cr) Autumn (period I), odd years. Will be changed to Spring (period III), even years Lecturer: José A. Manzanares, Docent Contents: Thermodynamic properties of nanoparticles. Hill’s statistical thermodynamics of small systems. Applications of the completely open ensemble. Tsallis’ non-extensive thermostatistics and applications to physico-chemical systems. Objective: The student should learn the limitations of classical thermodynamics applied to small systems and the main theoretical approaches that are available for the thermodynamics of nanoscale systems. The student should be able to evaluate the subdivision potential of Hill’s nanothermodynamics in some simple systems. In addition, a basic knowledge of Tsallis’ non-extensive entropy and of theoretical approaches based on interfacial energies should also be acquired. Requirements: Lectures, home work problems and a written examination. Evaluation: examination 1-5 Literature: Lecture notes. Prerequisites: KE-31.2120 Language: English KE-31.5500 Theoretical Chemistry and Molecular Modelling (3 cr) KE-31.5510 Thermodynamics of Real Systems P (4 cr) KE-31.5520 Surface Chemistry P (3 cr) KE-31.5530 Nanoparticles P (2 cr)
KE-31.4550 Pharmaceutical Physical Chemistry (4 cr) KE-35.1200 Inorganic Chemistry I (4 cr) KE-31.5110 Dynamics of the Chemical State (2 cr) KE-31.5120 Special Course in Statistical Thermodynamics P (4 cr) Autumn (period I), even years Lecturer: José A. Manzanares, Docent Contents: Basics of statistical thermodynamics of equilibrium systems. Thermally-averaged electrostatic interactions. Elasticity of polymer chains. Classical fluids. Non-electrolyte solutions. Adsorption isotherms. Surface pressure-molecular area isotherms of surfactant monolayers. Ligand binding equilibria. Quantum statistics. Electrons in metals. Magnetic phenomena. Objective: The student should learn the Gibbs’ ensemble formalism and be able to evaluate the thermodynamic equilibrium properties of different systems of interest in physical chemistry. The student should also become familiar with the mean field approximation to describe systems of interacting particles. Requirements: Lectures, home work problems and a written examination. Evaluation: examination 1-5 Literature: Lecture notes. Prerequisites: KE-31.2120 Language: English
KE-35.1210 Inorganic Chemistry, laboratory course (4 cr) KE-35.1500 Analytical Chemistry I; (KE, P, also for students of the degree programme of Forest Products Technology) (3 cr) KE-35.1700 Analytical Chemistry Laboratory course I (3 cr) KE-35.2100 Inorganic Chemistry II (3 cr) KE-35.2500 Inorganic Chemistry III (5 cr) KE-35.2510 Inorganic Instrumental Analysis (7 cr) KE-35.3500 Special Project in Inorganic Chemistry (5 cr) KE-35.4000 Evaluation of an analysis method (1 cr) KE-35.4100 Inorganic Chemistry IV (6 cr) KE-35.4310 Atomic Spectrometry, special topics P (3
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cr) KE-35.4320 Analytical Methods in Environmental Chemistry (4 cr) KE-35.4330 Advanced Analytical Chemistry P (4 cr) KE-35.4340 Laboratory Quality Systems, Quality Assurance and Validation of Analytical Methods (2 cr) KE-35.4500 Functional Oxide Materials (3 cr) KE-35.4510 Thermoanalytical Methods and Applications (3 cr) KE-35.4610 Chromatographic and Capillary Electromigration Techniques P (5 cr) KE-35.4810 Sample pretreatment P (3 cr) KE-35.5000 Seminar on Chemical Analysis Technique P (4 cr) Autumn & Spring (Even years) Lecturer: Prof Sakari Kulmala Contents: Seminars on modern analytical methods. Objective: Gaining experience in giving presentations, making oneself familiar with an analysis technique or its application. Requirements: Active participation and oral presentation. Prerequisites: As agreed Language: English KE-35.5010 Special Work in Analytical Chemistry I P (3 cr) KE-35.5020 Special Work in Analytical Chemistry II P (3 cr) KE-35.5100 Research Project in Inorganic Chemistry (8 cr) KE-35.5110 Chemical Instrumentation and Electroanalytical Methods P (5 cr) KE-35.6000 Research Study on Analysis Technique P (6 cr) Autumn & Spring Lecturer: Prof Sakari Kulmala Contents: Literature survey of a current analytical technique or specific laboratory work on an agreed analytical subject. Objective: Either doing a comprehensive literature survey or performing the experiments for a part of a scientific article. Requirements: Work report Evaluation: accepted / not accepted Prerequisites: As agreed Language: English
KE-35.6500 Systematic Material Design P (2 cr) 14 + 0 (2 + 0) IV, odd years Lecturer: Prof Maarit Karppinen Contents: The course covers new-material design, synthesis and on-demand tailoring tools such as combinatorial chemistry, statistical multivariate data analysis and layer-by-layer engineering of (multi)functional materials. Objective: The goal of the course is to provide the students with insights into modern methods and approaches of the design and precision synthesis of novel technologically attractive inorganic materials. Requirements: Active participation and an essay on a topical theme. Evaluation: Grade accepted/failed. Literature: Lecture handouts Prerequisites: KE-35.2500 Language: English KE-35.6510 Licentiate Seminar on Inorganic Chemistry P (12 cr) KE-35.9200 General and Inorganic Chemistry; (P, MT, for students of the degree programme of Forest Products Technology and Materials Science) (5 cr) KE-35.9210 Analytical Chemistry Laboratory course; (P, for students of the degree programme of Forest Procducts Technology) (3 cr) KE-35.9220 Principles of Chemistry; (R, for students of the degree programme of Civil and Environmental Engineering) (5 cr) KE-35.9600 Principles of Inorganic Instrumental Analysis; (MT, for students of the degree programme of Materials Science) (5 cr) KE-35.9610 Chromatographic and Capillary Electromigration Techniques (P for students of the degree programme of Forest Products Technology) P (4 cr) KE-35.9700 Principles of Chemistry; K, TU, AS (5 cr) KE-4.1100 Organic chemistry I (4 cr) KE-4.2100 Organic Chemistry II (3 cr) KE-4.2110 Organic chemistry, laboratory course 1 (3 cr) KE-4.2500 Organic Chemistry III (4 cr) KE-4.2510 Organic Chemistry, laboratory course 2 (3 cr) KE-4.3000 Special Project in Organic Chemistry (5 cr)
KE-35.6100 Postgraduate Research Seminar on Inorganic Chemistry P (2-3 cr)
KE-4.3100 Organic Chemistry IV (3 cr)
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Chemistry (P) (1-8 ocr) KE-4.4000 Research Project in Organic Chemistry (5 cr) KE-4.4100 Organic Structural Analysis (5 cr) KE-4.4110 Modern Synthetic Organic Chemistry (5 cr) KE-4.4520 Synthesis: Design and Databases (5 cr) KE-4.5100 Physical Organic Chemistry (3 cr) KE-4.5110 Heterocyclic Chemistry (3 cr) KE-4.5120 Medicinal Chemistry (3 cr) KE-4.5500 Asymmetric Synthesis (5 cr) KE-4.5510 Practical NMR Spectroscopy (3 cr)
Kem-31.154 Research Seminar on Physical Chemistry (P) (0-3 ocr) Autumn / Spring (As agreed) Lecturer: Prof Kyösti Kontturi Contents: Seminars concerning topics of current interest in electrochemistry, membrane electrochemistry or thermodynamics. In particular, these seminars focus on topics related to the ongoing research themes in our laboratory as well as other universities and industry. Recommended in particular for graduate students and final year undergraduates. Objective: Students present their own work for public discussion. Requirements: Lectures and seminar presentation. Literature: As agreed. Prerequisites: Kem-31.122/Kem-31.124 and/or Kem31.142 (compulsory) Language: English
KE-4.5520 Organometallic Chemistry (3 cr) Kem-31.151 Postgraduate Seminar on Physical
Kem-35.124 Research Project in Inorganic Chemistry (5 ocr)
Department of Materials Science and Engineering MT-0.1001 Experiment design and treatment of results (3 cr)
Individual study in English possible. MT-0.2106 Structural Defects in Materials (5 cr)
MT-0.1006 Chemical Thermodynamics and Fundamentals of Kinetics (7 cr) MT-0.1011 Principles of Materials Science (5 cr) MT-0.1016 Heat and Mass Transfer Principles (5 cr) MT-0.2101 Material Physics (5 cr) Spring (Period III-IV)(hours 45+30) Lecturer: Prof. Jari Koskinen Contents: Atomic structure and properties of materials. Physical basis of magnetic, optical, electrical, thermal etc. properties and surface phenomena. Requirements: Examination and exercise work. Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Literature: Rolf E. Hummel, Electronic Properties of Materials, 3rd edn, New York, Springer, 2003. Peter Wilkes, Solid State Theory in Metallurgy, Cambridge Univ., 1973. Leonid V. Azaroff & James Brophy, Electronic Processes in Materials, , New York, McGrawHill, 1963. Charles Kittel, Introduction to Solid State Physics, Hoboken, NJ, Wiley&Sons, 2005. M. Alonso-E. Finn, Fundamental University Physics II, Reading (MA), Addison-Wesley, 1983. Prerequisites: Completion of P-, O- and MT 100-1 modules are required before taking this course. Additional information: This course replaces the course Mak-45.126 Material Physics (4 ocr). See more http//:kerppu.hut.fi/opiskelu/materiaali. Language: Finnish. Course material available in English.
MT-0.2111 Principles of Phase Transformations (5 cr) MT-0.2116 Fundamentals of Forming Technology (5 cr) Spring (Period IV) (28+14 hours) Lecturer: Prof Seppo Kivivuori, Leif Eriksson, specialist teacher, Ahti Viljamaa, assistant. Contents: Basics of material formability testing methods and introduction to essential forming techniques. Examples of forming processes including massive deformation and sheet metal forming methods. Examples of computing methods for forming. Requirements: Examination. Exercise tasks. Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Literature: Compendium: Kivivuori, S., Muovaustekniikan perusteet (in finnish). Additional Reading: E.M.Mielnik, Metalworking Science and Engineering, McGraw-Hill, 1991. Prerequisites: Kul-49.2150 Mechanics of Materials I (5 cr) and MT-0.2106 Structural Defects in Materials (5 cr). Additional information: This course replaces the course Mak-65.110 Fundamentals of Forming Technology (2 ocr). Language: Finnish. Course materials also available in English. Individual study in English possible. Language: Finnish MT-0.2201 Basics of Materials Chemistry (5 cr) Autumn (Period I-II)(36+4 hours) Lecturer: Prof Mikhail Gasik (1 part, 2 cr), Jari Aromaa,
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Docent (2 part, 3 cr). Contents: (1) Principles of manufacturing metallic, ceramic and composite materials. Modern processing technologies and methods. Technological and economic issues in materials processing and properties. (2) Chemical and electrochemical interaction of materials and environments, the driving forces of these processes, equilibrium and factors controlling the reaction rates. The effect of interfaces on materials synthesis and destruction. Requirements: Study Journal and laboratory work. Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Literature: Compendium, literature surveys for different material groups. Prerequisites: Module MT 100-1. Additional information: This course replaces the courses Mak-77.125 High Temperature Processess of Inorganic Materials (4 ocr) and Mak-85.107 Materials Electrochemistry (2 ocr). Language: Finnish. Individual study in English possible.
electrochemical methods, solidification and precipitation, powder metallurgical processes, production of composite materials, functional and nano-materials are examined. Requirements: Lectures, examination, written report (in English), oral presentation in an international seminar. Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Literature: Compendium, seminar proceedings. Prerequisites: Module MT 202-2. Additional information: This course replaces the course Mak-37.145 Seminar Course on Advanced Metallurgical Processes (5 ocr). Language: Finnish. Individual study in English possible. Language: Finnish.
