3900 Series Base Station V100R008C00 (NodeB)
Performance Counter Reference Issue
12
Date
2014-05-30
HUAWEI TECHNOLOGIES CO., LTD.
Copyright © Huawei Technologies Co., Ltd. 2014. All rights reserved. No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd. All other trademarks and trade names mentioned in this document are the property of their respective holders.
Notice The purchased products, services and features are stipulated by the contract made between Huawei and the customer. All or part of the products, services and features described in this document may not be within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information, and recommendations in this document are provided "AS IS" without warranties, guarantees or representations of any kind, either express or implied. The information in this document is subject to change without notice. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute a warranty of any kind, express or implied.
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Website:
http://www.huawei.com
Email:
[email protected]
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About This Document
About This Document Purpose This document describes all the performance counters of the NodeB.
Version The following table lists the product versions involved in this document. Product Name
Version
BTS3900
V100R008C00
BTS3900A
The mapping single-mode base station version is:
BTS3900L
NodeB: V200R015C00
BTS3900C BTS3900AL DBS3900
Intended Audience This document is intended for: l
Network planners
l
System engineers
l
Field engineers
l
Shift operators
l
Site maintainers
l
Network operators
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About This Document
Change History For detailed performance counter changes, see the release notes.
Document Structure Figure 1 shows the document structure. Figure 1 Document structure
Table 1 explains the terms shown in Figure 1. Table 1 Terms Term
Explanation
Classification of object type
On the top level, object types are classified into three categories: Radio Network Related Measurement, Transport Network Related Measurement, Hardware Platform Related Measurement. Object types are located at the second level of the document structure.
Object type
One object type contains one or more function subsets.
Function subset
Function subsets are located at the third level of the document structure. One function subset contains one or more counters but belongs to only one object type. Counters are located at the fourth level of the document structure.
Counter
Counters are the basic elements of performance measurement. One counter belongs to only one function subset.
Counter Item Description Table 2 lists the description of each counter item. Issue 12 (2014-05-30)
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About This Document
Table 2 Description of each counter item Item
Description
Object Type
Overview
Definition and function of an object type.
FunctionSubS ets
Function subsets contained in an object type.
Functio n Set
FunctionSet Name
Name of the function set.
Functio n Subset
Overview
Definition of a function subset and the flowchart for measuring related counters.
Counters
Counters contained in a function subset.
Counter Relationship
A table that lists parent counters and their child counters in a table. Note that the child counters listed in the table cover only typical scenarios. That is, some scenarios are not covered by any counter. Therefore, the value of a parent counter is larger than or equal to the sum of the values of its child counters. Some counters may not be involved in any counter relationship.
Counter ID
A string of digits that uniquely identifies a counter.
Counter Name
Name of a counter. It is composed of a string of uppercase letters, lowercase letters, and dots.
Counter Description
A phrase that provides a simple description about a counter.
Description
Detailed description about a counter.
Measurement Point
Condition for triggering counter measurement.
Formula
Relationship among counters.
Unit
Unit of a counter.
Related Features
Features related to a counter are listed in feature ID and feature name. A counter is used to estimate related features. Related features are listed as follows in different scenarios:
Counter
One function set contains one or more function subsets.
l If a counter has no related features, no features are listed. l A counter has related features, – If this counter applies only to GSM, UMTS, LTE, or SingleRAN, the features are related to such RAT. – If this counter applies to multiple RATs in GSM, UMTS, LTE, and SingleRAN, the features are a set of features related to all associated RATs. Only the feature IDs and feature names of the features for related RATs are listed.
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About This Document
Item
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Description Original Release
The version for which the counter was first available.
Network Element
NE Type of a product displayed on the M2000. The value can be BTS3900, BTS3900 WCDMA, or BTS3900 LTE. BTS3900 indicates a co-MPT base station; BTS3900 WCDMA indicates a UMTS base station; BTS3900 LTE indicates an LTE base station. These NE types are applicable to the following base station models: DBS3900, BTS3900, BTS3900A, BTS3900L, BTS3900AL, and BTS3900C.
