Curriculum Content ---cim.docx
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Curriculum Content Course Code:
Course Title: Computer Integrated Manufacturing
L-T-P: 3-0-0
Credits: 3
ISA Marks: 50
ESA Marks: 50
Teaching Hrs: 40
Contact Hrs: 3 hrs/week Total Marks: 100 Exam Duration: 3 hrs
Unit – I 08 hours Chapter 1: Manufacturing operations: Production system facilities, manufacturing support systems, automation in production systems, manual labor in production systems. Automation principles and strategies, manufacturing industries and products, product/production relationships, production concepts and mathematical models, costs of manufacturing operations Chapter 2: Manufacturing systems: 08 hours Components, classification, manufacturing process functions, single station manufacturing cells, applications. Group Technology Part families, classification and coding, production flow analysis Unit – II Chapter 3: Cellular Manufacturing, Flexible Manufacturing Systems: 05 hours Cellular manufacturing quantitative analysis in cellular manufacturing, FMS components, planning and implementation, quantitative analysis of FMS 05 hours Chapter 4: Material handling and storage: Material handling equipment, considerations in material handling system design, principles of material handling, material transport systems:, storage systems: automated storage systems, automatic data capture, automatic identification methods 05 hours Chapter 5: PLM and IIoT: Areas of Product Life cycle Management (PLM), phases of product life cycle and technologies, benefits of PLM. Definition of Industrial Internet of Things (IIoT), Evolution, Enablers for IIoT platform, drivers, Benefits, protocols, challenges, future Unit – III 05 hours Chapter 6: Robot fundamentals: Robot anatomy and related attributes, classification, robot control systems, end effectors, sensors in robotics, robot programming 05 hours Chapter 7: Robot kinematics: Matrix representation, Homogeneous transformation matrices, Representation of transformations, Inverse transformation matrices, forward and inverse kinematics of robots, D-H representation of forward kinematic equations, degeneracy and dexterity
Text Books: 1. Grover M.P., “Automation, Production Systems and Computer Integrated Manufacturing”, Prantice Hall, India. 2. Chris McMahon & Jimmie Browne, “CAD & CAM Principles”, Practice & Mfg. Mngt.’, Pearson Education. Reference Books: 1. Radhakrishnan P., “CAD/CAM/CIM”, New Age International Private Limited. 2. Zeid Ibrahim, “CAD/CAM”, McGraw Hill International. 3. Rao P.N., ‘CAD/CAM Principles and Applications’, Tata McGraw-Hill. 4. Vajpayee S. K., “Principles of CIM”, Prentice Hall of India. 5. Saeed B. Niku, “Introduction to Robotics”, Prentice Hall of India.
Course Title: Computer Integrated Manufacturing
L-T-P: 3-0-0
Credits: 3
ISA Marks: 50
ESA Marks: 50
Teaching Hrs: 40
Contact Hrs: 3 hrs/week Total Marks: 100 Exam Duration: 3 hrs
Unit – I 08 hours Chapter 1: Manufacturing operations: Production system facilities, manufacturing support systems, automation in production systems, manual labor in production systems. Automation principles and strategies, manufacturing industries and products, product/production relationships, production concepts and mathematical models, costs of manufacturing operations Chapter 2: Manufacturing systems: 08 hours Components, classification, manufacturing process functions, single station manufacturing cells, applications. Group Technology Part families, classification and coding, production flow analysis Unit – II Chapter 3: Cellular Manufacturing, Flexible Manufacturing Systems: 05 hours Cellular manufacturing quantitative analysis in cellular manufacturing, FMS components, planning and implementation, quantitative analysis of FMS 05 hours Chapter 4: Material handling and storage: Material handling equipment, considerations in material handling system design, principles of material handling, material transport systems:, storage systems: automated storage systems, automatic data capture, automatic identification methods 05 hours Chapter 5: PLM and IIoT: Areas of Product Life cycle Management (PLM), phases of product life cycle and technologies, benefits of PLM. Definition of Industrial Internet of Things (IIoT), Evolution, Enablers for IIoT platform, drivers, Benefits, protocols, challenges, future Unit – III 05 hours Chapter 6: Robot fundamentals: Robot anatomy and related attributes, classification, robot control systems, end effectors, sensors in robotics, robot programming 05 hours Chapter 7: Robot kinematics: Matrix representation, Homogeneous transformation matrices, Representation of transformations, Inverse transformation matrices, forward and inverse kinematics of robots, D-H representation of forward kinematic equations, degeneracy and dexterity
Text Books: 1. Grover M.P., “Automation, Production Systems and Computer Integrated Manufacturing”, Prantice Hall, India. 2. Chris McMahon & Jimmie Browne, “CAD & CAM Principles”, Practice & Mfg. Mngt.’, Pearson Education. Reference Books: 1. Radhakrishnan P., “CAD/CAM/CIM”, New Age International Private Limited. 2. Zeid Ibrahim, “CAD/CAM”, McGraw Hill International. 3. Rao P.N., ‘CAD/CAM Principles and Applications’, Tata McGraw-Hill. 4. Vajpayee S. K., “Principles of CIM”, Prentice Hall of India. 5. Saeed B. Niku, “Introduction to Robotics”, Prentice Hall of India.
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