MT-0.2206 Surface phenomena (5 cr)
MT-0.3216 Process Engineering (5 cr)
MT-0.2211 Hydrodynamics (3 cr)
MT-0.3301 Basis for Corrosion Prevention (5 cr)
MT-0.2216 Unit processes and mechanisms (7 cr)
MT-0.3306 Surface Engineering (2 cr)
MT-0.3101 Materials Characterization (5 cr)
MT-0.3311 Manufacturing with Forming and Related Techniques (3 cr)
MT-0.3106 Transmission Electron Microscopy (2 cr) Spring (Period IV) (14+0 hours) Lecturer: Risto Toivanen, laboratory engineer. Contents: Principles of image formation, electron diffraction and contrast theory. Specimen preparation methods and principles. Applications of electron microscopy. Requirements: Examination. Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Literature: Compendium. Prerequisites: MT-0.1011 Principles of Materials Science (5 cr) and module MT 201-2. Additional information: This course obligatory before postgraduate studies. Language: Language: Finnish. Individual study in English possible.
MT-0.3206 Laboratory Exercises in Material Production (3 cr) MT-0.3211 Thermodynamic calculation in materials production systems (5 cr)
MT-0.3316 Heat Treatment of Materials (5 cr) MT-0.3321 Materials Design (5 cr) MT-0.3401 Recycling systems (10 cr) MT-0.3406 Recycling assignment (5 cr) MT-0.3411 Recycling laboratory exercise (5 cr) MT-0.4001 Fundamentals of solidification (3 cr) MT-0.4006 Solidification phenomena in materials production (4 cr)
MT-0.3111 Applied Materials Science (5 cr)
MT-0.4011 Simulation tools for materials production (5 cr)
MT-0.3116 Laboratory Exercises in Materials Science (3 cr)
MT-0.4016 Production of demanding metals and alloys (5 cr)
MT-0.3201 Materials production and synthesis (7 cr) Autumn (Period I-II)(56+40) Lecturer: Prof Lauri Holappa, Prof Olof Forsén, Prof Mikhail Gasik. Contents: Central processes for production of metals and inorganic materials with their common thermodynamic, kinetic, physical and electrochemical bases. The course consists of lectures and a seminar contribution. Pyro- and hydrometallurgical processes, chemical and
MT-0.4021 Special materials for materials production (3 cr) Autumn (Period I-II)(12+12 (3+3)) Lecturer: Prof Lauri Holappa, guest lecturers. Contents: Special materials which are needed in materials production, are introduced including materials properties and interaction in process conditions. Ceramic refractory materials, casting powders, covering powders and slag forming materials, mould materials etc are
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discussed. Interaction phenomena in process circumstances between these materials and liquid metals and slags, wear mechanisms and heat engineering properties are studied as well. Requirements: Lectures, exercises, examination. Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Literature: Will be announced at the beginning of the course. Prerequisites: MT-0.3201 Materials production and synthesis (7 cr). Additional information: This course replaces the course Mak-37.111 Refractory Materials in Metallurgical Industry (2 ocr). Language: Finnish. Individual study in English possible. MT-0.4506 Electronics materials (5 cr) MT-0.4516 Inorganic Composite Materials (3 cr) MT-0.4601 New Techniques for Processing Metals P (5 cr) MT-0.4606 Advanced Course on Working and Forming of Materials (5 cr)
Lecturer: N.N Contents: Course concentrates on theory and applications of computational fluid dynamics (CFD). These mainly include concervation equations, turbulence modelling, finite-volume method, solution algorithms, commercial software introduction, CFD applications in metallurgical processes. Requirements: Examination, exercises. Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Literature: An introduction to Computational Fluid Dynamics, by H.K. Versteeg and W. Malalasekera, 1995 (main reference book); Numerical Heat Transfer and Fluid Flow, S.V. Patanakar, 1980; Virtausten ja lämmönsiirron numeerinen mallinnus, Osa I Virtauksen yhtälöt, TKK-V-C131, T. Ahokainen, 1995; Virtausten ja lämmönsiirron numeerinen mallinnus, Osa II - Numeeriset menetelmät, TKK-V-C132, T. Ahokainen, 1995. Prerequisites: Modules MT 301-3 and MT 302-3 or MT 303-3. Additional information: This course replaces the courses MT-0.4716 Numerical Simulation of Complex Mass and Heat Transfer Processes (5 ocr). Language: Finnish and English. Individual study in English possible. Language: Finnish and english
MT-0.4611 Modelling and Simulation of Material Forming Processes P (2 cr)
MT-0.6001 Studying techniques (2 cr)
MT-0.4701 Computational Thermodynamics P (5 cr)
MT-0.6006 Effect of materials science on society (2 cr)
MT-0.4706 Powder Metallurgy and Composite Materials P (5 cr)
MT-0.6011 Corrosion Prevention Technology (5 cr) MT-0.6016 Electrochemical research methods (5 cr)
MT-0.4711 Special Materials Solutions P (5 cr) Spring (Period III-IV) (54+16 hours) Lecturer: Prof Mikhail Gasik (III, 3 cr), Markku Kaskiala, laboratory engineer (IV, 2 cr). Contents: 1 part - Special classes of inorganic materials and their special production methods are studied (hightemperature composites, biomaterials, thermal barrier coatings, materials for energy conversion and thermonuclear energy, FGM, etc.), aspects of materials selection and materials solution for industry. 2 part Materials behaviour, oxidation and stability at high temperatures. Requirements: Examination or seminar work. Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Literature: Lecture handouts and numerous literature surveys published. Prerequisites: Module MT 301-3, 302-3 or 303-3.. Additional information: This course replaces the course Mak-77.180 special course in Materials Processing (3 ocr) P. Language: Finnish. Individual study in English possible. Language: Finnish MT-0.4717 Computational Fluid Dynamics - Theory and Applications L (5 cr) Autumn (Period I-II) (20+2)
MT-0.6021 Fundamentals of Vacuum Technology, Thin Films and Metallurgical Coatings P (3 cr) MT-0.6024 New Materials (5 cr) MT-0.6026 Electron Microscopy (5 cr) MT-0.6031 Microsystems (3 cr) MT-0.6036 Individual study period (2-10 cr) I/II/III/IV Lecturer: professors: Olof Forsén, Mikhail Gasik, Kari Heiskanen, Simo-Pekka Hannula, Lauri Holappa, Seppo Kivivuori, Ari Lehto. Contents: The study period can include topics not covered by the regular curriculum. The contents and requirements for the individual study period have to be agreed upon by the teacher in charge. Requirements: Autumn + Spring (Period I-IV) Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Additional information: Language: Finnish. Individual study in English possible. Language: Finnish MT-0.6041 APD (Advanced Project Design) (12 cr)
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Autumn or Spring (Period I-II or III-IV) (4+92 0+6) hours) Lecturer: Prof Kari Heiskanen Contents: A development project on different subjects to be carried out to obtain a ready and working prototype or model. Projects focus is on materials technology and the topics are announced in the beginning of the first period. Projects are being performed at the final stage of the studies as a group work under supervision of a tutor. The group size depends on project scale and is normally 3-12 persons. Requirements: Groups are reporting the work progress in project meetings and are keeping project diary with tasks and time spent. Final project report is being done at final course seminar. Evaluated issues are feasibility of the solution(s), technical and group working performance and general academic skills. The project is carried out during two periods. Evaluation score is made as grades 05. Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Literature: project manual Additional information: Training about the project work is being given at the beginning of the course. Language: Finnish. Instruction also in English, if required. MT-0.7001 Fundamentals of Scientific Research P (1-2 cr) MT-0.7006 Postgraduate Seminar in Materials Science P (1-5 cr) Autumn (Period I-II)(10+20 hours) Lecturer: Antero Pehkonen, researcher. Contents: Guest lecturers will speak on current research topics related to Materials Science. Topics vary from year to year. Requirements: The requirements for the course on a case by case basis. Evaluation: Depending on seminar evaluation might be excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Prerequisites: M.Sc degree within the subject area. Additional information: This course replaces the course Mak-0.004 Postgraduate Seminar in Materials Science and Rock Engineering (1-3 ocr) P V. Language: Finnish. Individual study in English is possible. MT-0.7011 Postgraduate Seminar on Metallurgy P (35 cr) Autumn, spring 64+27 hours Lecturer: Prof Lauri Holappa. Contents: Experts from universities and industry give seminars concerning current issues in process metallurgy and its applications. The topics are different every year. Requirements: Autumn & Spring (Period I-II, III-IV) Evaluation: Excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0). Additional information: This course replaces the course Mak-37.119 Postgraduate Seminar on Metallurgy (3 ocr)
P V. Language: Finnish/English. Language: Finnish MT-0.7016 Postgraduate Seminar on Research Activities in Metallurgy P (2-5 cr) Autumn, spring (27+27 hours) Lecturer: Prof Lauri Holappa. Contents: This course goes into research activities in process metallurgy. The topics vary from year to year. The course includes seminars, plant excursions and laboratory demonstrations. Requirements: Autumn & Spring (Period I-II, III-IV) Evaluation: Depending on seminar evaluation might be excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) or fail (0) or pass / fail. Additional information: This course replaces the course Mak-37.120 Postgraduate Seminar on Research Activities in Metallurgy (2 ocr) P V Language: Finnish/English. Language: Finnish MT-0.7021 Postgraduate Seminar on Physical Metallurgy and Materials Science P (3-6 cr) MT-0.7026 Postgraduate Seminar on Mechanical Process Engineering P (3 cr) Autumn (20+0 hours) Lecturer: Prof Kari Heiskanen. Contents: Course with varying content. Deals with latest developments and special questions in mechanical process engineering Requirements: Autumn (Period I-II) Evaluation: Depending on seminar evaluation might be excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) and fail (0) or pass / fail. Additional information: This course replaces the course Mak-46.151 Postgraduate Seminar on Mechanical Process Engineering (2 ocr) P V Language: Finnish or English. Individual study in English possible. MT-0.7031 Seminar on Materials Technology P (3 cr) MT-0.7036 Graduate Seminar on Processing and Heat Treatment of Materials P (3-7 cr) MT-0.7041 Postgraduate Seminar in Materials Processing P (2-5 cr) Autumn & Spring (Period I-II, III -IV) (27+0 hours) Lecturer: Prof Mikhail Gasik Contents: Special questions on materials processing (varying content). Requirements: Seminar work or examination. Evaluation: Depending on seminar evaluation might be excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) and fail (0) or pass / fail. Literature: Individually selected Additional information: This course replaces the course Mak-77.152 Research Seminar in Materials Processing (2 ocr) P V. Language: Finnish or English. Individual study in English possible. Language: Finnish
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MT-0.7046 Thermodynamics of Alloys and Solutions; special course P (4 cr) MT-0.7051 Numerical Simulation of Fluid Flow and Heat Transfer P (5 cr) MT-0.7056 Special Course in Materials Technology P (5 cr) Spring (Period III-IV) Lecturer: Prof Mikhail Gasik. Contents: Special classes of inorganic materials and their specific production methods are studied (hightemperature composites, materials for smart technologies and thermonuclear energy, FGM, etc.), aspects of materials selection and materials solution for industry. Requirements: Examination or seminar work. Evaluation: Depending on seminar evaluation might be excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) and fail (0) or pass / fail. Literature: Lecture handouts and numerous literature surveys published. Prerequisites: Mak-77.125. Additional information: This course replaces the course Mak-77.180 Special Course in Materials Technology (3 ocr) P. Language: Finnish. English on demand. MT-0.7061 Research Seminar on Material Chemistry P (2-5 cr) Autumn + Spring (Period I-IV) Lecturer: Olof Forsén
Contents: Review of current topics. Critisism of research methods and results. Requirements: Examination or written report. Evaluation: Depending on seminar evaluation might be excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) and fail (0) or pass / fail. Literature: As agree. Additional information: Language: Finnish. Individually study in English possible. This course replaces the course Mak-85.631 Research Seminar on Material Chemistry (3 ocr) P. Language: Finnish MT-0.8001 Graduate School on New Materials and Processes P (2-10 cr) Autumn + Spring (Period I-IV) Lecturer: Prof Lauri Holappa and responsible professors. Contents: Courses with varying content are given by guest lecturers and graduate school teachers. Requirements: The requirements for each course are defined by the responsible teacher (participation, exam, literature work). Evaluation: Depending on seminar evaluation might be excellent (5), very good (4), good (3), very satisfactory (2), satisfactory (1) and fail (0) or pass / fail. Literature: Defined case by case. Additional information: Language: English, in specific cases Finnish. MTE.kand Bachelor’s Thesis and Seminar (10 cr)
Department of Forest Products Technology Puu-0.1000 Introduction to Forest Products Technology (2 cr) Puu-0.1007 Work Safety () (Period) autumn, spring Lecturer: Heikki Tulokas Contents: The course provides students with principles of work safety legislation, first aid and working safely in the Department of Forest Products Technology. Requirements: Attendance at lectures, examination. Literature: To be announced during the lectures. Language: Finnish and English Puu-0.4000 Master’s Thesis in English (2 cr) (Period III-IV) spring Lecturer: Jaana Suviniitty Contents: This course is for Forest Products students working on their Master’s Thesis. This course focuses on the formal language of journal articles, conference papers, and theses. During the course, students are introduced to important features of academic writing, including audience, purpose, organization, and style. Students also collect sample research articles from their own field for analysis and report on their findings. The course is organized as a small group workshop.