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Contents
Contents About This Document.....................................................................................................................ii 1 Equipment and Transport Network Related Measurement.................................................1 1.1 NodeB (NodeB)..............................................................................................................................................................3 1.1.1 EQUIPMENT measurements per NodeB (EQUIPMENT.NODEB)..........................................................................3 1.2 ULGROUP (ULGROUP)...............................................................................................................................................7 1.2.1 Uplink Resource Group Measurement (TRAFFIC.ULGROUP)................................................................................7 1.3 BOARD (BOARD).......................................................................................................................................................11 1.3.1 Board Measurement (TRAFFIC.BOARD)................................................................................................................11 1.3.2 Board Load Measurement (LOAD.BOARD)............................................................................................................23 1.4 NODE (NODE)............................................................................................................................................................27 1.4.1 Node Equipment Performance Measurement (Equipment.Node).............................................................................27 1.5 BBUBoard (BBUBoard)...............................................................................................................................................32 1.5.1 BBU Board Load Performance Measurement (Load.BBUBoard)............................................................................32 1.6 Measurement of Ethernet port performance (ETHPORT)...........................................................................................37 1.6.1 Measurement related to Ethernet port (Physical.FEGE)...........................................................................................37 1.7 Measurement of E1/T1 port performance (E1T1)........................................................................................................49 1.7.1 Measurement related to E1T1 port (Physical.E1T1).................................................................................................49 1.8 Measurement of PPP Link performance (PPP)............................................................................................................67 1.8.1 Measurement related to PPP link (DataLink.PPP)....................................................................................................67 1.9 Measurement of MP Group performance (MPGRP)....................................................................................................82 1.9.1 Measurement related to MP (DataLink.MPGRP).....................................................................................................82 1.10 Measurement of IP layer performance (IP)................................................................................................................97 1.10.1 Measurement related to IP (Network.IP).................................................................................................................97 1.11 Measurement of IP path performance (IPPath)........................................................................................................105 1.11.1 Measurement related to IP path (Transport.IPPath)..............................................................................................105 1.12 Measurement of Resource Group performance (RscGroup)....................................................................................113 1.12.1 Measurement related to Resource Group (Transport.RscGroup)..........................................................................114 1.12.2 Measurement related to FLOWCTROL (Transport.FLOWCTROL)...................................................................122 1.13 Measurement of IP PM performance (IPPM)...........................................................................................................152 1.13.1 Measurement related to IPPM (Transport.IPPM)..................................................................................................152 1.14 Measurement of SCTP performance (SCTP)...........................................................................................................168 1.14.1 Measurement related to SCTP link (Transport.SCTP)..........................................................................................169 Issue 12 (2014-05-30)
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1.15 Measurement of OMCH performance (OMCH)......................................................................................................181 1.15.1 Measurement related to OMCH (Transport.OMCH)............................................................................................182 1.16 Measurement of Tunnel performance (TUNNEL)...................................................................................................209 1.16.1 Measurement related to TUNNEL (Network.Tunnel)...........................................................................................209 1.17 Measurement of AAL2PATH performance (AAL2PATH).....................................................................................222 1.17.1 Measurement related to AAL2PATH (Transport.AAL2PATH)...........................................................................223 1.18 Measurement of SAAL performance (SAAL).........................................................................................................226 1.18.1 Measurement related to SAAL (Transport.SAAL)...............................................................................................227 1.19 Measurement of IMAGRP performance (IMAGRP)...............................................................................................240 1.19.1 Measurement related to IMAGRP (DataLink.IMAGRP)......................................................................................241 1.20 Measurement of IPOAAAL5 performance (IPOAAAL5).......................................................................................244 1.20.1 Measurement related to IPOAAAL5 (Transport.IPOAAAL5).............................................................................245 1.21 Measurement of TRUNK performance (TRUNK)...................................................................................................250 1.21.1 