Language: English Puu-0.5000 Economics of Forest Products Industry (4 cr) (Period) autumn Lecturer: Magnus Diesen Contents: The course provides a global perspective on pulp and paper industry. The main topics covered include: Information of forest industry raw material resources, markets and energy, as well as the worldwide structure and various strategies within the industry. Evaluation of the economic consequences resulting from the decisions made in a pulp or paper mill. Analyses of company profitability and pulp and paper industry competitiveness in different countries. Analysis of alternative investments with various criteria and selection of the best one in a given situation. Requirements: Examination Literature: Economics of the Pulp and Paper Industry, 2007 (ed. Magnus Diesen), Fapet Language: English Puu-127.1000 Principles of Environmental Technology (3 cr)
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Puu-127.4000 Industrial Environmental Engineering (4 cr) Puu-127.4010 Environmental Management (2 cr) 8 + 13 IV Lecturer: Gary Watkins Contents: A broad based introduction to the practical aspects of environmental management in businesses and achieving the objective of continuous improvement in the reduction of significant environmental impacts. Challenges to industry in the context of sustainable development and tools to aid organizational responses. Environmental management systems, the ISO 14000 standards and the application of ISO 14001 and EMAS, the role of life cycle assessment tools (LCA), ecolabelling, and environmental permitting (IPPC). Computer based exercises covering construction of a simple LCA model for a paper industry product and a critical review of a commercially available interactive environmental management system computer based training package. Requirements: Exam and exercises. Literature: Environmental Management in Organizations, The IEMA Handbook, Earthscan, London, 2005, handouts and other literature to be announced during the lectures. Prerequisites: Puu-127.1000. Web page: https://noppa.tkk.fi/noppa/kurssi/puu127.4010/ Language: English Puu-127.4020 Process Water Treatment (3 cr) 20 + 6 II Lecturer: Prof Olli Dahl Contents: Treatment of industrial process and white water, wastewater treatment and reuse of treated water. The course will assist in dimensioning and equipment selection for process and wastewater treatment systems. Requirements: Examination and an exercise. Literature: Lecture slides, exercise and guest lecture handouts. Eckenfelder, W.W.Jr. Industrial Water Pollution Control, McGraw International. EU Thematic Network on Industrial Liquid Effluents (ILE), Guide Book for the Treatment of Industrial Liquid Effluents. Prerequisites: Puu-127.1000. Web page: https://noppa.tkk.fi/noppa/kurssi/puu127.4020/ Language: English Puu-127.4030 Process Water Analysis (2 cr) 4 + 20 IV Lecturer: Mikko Martikka Contents: Industrial process water or wastewater analysis exercises using standardized and applied methods. The course is intended to familiarize the students with the special properties of process and wastewaters in process industry and the water quality demands in receiving waters. The objective is to improve practical working and to learn critical assessment and evaluation of results with report presentation. Requirements: Pre-exam, group laboratory exercises and
report presentation. Prerequisites: Puu-127.4020, Puu-0.1007 (mandatory). Web page: https://noppa.tkk.fi/noppa/kurssi/puu127.4030/ Language: English Puu-127.4040 Environmental Technology in the Pulp and Paper Industry P (4 cr) 24 + 10 I Lecturer: Prof Olli Dahl, Gary Watkins Requirements: Exam and exercise. Literature: Lecture slides and exercise group reports. Springer, A.M. Industrial Environmental Control, Pulp and Paper Industry, TAPPI Press. Papermaking Science and Technology part 19 Environmental Control (ed. Hynninen, P), Fapet, Helsinki, 1998. Prerequisites: Puu-127.1000. Web page: https://noppa.tkk.fi/noppa/kurssi/puu127.4040/ Language: English Puu-127.4050 Special Study in Environmental Technology (4 cr) Puu-127.5000 Control of Regional and Global Environmental Impacts (3 cr) 20 + 0 III Lecturer: Ilkka Savolainen, Docent Contents: Activities producing emissions, environmental impacts and their mutual dependences, emission control by technical and structural measures, costs. Choosing management strategies by using system studies, e.g. concerning acidification and greenhouse effect. Requirements: lectures and exam. Literature: Lecture slides, Watson, R et al. (eds.), Climate Change 2001: Synthesis Report. Cambridge University Press, Cambridge, UK and New York, USA, 2001. Prerequisites: Puu-127.1000 recommended. Web page: https://noppa.tkk.fi/noppa/kurssi/puu127.5000/ Language: English Puu-127.9000 Environmental Protection Technology in the Pulp and Paper Industry LP1 (3 cr) 24 + 10 I Lecturer: Prof Olli Dahl, Gary Watkins Contents: This course is intended for students participating in the international Linkage Program at TKK. The course will be delivered as a part of Puu127.4040 Environmental Technology in the Pulp and Paper Industry. Requirements: Exam and exercise with seminar presentation. Literature: Lecture slides and exercise group reports. Springer, A.M. Industrial Environmental Control, Pulp and Paper Industry, TAPPI Press. Papermaking Science and Technology part 19 Environmental Control (ed. Hynninen, P), Fapet, Helsinki, 1998. Web page: https://noppa.tkk.fi/noppa/kurssi/puu127.9000/
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Language: English Puu-19.1000 Structure and Chemistry of Wood (4 cr) Puu-19.1010 Laboratory Exercises in Forest Products Chemistry (2 cr) (0+54) III-IV Lecturer: Prof. Tapani Vuorinen, assistants Contents: An overview to the most common basic analysis methods used in forest products chemistry. Complements the course Puu-19.1000. Requirements: laboratory work, laboratory diary, seminar Prerequisites: Puu-0.1007, Kem-35.9200, Kem-35.1300, Kem-4.1100 Language: Finnish, (English as agreed) Puu-19.2000 Macromolecules, surfaces and colloids (4 cr) Puu-19.3000 Chemistry of Pulping and Bleaching (5 cr) 36+0 (4+0) III-IV Lecturer: Prof. Tapani Vuorinen, Anna-Stiina Jääskeläinen, D.Sc (Tech.) Contents: Principles of the chemistry of digestion and bleaching. Provides the students with the ability to understand and develop the chemistry of the processes. Modelling exercises of the pulping and bleaching processes by means of chemical reactions and reaction kinetics. Literature: Compendium Prerequisites: Puu-19.1000, Puu-23.2000 Language: English Puu-19.3010 Chemistry of Papermaking (4 cr) (36+0) II Lecturer: Prof. Janne Laine Contents: Fundamental mechanisms of chemistry in papermaking, with emphasis on surface and colloid chemistry. Requirements: Examination Literature: Forest Products Chemistry (ed. P. Stenius), FAPET 2001, chapter 4. Course notes and scientific papers. Prerequisites: Puu-19.2000 Language: English Puu-19.4000 Chemical analysis in pulp and paper industries (4 cr) (24+60) I,II Lecturer: Prof. Tapani Vuorinen, Prof Janne Laine, Raili Pönni, M.Sc Contents: An overview of the chemical analysis methods used in the pulp and paper industries. The course covers the most common chromatographic and spectroscopic methods and their applications at pulp mill, water treatment, and paper machine wet-end. In addition, the course includes the chemical on-line analytics. The course is arranged in co-operation with KCL College. Requirements: Examination, group work and laboratory work
Literature: Compendium Prerequisites: Puu-19.1000, Puu-19.2000 Language: English Puu-19.4010 Chemical characterisation of wood and paper products (4 cr) (24+60) III, IV Lecturer: Eero Kontturi Ph.D., Anna-Stiina Jääskeläinen D.Sc. (Tech.), Leena-Sisko Johansson Ph.D Contents: An overview of chemical characterisation of wood and paper products. The course covers the application of modern analytical methods for packaging materials as well as paper and wood products. The emphasis of the analysis is set on the influence of the chemical composition on the usage of the materials. The principles of the methods are covered qualitatively. The applications are examined from the perspective of both the production and the researcher. The course is arranged in co-operation with KCL College. Requirements: Examination and laboratory work Literature: Compendium Prerequisites: Puu-19.1000, Puu-19.2000 Language: English Puu-19.4020 Surface Chemistry and Nanotechnology in Forest Products Technology (3-4 cr) (36+26) III-IV Lecturer: Prof. Janne Laine, Monika Österberg, PhD, assistants Contents: Basic properties of surfaces and colloids and experimental research methods to study these. Utilization of nanotechnology in forest products technology. Surface energy, wetting and spreading. Surface forces and their effect on dispersing of particles. Surface modification using polymers. Rheology of colloidal dispersions. Requirements: Examination and laboratory assignments Literature: Lecture notes, Hunter, R.J., Introduction to Modern Colloid Science Prerequisites: Puu-19.2000 Language: English Puu-19.4030 Advanced Surface and Colloid Chemistry in Forest Products Technology (4 cr) (25+0) III-IV Lecturer: Prof. Janne Laine Contents: Colloid and surface chemistry applications in paper technology, coating and printing. Requirements: Group work Literature: Scientific papers Prerequisites: Puu-19.4020, Puu-19.3010 Language: English Puu-19.4040 Forest Products Chemistry, laboratory course (4 cr) Autumn, Spring Lecturer: Prof. Tapani Vuorinen, Prof Janne Laine, assistants Contents: Individual laboratory task, leading to a deeper knowledge of experimental methods used in forest products chemistry . Requirements: Laboratory assignment
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Literature: As agreed Prerequisites: Puu-19.1000, Puu-19.2000 Language: Finnish, English Puu-19.4050 Forest Products Chemistry, literature course (4 cr) Autumn, Spring Lecturer: Prof. Tapani Vuorinen, Prof Janne Laine, assistants Contents: Individual literature survey, leading to a deeper knowledge in forest products chemistry. Requirements: Literature survey Literature: As agreed Prerequisites: Puu-19.1000, Puu-19.2000. Language: Finnish, English Puu-19.5000 Forest Products Chemistry (4 cr) (30+0) I-II Lecturer: Prof. Tapani Vuorinen, Anna-Stiina Jääskeläinen, D.Sc (Tech.) Contents: The wood in a living tree is composed of specialized tissues and cells for growth, metabolism and storage, water transport and mechanical support. The cells are glued together with lignin. Biogenesis of the wood cell wall follows a peculiar pathway leading to an intelligent composite structure of cellulose, hemicelluloses and lignin. Strong, anisotropically oriented cellulose microfibrils are embedded in a matrix of lignin and hemicelluloses that control the water content and viscoelasticity of the cell wall. In addition to the cell wall polymers, wood contains extractives that preserve it against microbes and serve as a reserve of carbon and energy. In this course the different aspects in the structure, chemistry and functions of wood are discussed in details with links to their technical importance in forest products technology. Requirements: Examination Literature: To be announced during the lectures. Language: English Puu-19.6000 Chemistry of Forest Products Technology, postgraduate seminar P (2 cr) (10+0) I-IV Lecturer: Prof. Tapani Vuorinen Contents: Seminars on ongoing research in forest products chemistry. Prerequisites: M.Sc. (Tech) degree Language: English Puu-21.2000 Basics of Paper Technology (4 cr) Puu-21.3000 Coating Technology (5 cr) 36 + 6 I Lecturer: Prof Jouni Paltakari Contents: Basics of pigment coating of paper. Components of coating colour, preparation of coating colour, coating methods, drying, and calendering of coated paper and board. Properties of coating colour and coating layer, the effect of coating on the properties of paper and board. The course includes guided laboratory group work.
Requirements: Exam, laboratory task. Literature: Papermaking Science and Technology volumes 11, Pigment Coating and Surface Sizing (ed. E. Lehtinen) and 10, Papermaking Part 3, Finishing (ed. M. Jokio), selected parts. Other material will be announced during the lectures. Prerequisites: Puu-21.2000. Before starting the laboratory work Puu-0.1007. Language: English Puu-21.3010 Fibre and Paper Physics (5 cr) 40 + 25 I-II Lecturer: Prof Hannu Paulapuro Contents: The course will show how fibre and paper physics can be applied for the better understanding and development of pulping and papermaking technology. The course demonstrates the diversity in fibre raw materials, pulps/pulp fractions and fill¬ers showing their effect on the structural, optical, surface and strength properties of paper and board. The course covers the fundamentals of paper optics, strength and dimensional stability. Laboratory tasks are included. Requirements: Exam, laboratory tasks. Literature: Papermaking Science and Technology, Vol. 16, Paper Physics (ed. K. Niskanen). Other material will be announced during the lectures. Prerequisites: Puu-21.2000. Before starting the laboratory work Puu-0.1007. Language: English Puu-21.3020 Basics of Printing Technology (4 cr) 28+ 12 I-II Lecturer: Jukka Sahivirta Contents: The course will deal with the basics of producing a printed product. The student will learn the how a photo is reproduced on a paper and why does a print look better on a coated paper than on an uncoated paper. It will also be seen how an image is formed in different printing methods and what are the paper demands in these methods. Other subjects are how is the print paper finished into a printed product, how can the print method be identified from a printed product, how is it possible to predict paper performance in laboratory and what are the future prospects and paper’s competing medias in information transfer. Requirements: Exam, laboratory tasks. Literature: Papermaking Science and Technology, Vol. 13, Oittinen, P. Saarelma, H. Printing, to the appropriate extent and handouts from lectures. Prerequisites: Puu-21.2000. Before starting the laboratory work Puu-0.1007. Language: English Puu-21.3030 Recycled Fibres and Deinked Pulps (2 cr) IV Lecturer: N.N. Contents: This course’s target is to give the student an overall view on recycled fibre material, deinking process and the other required stock preparation processes. Properties of recycled fibres and products made out of this fibre material are discussed.
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Requirements: Exam Literature: Announced on course web pages Prerequisites: Puu-21.2000 Language: English. Puu-21.4000 Mechanical Pulping (4 cr) 25 + 10-15 II Lecturer: Prof Hannu Paulapuro Contents: Mechanical pulping from raw materials to end use. Mechanical pulping process is discussed containing defibration, screening, cleaning and reject refining as well as bleaching. The course includes a literature work performed in groups. Requirements: Exam, literature work Literature: Papermaking Science and Technology, Vol. 5 Mechanical Pulping (ed. J. Sundholm). Additional material is informed during the lectures. Prerequisites: Puu-21.2000. Puu-21.3010 recommended. Language: English. Puu-21.4010 Paper Manufacturing Technology (5 cr) 45 + 5-10 III-IV Lecturer: Prof Hannu Paulapuro Contents: The purpose of the course is to give the student a detailed understanding of the paper manufacturing process from beating to reeling, winding and calendering of the paper web. The course includes simulation exercise and excursion/education at the paper mill. Requirements: Exam, simulation exercise. Requirements: Exam, simulation exercise. Literature: Selected parts of the book series Papermaking Science and Technology. Other material will be announced during the lectures. Prerequisites: Puu-21.2000, Puu-21.4000. Puu-21.3010 recommended. Language: English Puu-21.4020 Paper Chemistry (4 cr) 30 + 30 IV Lecturer: Raimo Alén Contents: The aim of the course is to introduce the student to the concepts of surface and colloid chemistry, the surface chemistry of fibres and additives and to the fillers and additives used in papermaking. Laboratory and literature group work are included. Requirements: Exam, literature and laboratory task. Literature: Papermaking Science and Technology vol 4 Papermaking Chemistry (ed. R. Alén). Prerequisites: Puu-19.1000, Puu-19.2000, Puu-21.2000, Puu-21.3010. Recommended also Puu-21.4000 and Puu21.4010. Before starting the laboratory work Puu-0.1007. Language: English Puu-21.4030 Paper Technology, laboratory course (7 cr) 0 + 200 I, II, III, IV Lecturer: Kirsi Keskinen Contents: The aim of the course is to deepen students’ knowledge about paper technology and practise their ability to solve problems about their own area through individual laboratory and literature studies.
Prerequisites: Module P202-2, Puu-21.4000, Puu21.4010. Language: Finnish, English Puu-21.4050 Paper Converting Technology (7 cr) 44 + 40 II Lecturer: Prof Jouni Paltakari Contents: The purpose of the course is to provide the students with theoretical and technological background of converting and converted products. In addition, the basics of unit operations within the converting industry will be studied. Team work and excursion. Requirements: Exam, team work Literature: Papermaking Science and Technology, vol. 12, Paper and Paperboard Converting (ed. J. Kuusipalo), Fapet. Other material will be announced during the lectures. Prerequisites: Puu-21.2000. Recommended Puu-21.3000 and Puu-21.3010. Before starting the laboratory work: Puu-0.1007. Language: English. Puu-21.4060 Packaging Technology (5 cr) 20 + 20 IV Lecturer: Prof Jouni Paltakari Contents: Introduction to the functions of packages, to the stresses during the use of packages, to the unit operations in packaging and to the basics of packaging design and logistics. Team work. Requirements: Exam, team work. Literature: To be announced on course webpages. Prerequisites: Puu-21.4050 recommended. Language: English. Puu-21.4070 Paper Converting Technology, laboratory course (8 cr) 0 + 220 I, II, III, IV Lecturer: Suvi Katajamäki Contents: Individual and group laboratory studies in paper and paperboard converting. Prerequisites: Module P202-2, Puu-21.4050. Puu21.4060 recommended Language: English Puu-21.4100 Printing Machines and Materials (8 cr) 40+ 30 III-IV Lecturer: Jukka Sahivirta Contents: The course will concentrate on conventional and digital printing processes and materials that are used in these. The students will learn the unit operations in printing presses, what is the composition of ink in different printing methods and how ink raw materials affect its functional properties, what are the important paper properties that affect ink transfer and drying, what kind of varnishes and glues are used in coating and binding. Requirements: Exam, laboratory tasks. Literature: Kipphan, H., 2001: Handbook of Print Media, Springer, to the appropriate extent and handouts from lectures. Prerequisites: Puu-21.3020. Before starting the laboratory
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work Puu-0.1007. Language: English Puu-21.4110 Printability and Runnability (5 cr) 30+ 15 IV Lecturer: Jukka Sahivirta Contents: The course will deal with interactions in printing processes. Ink transfer, setting and drying are dynamic phenomena that are affected by the conditions in printing press and properties of ink, paper and other printing materials. The students will learn how these interactions affect print quality and how paper runs through the press. The target is that the student can develop paper grades for different printing processes and solve problems in printing process. Requirements: Exam, laboratory tasks. Literature: Will be announced on home page of the course. Prerequisites: Puu-21.3020. Puu-21.4000 recommended. Before starting the laboratory work Puu-0.1007. Language: English Puu-21.4120 Printing Technology, Laboratory Course (7 cr) 0+ 200 I, II, III, IV Lecturer: Timo Hartus Contents: The target is that the student will get acquainted with the printing technology through individual literature reviews and experimental laboratory tasks. Prerequisites: Module P202-2, Puu-21.4100, Puu21.4110 Language: Finnish, English Puu-21.6000 Postgraduate Seminar on Paper Technology P (2-5 cr) 8 - 24 + 0 I-IV Lecturer: Prof Hannu Paulapuro Contents: Current research topics and postgraduate projects are discussed in this seminar. Each postgraduate student reports the progress of his/her study. Prerequisites: M.Sc. (Tech.) degree Language: Finnish, English Puu-21.9000 Introduction to Pulp and Paper Industry (2 cr) 22+ 0 I (period) Lecturer: Prof Hannu Paulapuro Contents: The purpose is to give the students an overall view of the pulp and paper industry and its technological base. The course discusses raw materials used, the principles and main features of the unit processes of pulping and papermaking as well as the main end products. Literature: Material will be announced during the lectures Language: English Puu-23.1000 Defibration Technology in the Forest Industry (2 cr)
Puu-23.2000 Principles of Pulping Processes (4 cr) Puu-23.3000 Chemical Engineering in Pulp and Paper Processes (6 cr) (Period III) spring Lecturer: Juha-Pekka Pokki Contents: The purpose is to give basic understanding to apply chemical engineering principles and modelling and calculation methods for the most essential unit processes of pulp and paper manufacturing. The course discusses the flow dynamics and heat and mass transfer as well as the unit operations for systems com¬posed of chip and fibrous materials. Calculation exercises and homework give additional support to the practical aspects of the course. Literature: Compendium. Prerequisites: Kem-42.102/1700, Puu-21.2000 and Puu23.2000. Language: English. Puu-23.3010 High Yield Pulping (3 cr) (Period III) Spring Lecturer: Marjo Määttänen Contents: The course provides an overview to high yield pulping technology, their end uses and comparison to mechanical and chemical pulps. High yield pulps combine mechanical and chemical pulping. The pulps are for example high yield kraft pulps, “kraftliner”-pulp, semichemical NSSC and chemime¬chanical CTMP pulps. Teaching methods used are lectures, group exercises and laboratory assignments. Literature: Papermaking Science and Technology, Vol. 5, Mechanical Pulping (selected parts). Other material will be given during the lectures. Prerequisites: Puu-23.2000, Puu-21.2000. Language: English. Puu-23.3020 Pulping Process Exercises (3 cr) Autumn + Spring Lecturer: Prof N.N. Ville Ali-Rekola. Contents: Students familiarize themselves with kraft pulp mill processes and mill unit by using fibre, chemicals and energy balance calculation. Some literature work is also included and sim¬ulation exercise. Prerequisites: Puu-23.2000 (compulsory), Puu-23.3000 (recommended). Language: English. Puu-23.4000 Pulp Mill Fibre Line Processes (5 cr) (Period IV) Spring Lecturer: Prof. Herbert Sixta. Contents: The target is to provide in-depth knowledge of the fibre line processes. The course emphasizes cooking and bleaching taking account both mill processes in practise and also under research. The course includes modelling and simulation assignments. Literature: Papermaking Science and Technology, Vol. 6, Chemical Pulping (ed. J. Gullichsen and C.-J. Fogelholm), Fapet, Helsinki 2000 (selected parts). Prerequisites: Puu-23.2000, Puu-23.3000. Language: English.