Measurement related to TRUNK (Datalink.TRUNK)...........................................................................................250 1.22 Measurement of firewall performance (Firewall).....................................................................................................256 1.22.1 Measurement related to firewall (Transport.Firewall)...........................................................................................256 1.23 Measurement of IKE performance (IKE).................................................................................................................259 1.23.1 Measurement related to IKE (Transport.IKE).......................................................................................................260 1.24 Measurement of IPSec performance (IPSec)............................................................................................................265 1.24.1 Measurement related to IPSec (Transport.IPSec)..................................................................................................265 1.25 Measurement of SCTP Link performance (SCTPLNK)..........................................................................................276 1.25.1 Measurement related to SCTPLNK (Transport.SCTPLNK).................................................................................276 1.26 Measurement of UserPlaneHostIP performance (UserPlaneHostIP).......................................................................297 1.26.1 Measurement related to UserPlaneHostIP (Transport.UserPlaneHostIP).............................................................297
2 Radio Network Related Measurement..................................................................................307 2.1 Local Cell (LOCELL)................................................................................................................................................308 2.1.1 HSDPA Measurements per Local Cell (HSDPA.LOCELL)...................................................................................308 2.1.2 Traffic Measurements per Local Cell (TRAFFIC.LOCELL)..................................................................................470 2.1.3 HSUPA Measurements per Local Cell (HSUPA.LOCELL)...................................................................................478 2.1.4 CPC Measurements per Local Cell (CPC.LOCELL)..............................................................................................547 2.1.5 ERACH Measurements per Local Cell (ERACH.LOCELL)..................................................................................554 2.1.6 SCCPCH Measurements per Local Cell (SCCPCH.LOCELL)..............................................................................559 2.1.7 DCH Measurement per local cell (DCH.LOCELL)................................................................................................564 2.1.8 Algorithm Measurement per local cell (ALGO.LOCELL).....................................................................................567 2.1.9 Reserved Measurements per local cell (CELLRESERVE.LOCELL).....................................................................572 2.1.10 Measurement of locell power (POWER.LOCELL)..............................................................................................586 2.1.11 EFACH Measurements per Local Cell (EFACH.LOCELL).................................................................................594 2.2 NodeB (NodeB)..........................................................................................................................................................603 2.2.1 IUB measurements per NodeB (IUB.NODEB).......................................................................................................603 2.2.2 NodeB Hardware Baseband Resource Measurement (TRAFFIC.NODEB)...........................................................692 2.2.3 NodeB NBAP procedure measurement (NBAP.NODEB)......................................................................................695 Issue 12 (2014-05-30)
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2.2.4 Reserved measurements per NodeB (NODEBRESERVE.NODEB)......................................................................705 2.3 Operator (OPERATOR).............................................................................................................................................711 2.3.1 Traffic Measurements per Operator (TRAFFIC.OPERATOR)..............................................................................711 2.3.2 Reserved measurements per operator (OPERESERVE.OPERATOR)...................................................................732 2.4 LOCELL_SECTOREQM (LOCELL_SECTOREQM).............................................................................................738 2.4.1 Measurement related to Iub Interface per LOCELL_SECTOREQM (IUB.LOCELL.SECTOREQM).................738 2.4.2 Measurement related to PRACH per LOCELL_SECTOREQM (PRACH.LOCELL.SECTOREQM)..................742 2.4.3 Measurement related to ERACH per LOCELL_SECTOREQM (ERACH.LOCELL.SECTOREQM)..................747 2.4.4 Measurement related to RTWP per LOCELL_SECTOREQM (RTWP.LOCELL.SECTOREQM)......................750
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1 Equipment and Transport Network Related Measurement
Equipment and Transport Network Related Measurement
About This Chapter 1.1 NodeB (NodeB) 1.2 ULGROUP (ULGROUP) 1.3 BOARD (BOARD) 1.4 NODE (NODE) 1.5 BBUBoard (BBUBoard) 1.6 Measurement of Ethernet port performance (ETHPORT) 1.7 Measurement of E1/T1 port performance (E1T1) 1.8 Measurement of PPP Link performance (PPP) 1.9 Measurement of MP Group performance (MPGRP) 1.10 Measurement of IP layer performance (IP) 1.11 Measurement of IP path performance (IPPath) 1.12 Measurement of Resource Group performance (RscGroup) 1.13 Measurement of IP PM performance (IPPM) 1.14 Measurement of SCTP performance (SCTP) 1.15 Measurement of OMCH performance (OMCH) 1.16 Measurement of Tunnel performance (TUNNEL) 1.17 Measurement of AAL2PATH performance (AAL2PATH) 1.18 Measurement of SAAL performance (SAAL) 1.19 Measurement of IMAGRP performance (IMAGRP) Issue 12 (2014-05-30)
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1.20 Measurement of IPOAAAL5 performance (IPOAAAL5) 1.21 Measurement of TRUNK performance (TRUNK) 1.22 Measurement of firewall performance (Firewall) 1.23 Measurement of IKE performance (IKE) 1.24 Measurement of IPSec performance (IPSec) 1.25 Measurement of SCTP Link performance (SCTPLNK) 1.26 Measurement of UserPlaneHostIP performance (UserPlaneHostIP)
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1.1 NodeB (NodeB) Overview The object type "NODEB" contains four function subsets: "IUB.NODEB","TRAFFIC.NODEB","NBAP.NODEB" and "NODEBRESERVE.NODEB".