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Puu-23.4010 Pulp Mill Chemicals Recovery and Energy Processes (5 cr) (Period II) Autumn Lecturer: Kari Parviainen Contents: The course provides in-depth knowledge on pulp mill’s spent liquors, evaporation, combustion and regeneration of active chemicals. The course covers the preparation of bleaching chemicals and organic byproducts. In addition intra-process energy and environmental protection issues are presented. Some assignments are included. Literature: Papermaking Science and Technology, Vol. 6, Chemical Pulping (ed. J. Gullichsen and C.-J. Fogelholm), Fapet, Helsinki 2000 (selected parts). Prerequisites: Puu-23.2000, Puu-23.3000. Language: English. Puu-23.4020 Modeling and Simulation of Pulp Washing and Chemical Cycle (3 cr) (Period IV) Spring Lecturer: Pekka Tervola. Contents: The course provides an overview on the black liquor and chemical system of modern kraft pulp mills. Theory, modelling and simulation of pulp washing and washer systems as well as forming and simulation of chemical balances are covered. In addition, the behaviour, accumulation and control of NPEs (non process elements) are presented. The course includes compulsory practical exercises. Literature: To be given during the lectures and exercises. Prerequisites: Puu-23.4000, Puu-23.4010. Language: English. Puu-23.4030 Pulping Technology Research Project (7 cr) Autumn + Spring Lecturer: Marjo Määttänen. Contents: Individual but at the same time supervised research project from current topic within pulping technology. Definition of research problem, design of experiments, laboratory exercises, processing and evaluation of results and reporting are included. Prerequisites: Puu-23.3020, Puu-23.4000 and Puu23.4010. Language: English. Puu-23.5000 Planning and Execution of Pulp and Paper Investment Project (3 cr) Autumn Lecturer: Raimo Kaunismäki Contents: Project planning and management. A part of the lectures are compulsory and are arranged in consultancy firm. Literature: Pelin R. Projektinhallinnan käsikirja or Robert L. Kimmons Project Management Basics: A Step by Step Approach. Prerequisites: Puu-21.2000 and Puu-23.2000. Language: English.
(Period II) Autumn Lecturer: Prof Herbert Sixta. Contents: The course provides students with basic knowledge of pulp production technology. The areas comprise forest resources, wood species, harvesting and logistics, wood yard, fibre line, and chemicals and energy recovery processes. The course includes laboratory exercises. Literature: Recommended textbook: Papermaking Science and Technology, books 6A and 6B, selected chapters given in the lectures, Fapet Oy, PI/TAPPI, 1999. Prerequisites: Before starting the laboratory work: Puu0.1007. Additional information: This course is part of Linkage Program 1. Language: English Puu-23.9010 Project Work (4 cr) Spring (Summer) Lecturer: Prof. Herbert Sixta Contents: As the finishing part of the linkage program year students carry out an individual project work which includes a technical report and presentation. The project work is most often found at forest industry companies, as a summer trainee work, or it can be carried out in research labs or as personal literature study. The subjects can cover widely all areas of forest industry, products, processes and business. Additional information: This course is part of Linkage Program 1. Language: English. Puu-28.1000 Introduction to Wood Technology (3-7 cr) I, II, III, IV Lecturer: Pia Lahti. Contents: Self-educating introduction course to wood technology for those that need basic information of wood technology. Year around course. No lectures. Study repor(s) and oral exam. Option for written exam. Literature: Wood handbook -Wood as an engineering material. Hoadley, B.: Understanding wood: a craftman’s guide to wood technology. Other additional literature can be defined when the course starts. Additional information: Language: English. Puu-28.2000 Introduction to Forestry (4 cr) Puu-28.2005 Basics of Wood Product Industry Production Processes (2 cr) Puu-28.2011 Applications of Wood Science (2 cr) Puu-28.2020 Application Characteristics of Wood (4 cr) Puu-28.2030 Woodworking Theory (4 cr) Puu-28.2040 Woodworking Applications (4 cr)
Puu-23.9001 Pulping Technology (4 cr)
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Puu-28.3000 Moisture Content and the Drying of Wood (4 cr) 38 + 28 II Lecturer: Pia Lahti Contents: The course provides students with basic knowledge of moisture and its changes in wood and also principles of wood drying. Requirements: Lectures, examination, practical exercises and assignments. Literature: To be announced during the lectures. Prerequisites: Puu-28.2020, Puu-28.3010. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.3000 Language: English Puu-28.3010 Production Processes in Wood Product Industry (4 cr) 30 + 30 I Lecturer: Prof Mark Hughes Contents: The course aims to introduce students to the various production processes used in the wood product industry both in Finland and abroad. The course focuses on primary production processes used in the manufacture of wood-based panels, such as particleboard and medium density fibreboard, as well as engineered wood products like plywood, OSB, LVL and glulam. Sawn products are also covered. Topics covered include: the influence of raw material and process parameters on final material properties; pressing physics in wood-based panel production; pressurised refining and blowline blending. The course includes laboratory practical work Requirements: Lectures, assignments, exam and excursion Literature: Maloney, Thomas M., Modern particleboard & dry-process fibreboard manufacturing. Other material will be announced. Prerequisites: Puu-28.2020, Puu-28.2040. Or by prior agreement with the teacher. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.3010 Language: English Puu-28.3020 Wood Product Markets (2 cr) 14 + 40 I Lecturer: Annika Mauno Contents: The objective of the course is to provide the basics of wood products, their producers and market areas. The course presents the competitive situation of Finnish wood products industry and factors that affect the use of wood in different market areas. Requirements: Practical exercises and assignments, lectures. Literature: To be announced during the lectures. Prerequisites: Puu-28.2000 Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.3020 Language: English Puu-28.3030 Wood Bonding (4 cr) 32 + 24 II Lecturer: Anti Rohumaa Contents: The course provides students with bonding theories of wood. In more detail the course concentrates on wood adhesives, their properties and usage, bonding
technology, required properties of bonded wood, common defects, testing of bond line, requirements and standards. Requirements: PBL, examination, excursion and practical exercises and assignments. Literature: To be announced during the lectures. Prerequisites: Puu-28.3000 Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.3030 Language: English Puu-28.3040 Wood Coating (2 cr) 16 + 18 III Lecturer: Anti Rohumaa Contents: The course provides students with knowledge of wood coating techniques, properties of coating materials and its usage, common defects, requirements and testing. Requirements: Lectures, practicalwork and personal report. Literature: To be announced during the lectures. Prerequisites: Puu-28.3030 Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.3040 Language: English Puu-28.3050 Wooden Structure Joints P (4 cr) 24 + 24 IV Lecturer: Matti Kairi Contents: Mechanical and moisture technical properties of wood and wood-based materials and their affect on design of constructions and wood products. Mechanical joints and special joints. Requirements: Lectures, examination, practical exercises and assignments. Literature: Compendium. Timber Engineering STEP1 & STEP 2. Other material will be announced later. Prerequisites: Puu-28.3030 Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.3050 Language: English Puu-28.4001 Wood Modification P (3 cr) 32 + 40 III Lecturer: Prof Mark Hughes, Pertti Viitaniemi Contents: The course aims to provide students with an introduction to current and emerging technologies aimed at modifying one or more of the properties of wood by mechanical, chemical, physical or biological means. Topics covered include: approaches to modifying the properties of wood; assessing the performance of modification; mechanical modification; thermal modification; modification by impregnation; surface modification; chemical modification. The course consists of a series of formal lectures, demonstrations and practical assignments. Requirements: Lectures, examination, practical exercises and assignments. Literature: Hill, Callum. Wood Modification: Chemical, Thermal and Other Processes. Other material will be announced. Prerequisites: Puu-28.3000, Puu-28.3040. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.4001 Language: English
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Puu-28.4011 Production Process Analyses (3 cr) 6+80 I + II Lecturer: Toni Antikainen Contents: Students are assigned an individual project work in co-operation with wood industry. The project can also be carried out independently. Requirements: Project work Prerequisites: Mat-2.2620, Mat-2.2103, Puu-28.3010. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.4011 Language: English Puu-28.4020 Production Investment Planning (4 cr) 28 + 60 IV Lecturer: Pia Lahti Contents: The objective is to make students familiar with the principles of economic feasibility analysis plus facility planning in mechanical wood industry. After the course students are capable to make economic calculations of investment. Students will learn about all phases of facility planning process and the most common methods used within these phases. Students will develop a project plan. Requirements: Examination and assignment. Literature: Ritzman & Krajewski: Foundations of Operations Management. Prentice Hall 2003. Prerequisites: Puu-28.3010 Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.4020 Language: English Puu-28.4040 Developing Competitive Wood Products P (4 cr) 20 + 50 II Lecturer: Prof Matti Kairi Contents: Methods of R&D in developing competitive wood products. How the R&D connects and business and marketing as well as using the key technology model? The course presents and compares R&D projects in Finnish wood products industry. Requirements: Lectures, assignment and exam. Literature: To be announced during the lectures. Prerequisites: Puu-28.4000, Puu-28.4030. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.4040 Language: English Puu-28.4050 Marketing Wood Products (2 cr) 10 + 50 I+II Lecturer: Annika Mauno Contents: The objective of the course is to provide practical understanding of wood product marketing and its special issues. The course presents marketing examples of wood product industry and factors that affect them. An annually changing theme. Requirements: Pre-examination, project assignment, lectures and excursion. Literature: To be announced during the lectures. Prerequisites: Puu-28.3020. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.4050 Language: English Puu-28.4060 Advanced Biocomposites P (4 cr) 32 + 56 III
Lecturer: Prof Mark Hughes, guest lecturers Contents: The course aims to introduce students to the rapidly developing area of wood and other natural fibre reinforced composites – advanced biocomposites. Topics covered include: an introduction to biocomposite materials; wood fibre as reinforcement; matrix materials; composite materials science - reinforcement and matrix, theories of load sharing and stress transfer; modification of fibre and or matrix; laminates; production processes; properties and applications; recent scientific and commercial developments; long-term prospects. The course will consist of formal lectures and practical work. An excursion is planned Requirements: Lectures, examination, practical exercises and assignments and excursion. Literature: Gordon, J.E. The New Science of Strong Materials; Hull, D. and Clyne, T.W. An Introduction to Composite Materials. Other material will be announced during lectures. Prerequisites: Puu-19.1000/Puu-19.5000 Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.4060 Language: English Puu-28.5000 Introduction to Wood Properties and Wood products (3 cr) 20 + 40 I Lecturer: Prof Mark Hughes Contents: The course aims to introduce students, wood, with a basic introduction to the structure of wood its material properties as well as some of the important wood products. Topics include: wood species; wood anatomy; wood ultrastructure; moisture and wood; short term and long term mechanical behaviour; degradation; acoustic and thermal behaviour; wood products; wood product processing. Requirements: Possible excursions, practical exercises, assignments and examination. Literature: Dinwoodie, J.M. (2000). Timber: Its nature and behaviour; Gordon, J.E. The New Science of Strong Materials; Hoadley, B.: Understanding wood: A craftsman’s guide to wood technology. Wood handbook. Other material will be defined later. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.5000 Language: English Puu-28.5005 Wood Properties and Wood Products case study (1-2 cr) 0 + 25 I + II Lecturer: Prof. Mark Hughes Contents: This course provides an extension to Puu28.5000 for those students wishing to develop a deeper understanding of the properties and applications of wood. The course consists of focused personal study under the guidance of the teacher/assistant and may be laboratorybased or literature-based depending on the student’s interests. Requirements: Report /Practical exercises Prerequisites: Puu-28.5000 (Or by prior agreement with the teacher) Language: English
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Puu-28.5010 Industrial Wood Construction (3 cr) 20 + 30 II Lecturer: Prof Matti Kairi Contents: Industrial wood construction materials, structures, products, and production methods. Basics of wood design and material properties for construction. Cases of industrial wood construction. Requirements: Examination and practical exercises and assignment. Literature: To be announced at the first lecture. Prerequisites: Puu-28.5000 or Puu-28.2020. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.5010 Language: English Puu-28.5040 Integrated Interior Wooden Surfaces P (4 cr) 30 + 78 III Lecturer: Prof Matti Kairi Contents: Interior use of wood as part of a load bearing construction and visual element. Also emissions surface treatment, fire questions and acoustics are included. Requirements: Lectures, excursion and project work. Literature: To be announced during the lectures. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.5040 Additional information: Replaces the course Puu28.5030 if agreed. Language: English Puu-28.5050 Interactive Industrial Wood Construction P (2-8 cr) 66 + 150 III+IV odd years Lecturer: Prof Matti Kairi, Pekka Heikkinen Contents: Issues related to wooden industrial competitive construction are examined; architecture, construction engineering and production processes are included. Requirements: Lectures, exercises and seminar works, portfolio and excursions. Literature: To be announced during the lectures. Web page: https://noppa.tkk.fi/noppa/kurssi/puu-28.5050 Additional information: The course is realized in cooperation with Chairs of Wood Technology and Building Technology and the Wood Construction. Language: Finnish or English Puu-28.6000 Postgraduate Seminar in Wood Technology P (4-10 cr) Puu-28.6010 Mathematical Methods in Wood Product Industry P (3-8 cr) Puu-28.6020 Project Work in Wood Technology P (210 cr)
Puu-127.297 Individual Postgraduate Studies in Environmental Protection Technology (P) (1-5 ocr) Puu-127.299 Environmental Protection Technology, litterature (P) (1-7 ocr) Puu-21.108 Paper Technology, laboratory course (5 ocr) 0 + 120 - 180 autumn + spring Lecturer: Kirsi Keskinen Contents: Individual laboratory and literature studies in the field of paper technology. The course is intended for students having Paper Technology as their minor. Prerequisites: Puu-21.103/3000, Puu-21.4000, Puu21.4010, Puu-21.120. Language: Finnish, English Puu-21.113 Paper Technology, extensive laboratory course (7 ocr) 0 + 280 autumn + spring Lecturer: Kirsi Keskinen Contents: The aim of the course is to deepen students knowledge about paper technology and practise their ability to solve problems about their own area through individual laboratory and literature studies. The course is intended for students having Paper Technology as major. Prerequisites: Mat-2.103/2103, Puu-21.103/3000, Puu21.4000, Puu-21.4010, Puu-21.120. Language: Finnish, English Puu-21.159 Paper Converting Technology, laboratory course (5 ocr) 0 + 200 autumn + spring Lecturer: Suvi Katajamäki Contents: Individual and group laboratory studies in paper and paperboard converting. Prerequisites: Mat-2.103/2103, Puu-21.103/3000, Puu21.105/4020, Puu-21.153/4050. Language: Finnish, English Puu-21.216 Paper Physics (2 ocr) Lecturer: Prof Hannu Paulapuro Contents: Structure of paper, its characterisation and measuring methods. Strength and optical properties of paper. Requirements: Autumn Literature: Handouts and selected parts of the book Paper Physics (ed. K. Niskanen) of the book series Papermaking Science and Technology (eds. J. Gullichsen and H. Paulapuro). Additional information: This course is part of Linkage Program 1. Language: English
Puu-127.209 Air Protection (3 ocr) Puu-127.292 Special Study in Environmental Protection Technology (P) (2-5 ocr) Puu-127.295 Postgraduate Seminar on Environmental Protection Technology (P) (3-7 ocr)
Puu-21.217 Paper Chemistry (3 ocr) Autumn Lecturer: N.N. Contents: Basic phenomena in the wet end of the paper machine. Introduction to the purpose and role of different types of functional and process chemicals, which are added to the papermaking furnish. The
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mechanisms behind retention and retention chemicals. Sizing, hydrophobisizing, the control of stickies, precipitates and slime. The contents and origins of dissolved and colloidal substances and the methods of controlling or eliminating them. Requirements: Exam Literature: Handouts and selected parts of the book Papermaking Chemistry (ed. K. Alén) Fapet Helsinki in the book series Papermaking Science and Technology (eds. J. Gullichsen and H. Paulapuro). Additional information: This course is part of Linkage Program 1. Language: English Puu-21.218 Paper Technology (3 ocr) Spring Lecturer: Prof Hannu Paulapuro Contents: Mechanical pulping including screening, cleaning and reject refining. Beating of chemical pulp. Paper machine operations including approach flow system and short circulation. Stability of papermaking process. The course also includes a seminar Requirements: Exam Literature: Handouts and selected parts of the book series Papermaking Science and Technology (eds. J. Gullichsen and H. Paulapuro). Additional information: This course is part of Linkage Program 1. Language: English Puu-21.219 Paper Coating (2 ocr) Spring Lecturer: Prof Jouni Paltakari Contents: The course starts with an introduction to the different coated paper grades and then proceeds to the coating process itself. Various coating techniques are discussed, with special emphasis on the formulation of coating colour and on the purpose components in it. A brief insight into various pigment types is also given. Calendering and winding will be treated as the finishing stages of the coating process. Requirements: Exam Literature: Handouts and selected parts of the book Pigment Coating and Surface Sizing of Paper (ed. E. Lehtinen) Fapet Helsinki 2000 in the book series Papermaking Science and Technology (eds. J. Gullichsen and H. Paulapuro). Additional information: This course is part of Linkage Program 1. Language: English Puu-21.220 Industrial Economics and Production Management (3 ocr) Spring Lecturer: N.N. Contents: The emphasis in on the economic tools available for the management of paper industries and particularly of paper mills. Included are the economic global picture of the paper industry and its main profitability elements, but the emphasis is on the development of accurate cost and Profitability
management models and the applications in Profitability Optimisation, including Budgeting procedures and Investment Calculations. The second main emphasis is on Productivity Management including Performance Measurement, Benchmarking and Kaizen, and their actual applications. Also included is utilization of costing information for pricing and marketing activities . Literature: Fogelholm, John: Paper mill-wide Profitability and Productivity Management. HUT. Department of Industrial Management. 119 p. (2005 Edition). Requirements: Exam Literature: Fogelholm, John: Paper mill-wide Profitability and Productivity Management. (2005 Edition). Additional information: This course is part of Linkage Program 1. Language: English Puu-21.225 Converting Technology (2 ocr) Spring Lecturer: Prof Jouni Paltakari Contents: Introduction to the converting of paper and board and the technology of converted products. This includes the basics of unit operations and descriptions of converting processes. A selection of the most common converted products is studied. Requirements: Exam Literature: Handouts. Additional information: This course is part of Linkage Program 1. Language: English Puu-21.230 Measurements and Analysis of Pulp and Paper making Processes (2 ocr) Autumn Lecturer: Risto Ritala, Docent Contents: The course gives an overall view of the measurements on paper machines and the pulp production lines, and of the dynamics of measurements. Cross-directional measurements on paper machines, preconditioning of data, statistical analysis for troubleshooting, analysis of regular and irregular variations are other topics dealt with. Requirements: Exam Literature: Handouts. Additional information: This course is part of Linkage Program 1. Language: English Puu-23.110 Pulping Processes, laboratory course (4 ocr) Puu-23.111 Pulping Processes, advanced laboratory course (6.5 ocr)
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SEPARATE COURSES Eri-0.2160 Conducting Small Group Activities (1 cr) Eri-0.4001 Myself as a teacher - Teaching + Learning + Teaching (5 cr) Eri-0.4005 Course for student counseling (2-3 cr) Eri-0.4011 ABC of teaching (2 cr)
Eri-0.5003 Searching for Scientific Information (Physics and Mathematics) (2 cr) Eri-0.5004 Searching for Scientific Information (Information Networks) (2 cr) Eri-0.5005 Searching for Scientific Information (Chemistry) (2 cr)
Eri-0.4012 Studying techniques (2 cr) Eri-0.4020 Personal Development (3 cr)
Eri-0.5006 Searching for Scientific Information (Mechanical Engineering) (2 cr)
Eri-0.4021 Planning Courses and Understanding one’s Expertise (3 cr)
Eri-0.5007 Searching for Scientific Information (Surveying) (2 cr)
Eri-0.4022 The Teaching Laboratory (3 cr)
Eri-0.5008 Searching for Scientific Information (Materials Science Engineering) (2 cr)
Eri-0.4023 Teaching and Learning and International Aspects (3 cr)
Eri-0.5009 Searching for Scientific Information (Forest Products Technology) (2 cr)
Eri-0.4024 Reading Circle (3 cr) Eri-0.4025 Development Project (6 cr)
Eri-0.5010 Searching for Scientific Information (Civil and Environmental Engineering) (2 cr)
Eri-0.4026 Project-based Course on Facilitating the Building of Professional Expertise (6 cr)
Eri-0.5011 Searching for Scientific Information (Electrical and Communications Engineering) (2 cr)
Eri-0.4027 Educational Leadership and Developing the Working Environment (3 cr)
Eri-0.5012 Searching for Scientific Information (Computer Science) (2 cr)
Eri-0.4028 Different Viewpoints to Learning (3 cr)
Eri-0.5013 Searching for Scientific Information (Industrial Management) (2 cr)
Eri-0.5001 Searching for Scientific Information (Architecture) (2 cr) Eri-0.5002 Searching for Scientific Information (Automation and Systems Technology) (2 cr)
Eri-0.5014 Searching for Scientific Information (2 cr) Eri-0.6100 Tools for masters thesis (3 cr)
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5 RESEARCH AT TKK The task of Helsinki University of Technology is to promote independent research, to provide the highest level of teaching in technology and architecture based on this research, as well as to otherwise promote technological and scientific development. This aim is the basis for pursuing basic and applied research at TKK. Every effort is made to make use of research results in teaching in order to maintain high educational standards. High quality research is absolutely essential for the education of postgraduate students and researchers. The basic units of research work at TKK are departments. They are the administrative units responsible for both teaching and research work. The research of the departments is often highly applied, but basic research is also carried out in many fields. One task of the central and faculty administration is to support the teaching and research work of the basic units. The professors are responsible for the research carried out in their research groups. They acquire projects for their groups, engage researchers, direct the research and answer for the preservation of the research tradition. The university's participation in collaborative international research and teaching projects, especially European
research programmes, is vital for the acquisition of the latest knowledge needed for research. TKK plays a significant national role in technological and scientific research because, in many fields of technology, it is the leading or the only institution in Finland where university level teaching and research are carried out.
Otaniemi International Innovation Centre (OIIC) http://oiic.tkk.fi/ TKK has founded a specific unit, the Otaniemi International Innovation Centre to provide the most qualified research liaison, contracting and innovation services for TKK. The search for and evaluation of innovations is one of the most significant tasks of the OIIC as well as protection, management and marketing of innovations. Business services and Spin-off training information services belong to the field of Innovation Centre as well. OIIC also takes care of the Career, Recruiting and Alumni Services and promotes the international cooperation network of TKK.
5.1 Postgraduate Research Fields 2008-2009 Faculty of Electronics, Communications and Automation
S-118 Prof. Liisa Halonen Prof. Jouko Pakanen
AS101Z Automation Technology AS-84 Prof. Aarne Halme Prof. Arto Visala
S036Z Electronics Production Technology S-113 Prof. Jorma Kivilahti
AS003Z Control Engineering AS-74 Prof. Heikki Koivo Prof. Heikki Hyötyniemi Prof. Robert Tenno AS001Z Information Technology in Automation AS-116 Prof. Kari Koskinen S013Z Measurement Science and Technology S-108 Prof. Pekka Wallin Prof. Erkki Ikonen Prof. Ilkka Tittonen SxxxZ Bioelectronics and Instrumentation S-66 Prof. Raimo Sepponen S007Z Applied Electronics S-66 Prof. Raimo Sepponen Prof. Pekka Eskelinen S049Z Illumination Engineering and Electrical Building Services
S019Z Electronic Circuit Design S-87 Prof. Kari Halonen Prof. Jussi Ryynänen S104Z Micro- and Nanotechnology S-104 Prof. Harri Lipsanen S-129 Prof. Ilkka Tittonen S021Z Semiconductor Technology S-69 Prof. Juha Sinkkonen Prof. Pekka Kuivalainen S028Z Optoelectronics S-104 Prof. Harri Lipsanen S044Z Optical Technology S-129 Prof. Ilkka Tittonen S-108 Prof. Erkki Ikonen S006Z Radio Engineering S-26 Prof. Antti Räisänen Prof. Pertti Vainikainen Prof. Sergei Tretyakov
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S046Z Electrophysics S-26 Prof. Antti Räisänen S-26 Prof. Pertti Vainikainen S-26 Prof. Sergei Tretyakov S-96 Prof. Ari Sihvola S-96 Prof. Keijo Nikoskinen S-69 Prof. Juha Sinkkonen S-69 Prof. Pekka Kuivalainen S-104 Prof. Harri Lipsanen S-108 Prof. Erkki Ikonen S-129 Prof. Ilkka Tittonen
S-72 Prof. Patric Östergård Prof. Olav Tirkkonen Prof. Jyri Hämäläinen S016Z Communications Engineering S-72 Prof. Patric Östergård Prof. Olav Tirkkonen Prof. Jyri Hämäläinen Prof. Riku Jäntti
S011Z Electromagnetics S-96 Acad Prof. Ari Sihvola Prof. Keijo Nikoskinen Prof. Jukka Sarvas
S047Z Language Technology T-61 Prof. Erkki Oja S-89 Prof. Paavo Alku S-89 Prof. Unto K. Laine S-89 Prof. Matti Karjalainen S-114 Prof. Mikko Sams T-61 Prof. Samuel Kaski
S030Z Circuit Theory S-55 Prof. Martti Valtonen
Xxxxx Network Economics S-38 Prof. Heikki Hämmäinen
S024Z Space Technology S-92 Prof. Martti Hallikainen
Faculty of Information and Natural Sciences
S042Z Signal Processing Technology S-88 Prof. Jorma Skyttä S043Z Signal Processing for Communications S-88 Prof. Visa Koivunen Prof. Risto Wichman S001Z Acoustics and Audio Signal Processing S-89 Prof. Paavo Alku Prof. Matti Karjalainen Prof. Unto K. Laine Prof. Vesa Välimäki
F006Z Mathematics Mat-1 Prof. Olavi Nevanlinna Prof. Juhani Pitkäranta Prof. Erkki Somersalo Prof. Timo Eirola Prof. Gustaf Gripenberg Prof. Esko Valkeila Prof. Matti Lassas Prof. Juha Kinnunen F008Z Theoretical and Applied Mechanics Mat-5 Prof. Rolf Stenberg
S038Z Electromechanics S-17 Prof. Antero Arkkio
F037Z Computational Science and Engineering Mat-1 Prof. Timo Eirola
S034Z Industrial Electronics and Electric Drives S-81 Prof. Seppo Ovaska Prof. Jorma Kyyrä Prof. Jorma Luomi
F017Z Systems and Operations Research Mat-2 Prof. Raimo P. Hämäläinen Prof. Harri Ehtamo Prof. Ahti Salo
S039Z Power Systems and High Voltage Engineering S-18 Prof. Matti Lehtonen Prof. Erkki Lakervi Prof. Liisa Haarla
F011Z Applied Mathematics Mat-2 Prof. Raimo P. Hämäläinen Prof. Harri Ehtamo Prof. Ahti Salo
S040Z Teletraffic Theory S-38 Prof. Jorma Virtamo
F038Z Engineering Physics, Physics Tfy-125 Acad Prof. Olli Ikkala Tfy-125 Prof. Matti Kaivola Tfy-125 Prof. Janne Ruokolainen Tfy-3 Prof. Esko Kauppinen Tfy-3 Prof. Sebastiaan van Dijken
S041Z Networking Technology S-38 Prof. Raimo Kantola Prof. Jörg Ott Prof. Jorma Virtamo Prof. Heikki Hämmäinen Prof. Jukka Manner S103Z Information Theory
F039Z Engineering Physics, Theoretical and Computational Physics Tfy-105 Acad Prof. Risto Nieminen Prof. Tapio Ala-Nissilä
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Prof. Martti Puska Prof. Juhani v. Boehm Prof. Päivi Törmä
T-79 Prof. Kaisa Nyberg T-79 Prof. Pekka Orponen T-79 Prof. N.N.
F040Z Engineering Physics, Advanced Energy Systems Tfy-56 Prof. Rainer Salomaa Prof. Peter Lund
T010Z Software Engineering T-76 Prof. Reijo Sulonen Prof. Tomi Männistö
F036Z Engineering Physics, Biomedical Engineering Tfy-99 Prof. Risto Ilmoniemi Prof. Ari Koskelainen Prof. Pekka Meriläinen
T011Z Usability Research T-121 Prof. Marko Nieminen T-86 Prof. Martti Mäntylä (on leave of absence)
S032Z Computational Engineering S-114 Prof. Kimmo Kaski Prof. Jouko Lampinen Prof. Jukka Tulkki Prof. Mikko Sams
T016Z Digital Economy T-76 Prof. Juha Laine Prof. Reijo Sulonen T104Z The Law of Technology T-76 Prof. Juha Laine
S048Z Computational Systems Biology S-114 Prof. Jouko Lampinen Prof. Kimmo Kaski Prof. Jukka Tulkki
T008Z Telecommunications Software T-109 Prof. Antti Ylä- Jääski T-110 Prof. Tuomas Aura (on leave of absence) T-110 Prof. Sasu Tarkoma
S101Z Cognitive Science S-114 Prof. Mikko Sams
T009Z Interactive Digital Media T-111 Prof. Tapio Takala Prof. Petri Vuorimaa Prof. Lauri Savioja
T101Z Computer and Information Science T-61 Prof. Erkki Oja T-115 Prof. Olli Simula T-120 Prof. Juha Karhunen T-122 Prof. Heikki Mannila (on leave of absence) T-61 Prof. Samuel Kaski S047Z Language Technology T-61 Prof. Erkki Oja S-89 Prof. Paavo Alku S-89 Prof. Unto K. Laine S-89 Prof. Matti Karjalainen S-114 Prof. Mikko Sams T-61 Prof. Samuel Kaski T103Z Bioinformatics T-61 Prof. Samuel Kaski T-122 Prof. Heikki Mannila (on leave of absence) T014Z Software Systems T-93 Prof. Markku Syrjänen T-106 Prof. Heikki Saikkonen T-106 Prof. Eljas Soisalon-Soininen T-106 Prof. Jorma Tarhio T-106 Prof. Lauri Malmi
T012Z Telecommunication Management T-109 Prof. Antti Ylä-Jääski S-38 Prof. Heikki Hämmäinen T-76 Prof. Reijo Sulonen T-106 Prof. Heikki Saikkonen T017Z Business Process Networks in Digital Economy T-124 Prof. Riitta Smeds AS102Z Media Technology AS-75 Prof. Pirkko Oittinen Prof. Eero Hyvönen AS002Z Imaging Technology AS-75 Prof. Pirkko Oittinen xxxxx Information Systems and Services T-86 Ma. prof. Matti Hämäläinen Prof. Martti Mäntylä (on leave of absence) TU001Z Industrial Management TU-22 Prof. Eero Eloranta Prof. Jan Holmström
T102Z Knowledge Engineering T-93 Prof. Markku Syrjänen
TUxxxZ Quality and Service Management TU-22 Prof. Paul Lillrank
T105Z Computing Education Research T-106 Prof. Lauri Malmi
TUxxxZ Logistics and Supply Management TU-22 Prof. Kari Tanskanen
T021Z Theoretical Computer Science T-119 Prof. Ilkka Niemelä
TU011Z International Project-oriented Business TU-22 Prof. Karlos Artto
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A-36 Prof. Trevor Harris TU021Z International Design Business Management TU-22 Prof. Karlos Artto TU004Z Work Psychology TU-53 Prof. N.N. TU012Z Learning Organization TU-53 Prof. Matti Vartiainen TUxxxZ Applied Philosophy and Organizational Recearch TU-53 Prof. N.N. TU022Z Organizational Behavior and Knowledge Management TU-53 Prof. Eila Järvenpää TU026Z Strategic Management TU-91 Prof. Tomi Laamanen Prof. Thomas Keil Prof. Juha-Antti Lamberg TU018Z Decision and Negotiation Support TU-91 Prof. Hannele Wallenius TU101Z Venture Capital and Private Equity, Growth Entrepreneurship and Corporate Venturing TU-91 Prof. Markku Maula TU013Z Development and Management in Industry TU-117 Prof. Ilkka Kauranen (on leave of absence)
A026Z Housing Design A-52 Prof. Hannu Huttunen A023Z Basics and Theory of Architecture A-60 Prof. Simo Paavilainen A024Z Wood Construction A-112 Prof. Antti-Matti Siikala A101Z Landscape Planning, Management and Protection MA-94 Prof. Maija Rautamäki A102Z Landscape Design, Construction and Protection MA-94 Prof. Jyrki Sinkkilä K027Z Applied Thermodynamics Ene-39 Prof. Markku Lampinen K024Z Energy Engineering and Environmental Protection Ene-47 Prof. Carl-Johan Fogelholm K010Z Heating, Ventilating and Air Conditioning Technology Ene-58 Prof. Olli Seppänen Prof. Kai Sirén K018Z Energy Economics and Power Plant Engineering Ene-59 Prof. Pekka Pirilä Prof. Pekka Ahtila
TUxxxZ Technology Strategy and Venturing TU-91 Prof. Annaleena Parhankangas NB! No postgraduate student admission 2008-2009
K021Z Internal Combustion Engine Technology Kul-14 Prof. Martti Larmi
Only as a supplementary field: TU014Z Strategy and International Business TU-91 Prof. Juha-Antti Lamberg
K101Z Production Engineering Kon-15 Prof. Esko Niemi Prof. Kalevi Aaltonen
Faculty of Engineering and Architecture
K001Z Automotive Engineering Kon-16 Prof. Matti Juhala
A006Z Building Technology A-9 Prof. Antti-Matti Siikala
K004Z Machine Design Kon-41 Prof. Mauri Airila Prof. Eric Coatanea Prof. Kalevi Ekman Ma.prof. Jari Juhanko
A020Z Building Structures A-9a Prof. Tor-Ulf Weck
K003Z Fluid Power Kon-41 Prof. Matti Pietola
A004Z History of Architecture A-27 Prof. Aino Niskanen
K029Z Paper Machine Technology Kon-41 Prof. Petri Kuosmanen
A021Z Urban and Regional Planning A-36 Prof. Kimmo Lapintie Prof. Peter Ache
K102Z Engineering Materials Kon-67 Prof. Hannu Hänninen
A009Z Public Buildings A-8 Prof. Markku Komonen
A028Z Urban Design
K023Z Cast Product Engineering Kon-80 Prof. Juhani Orkas
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KxxxZ Marine Technology and Naval Architecture Kul-24 Prof. Petri Varsta Prof. Pentti Häkkinen Prof. Pentti Kujala Prof. Jerzy Matusiak K008Z Aeronautical Engineering Kul-34 Prof. Jaakko Hoffren Prof. Olli Saarela K026Z Mechanics of Materials Kul-49 Prof. Gary Marquis Prof. Jukka Tuhkuri
R003Z Foundation Engineering and Soil Mechanics Rak-50 Prof. Olli Ravaska Prof. Pauli Vepsäläinen R005Z Structural Mechanics Rak-54 Prof. Jukka Aalto Prof. Juha Paavola R004Z Construction Economics and Management Rak-63 Prof. Juhani Kiiras Prof. Jouko Kankainen R019Z Building Materials Technology Rak-82 Prof. Vesa Penttala
K103Z Fluid Dynamics Kul-34 Prof. Jaakko Hoffren (in charge) Kul-14 Prof. Martti Larmi Kul-24 Prof. Jerzy Matusiak Ene-39 Prof. Timo Siikonen
R008Z Steel Structures Rak-83 Prof. Pentti Mäkeläinen
M002Z Geodesy Maa-6 Prof. Martin Vermeer
R020Z Hydrology and Water Recources Management Yhd-12 Prof. Pertti Vakkilainen Prof. Tuomo Karvonen
M102Z Cartography Maa-123 Prof. Kirsi Virrantaus M103Z Geoinformatics Maa-123 Prof. Kirsi Virrantaus Prof. Ari Jolma M017Z Real Estate Economics and Valuation Maa-20 Prof. Kauko Viitanen M014Z Real Estate Management Maa-20 Prof. N.N.
R009Z Highway Engineering Yhd-10 Prof. Terhi Pellinen
R021Z Hydraulic Engineering Yhd-12 Prof. Pertti Vakkilainen Prof. Tuomo Karvonen R002Z Transportation Engineering Yhd-71 Prof. Timo Ernvall Ma.prof. Tapio Luttinen R010Z Water and Wastewater Engineering Yhd-73 Prof. Riku Vahala
M003Z Land Management Maa-20 Prof. Arvo Vitikainen
R023Z Environmental Strategies and Technology Assessment Yhd-102 Prof. N.N
M018Z Economic Law Maa-29 Prof. Ari Ekroos
R101Z Rock Engineering Rak-32 Ma.prof. Juha Antikainen
M019Z Environmental Law Maa-29 Prof. Ari Ekroos
R102Z Engineering Geology Yhd-33 Prof. Kirsti Loukola-Ruskeeniemi
M001Z Photogrammetry Maa-57 Prof. Henrik Haggrén
R103Z Geoenvironmental Technology Yhd-33 Prof. Kirsti Loukola-Ruskeeniemi Prof. Markku Peltoniemi
M006Z Remote Sensing Maa-57 Prof. Henrik Haggrén R013Z Bridge Engineering Rak-11 Prof. N.N.
R104Z Applied Geophysics Yhd-33 Prof. Markku Peltoniemi R105Z Solid Waste Management Yhd-73 Prof. Juha Kaila
R007Z Structural Engineering and Building Physics Rak-43 Prof. Jari Puttonen Faculty of Chemistry and Materials Sciences R018Z Building Physics Rak-43 Prof. Martti Viljanen
KE010Z Organic Chemistry Kem-4 Prof. Ari Koskinen
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Prof. Reija Jokela
MT-46 Prof. Kari Heiskanen
KE016Z Applied Biochemistry Kem-30 Prof. Simo Laakso
MT023Z Recycling Technology MT-46 Prof. Kari Heiskanen
KE017Z Applied Microbiology Kem-30 Prof. Katrina Nordström
MT018Z Processing and Heat Treatment of Materials MT-65 Prof. Seppo Kivivuori Prof. Antti Korhonen
KE101Z Food Process Engineering Kem-30 Prof. Simo Laakso KE006Z Physical Chemistry Kem-31 Prof. Kyösti Kontturi KE001Z Analytical Chemistry Kem-35 Prof. Sakari Kulmala KE005Z Inorganic Chemistry Kem-35 Prof. Maarit Karppinen KE019Z Surface Science and Analysis Kem-35 Prof. Maarit Karppinen S-69 Prof. Juha Sinkkonen S-69 Prof. Pekka Kuivalainen KE014Z Industrial Chemistry Kem-40 Prof. Outi Krause KE007Z Chemical Engineering Kem-42 Prof. N.N.
MT013Z Materials Processing MT-77 Prof. Mikhail Gasik MT011Z Material and Electrochemistry MT-85 Prof. Olof Forsén P013Z Forest Products Chemistry Puu-19 Prof. Tapani Vuorinen Prof. Janne Laine P101Z Paper and Printing Technology Puu-21 Prof. Hannu Paulapuro Prof. Jouni Paltakari Prof. Patrick Gane P102Z Chemical Pulping Technology Puu-23 Prof. Herbert Sixta P016Z Environmental Technology within Process Industry Puu-127 Prof. Olli Dahl
KE021Z Bioprocess Engineering Kem-70 Prof. Matti Leisola
P103Z Wood Product Technology Puu-28 Prof. Matti Kairi Prof. Mark Hughes
KE015Z Process Control Kem-90 Prof. Sirkka-Liisa Jämsä-Jounela
5.2 Graduate Schools
KE011Z Polymer Technology Kem-100 Prof. Jukka Seppälä
For more information please see: http://www.tkk.fi/en/studies/doctoral/graduate_schools/in dex.html
KE013Z Plant Design Kem-107 Prof. Markku Hurme MT014Z Metallurgy MT-37 Prof. Lauri Holappa Prof. N.N. MTxxxZ Materials Science MT-45 Prof. Simo-Pekka Hannula Ma.prof. Roman Nowak MT017Z Semiconductors and Electronic Materials MT-45 Prof.Simo-Pekka Hannula MT-45 Prof. N.N. S-69 Prof. Pekka Kuivalainen S-69 Prof. Juha Sinkkonen S-104 Prof. Harri Lipsanen MT-45 Ma.prof. Roman Nowak MT020Z Mechanical Process and Particle Technology
Graduate School in Electronics, Telecommunications and Automation (GETA) Director: prof. Iiro Hartimo, tel. (09) 451 2454, e-mail
[email protected] Secretary: Marja Leppäharju, tel. (09) 451 2447, e-mail
[email protected],
[email protected] In co-operation with: TTY, OY, TY, JY http://wooster.tkk.fi/geta/ TKK/GETA, P.O. Box 3000, 02015 TKK, Finland Graduate School in Energy Technology Director: prof. Peter Lund, tel. (09) 451 3197, e-mail:
[email protected] Coordinator: dos. Seppo Hannus, tel. (09) 451 5745, email:
[email protected] In co-operation with: LTKK, JY, OY, TTKK, ÅA, VTT, Energiafoorumi http://www.tkk.fi/Units/Energy/ TKK/Energiatekniikan instituutti, P.O. Box 4100, 02015 TKK, Finland
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International Ph.D. Programme in Pulp and Paper Science and Technology Director: prof. Hannu Paulapuro, tel. (09) 451 4216 Coordinator: Anne Jääskeläinen, tel. (09) 451 4182, email:
[email protected], e-mail:
[email protected] In co-operation with: TTY, LTY, OY, ÅA, JY, HY http://www.tkk.fi/Units/Papsat TKK/Puunjalostustekniikan laitos, P.O. Box 3320, 02015 TKK, Finland The Graduate School of Chemical Sensors and Microanalytical Systems (CHEMSEM) Director: prof. Sakari Kulmala, e-mail:
[email protected] In co-operation with: TKK, TY, ÅA, VTT http://www.chemsem.tkk.fi/ The Graduate School in Real Estate and Facilities Management Director: prof. Kari I. Leväinen, tel. (09) 451 3882, email:
[email protected] Secretary: researcher Arhi Kivilahti, tel. (041) 5469931, e-mail:
[email protected] In co-operation with: TTKK, SHH, TuKKK http://kiito.tkk.fi/ TKK/Maanmittauslaitos, P.O. Box 1200, 02015 TKK, Finland Graduate School in Computational Methods of Information Technology Director: professori Jouko Lampinen, tel. (09) 451 4827, e-mail:
[email protected] In co-operation with: HY, JY http://www.lce.hut.fi/ComMIT/ Graduate School in Computational Fluid Dynamics Director: prof. Timo Siikonen, tel. (09) 451 3426, e-mail:
[email protected] In co-operation with: TKK, TTKK, LTKK, JY, ÅA http://www.cfd-gs.tkk.fi/ TKK/Sovelletun termodynamiikan laboratorio, P.O. Box 4400, 02015 TKK, Finland National Graduate School in Material Physics Director: akat.prof. Risto Nieminen, tel. (09) 451 3105, Secretary (09) 451 3101, e-mail:
[email protected] Coordinator: Kirsi Salparanta, tel. (09) 451 5744 e-mail:
[email protected] In co-operation with: HIP, HY, JY, OY, TY, TTKK http://www.fyslab.tkk.fi/gradschool TKK/Fysiikan laboratorio. P.O. Box 1100. 02015 TKK, Finland Electrochemical Science and Technology of Polymers and Membranes Including Biomembranes (ESPOM) Prof. Kyösti Kontturi, tel. (09) 451 2575, email:
[email protected] Secretary Margit Hagberg, tel. (09) 451 2572, e-mail:
[email protected] In co-operation with: HY, TTY, TaY, JY, TY, ÅA, OY
http://www.tkk.fi/Units/PhysicalChemistry/ESPOM.html TKK/Fysikaalisen kemian ja sähkökemian laboratorio, P.O. Box 6100, 02015 TKK, Finland Graduate School in System Analysis, Decision Making and Risk Management Director: prof. Raimo P. Hämäläinen, tel. (09) 451 3056 Coordinator: Antti Punkka, tel. 451 5885, e-mail:
[email protected] In co-operation with: HKKK http://www.tkk.fi/Yksikot/SAL/tutkijakoulu TKK/Systeemianalyysin laboratorio, P.O. Box 1100, 02015 TKK, Finland National Graduate School in Engineering Mechanics Director: prof. Jukka Tuhkuri, puh (09) 451 3450, email:
[email protected] Secretary: Irina Forsman tel. (09) 451 3441, email:
[email protected] In co-operation with: TTY, OY, LTY, JY TKK/Lujuusopin laboratorio, P.O. Box 4100, 02015 TKK, Finland Industrial Engineering and Management Doctoral Programme in Finland Director: prof. Eero Eloranta, tel. (09) 451 3641 (Secretary) Coordinator: Virpi Turkulainen, tel.050 5771699, email:
[email protected] In co-operation with: TTKK, OY, LTKK, ÅA TKK/Tuotantotalouden osasto, P.O. Box 5500, 02015 TKK, Finland Visiting address: TUAS-talo, Otaniementie 17 http://www.tuta.tkk.fi/studies/postgraduates/Doctoral_stud ies/Doctoral_prog_in_IEM/doctoral_prog.php Graduate school on new materials and processes Director: prof. Lauri Holappa, tel. (09) 451 2757, e-mail:
[email protected] Secretary: Lea Selin, tel. (09) 451 2756, e-mail:
[email protected] In co-operation with: TTY, OY, LTY http://metallurgy.tkk.fi/gradschool.htm TKK/Metallurgian laboratorio, P.O. Box 6200, 02015 TKK, Finland Other Graduate Schools of TKK Helsinki Graduate School of Electrical and Communications Engineering Director: Tkt Perttu Puska, tel. (09) 451 2158, e-mail:
[email protected] Secretary: Katrina Nykanen, tel. (09) 451 5323, e-mail:
[email protected] e-mail:
[email protected] http://sahko.tkk.fi/en/studies/graduate_studies/graduate_s chool/
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5.3 Other units at TKK Separate Units TKK Main Library http://lib.tkk.fi/index-en.html Lifelong Learning Institute Dipoli http://www.dipoli.tkk.fi/english/index.html Low Temperature Laboratory http://ltl.tkk.fi/
Joint units of TKK and other universities Helsinki Institute of Physics (HIP) http://www.hip.fi/index.html Service Centre Pave http://palvelukeskus.tkk.fi/fi/ FVU Service Unit http://www.virtuaaliyliopisto.fi/vy_front_page_eng.asp Helsinki Institute for Information Technology HIIT http://www.hiit.fi/ IT Services http://www.tkk.fi/cc/
Other units Micronova http://www.micronova.fi/ Center for New Materials at the Helsinki University of Technology (UMK) http://www.umk.fi/en/index/ Center for Energy Technology http://energia.tkk.fi/en/
Other units of the faculties Metsähovi Radio Observatory http://kurp-www.hut.fi/en/ BIT Research Centre http://www.bit.hut.fi/ TKK Lahti Center http://intl.ltk.hut.fi/index.php?id=3 Centre for Urban and Regional Studies YTK http://www.tkk.fi/Units/Separate/YTK/index.html