FunctionSubSets FunctionSubSet
FunctionSubSet Name
IUB.NODEB
IUB measurements per NodeB
TRAFFIC.NODEB
NodeB Hardware Baseband Resource Measurement
NBAP.NODEB
NodeB NBAP procedure measurement
NODEBRESERVE.NODEB
Reserved measurements per NodeB
EQUIPMENT.NODEB
EQUIPMENT measurements per NodeB
1.1.1 EQUIPMENT measurements per NodeB (EQUIPMENT.NODEB) Overview EQUIPMENT measurements per NodeB.
Counters
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Counter ID
Counter Name
Counter Description
Original Release
50333215
VS.ShutdownTime. PSU
PSU shutdown total time
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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Counter ID
Counter Name
Counter Description
Original Release
50333220
VS.BTS.EnergyCo ns.Adding
The sum of power consumption of all boards in the NodeB
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50333221
VS.BTS.EnergyCo ns.Measuring
Power consumption measured by the power system of the NodeB
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
Counter Relationship None
PSU shutdown total time Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50333215
VS.ShutdownTi me.PSU
PSU shutdown total time
BTS3900 WCDMA
U
Description This counter measures the shutdown duration of all power supplying units (PSUs) in the NodeB within the measurement period. Counter 50333215 VS.ShutdownTime.PSU will be replaced by counter 1593835620 VS.PSU.ShutdownTime in later versions. In the current version, counters 50333215 VS.ShutdownTime.PSU and 1593835620 VS.PSU.ShutdownTime are both valid, and the value of counter 50333215 VS.ShutdownTime.PSU is properly reported . Counter 50333215 VS.ShutdownTime.PSU will be deleted in later versions. Using counter 50333215 VS.ShutdownTime.PSU is not recommended. Issue 12 (2014-05-30)
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Measurement Points In a measurement period, the intelligent shutdown status of each PSU is sampled every second. When one or more PSUs are intelligently shut down, this counter is added by one.
Formula None
Unit s
Related Features Counter Name
Feature ID
VS.ShutdownTime.PSU
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020121
Intelligent Power Management
LTE: None
VS.BTS.EnergyCons.Adding Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50333220
VS.BTS.Energy Cons.Adding
The sum of power consumption of all boards in the NodeB
BTS3900 WCDMA
U
Description The counter measures the power consumption of the NodeB within a measurement period, which equals the sum of the rated power consumption of each board. Counter 50333220 VS.BTS.EnergyCons.Adding will be replaced by counter 1593835628 VS.EnergyCons.BTS.Adding.UMTSin later versions. In the current version, counters 50333220 VS.BTS.EnergyCons.Adding and 1593835628 VS.EnergyCons.BTS.Adding.UMTS are both valid, and the value of counter 50333220 VS.BTS.EnergyCons.Adding is properly reported. Counter 50333220 VS.BTS.EnergyCons.Adding will be deleted in later versions. Using counter 50333220 VS.BTS.EnergyCons.Adding is not recommended. Issue 12 (2014-05-30)
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Measurement Points The estimated NodeB power consumption is sampled every 5 minutes based on the power consumption of the BBU, RRUs/RFUs, and peripheral devices such as electromechanical devices and ALDs. At the end of a measurement period, the sum of these sampling results is used as the value of this counter
Formula None
Unit kWh
Related Features Counter Name
Feature ID
VS.BTS.EnergyCons.Adding
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020406
Intelligent Power Measurement
LTE: None
VS.BTS.EnergyCons.Measuring Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50333221
VS.BTS.Energy Cons.Measurin g
Power consumption measured by the power system of the NodeB
BTS3900 WCDMA
U
Description The counter measures the power consumption of the NodeB within a measurement period, which is calculated by the power system based on the detected current and voltage. Counter 50333221 VS.BTS.EnergyCons.Measuring will be replaced by counter 1593835629 VS.EnergyCons.BTS.Measuring.UMTS in later versions. In the current version, counters 50333221 VS.BTS.EnergyCons.Measuring and 1593835629 VS.EnergyCons.BTS.Measuring.UMTS are both valid, and the value of counter 50333221 Issue 12 (2014-05-30)
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VS.BTS.EnergyCons.Measuring is properly reported. Counter 50333221 VS.BTS.EnergyCons.Measuring will be deleted in later versions. Using counter 50333221 VS.BTS.EnergyCons.Measuring is not recommended.
Measurement Points The power consumption monitored by all the PMUs is sampled every 5 minutes. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit kWh
Related Features Counter Name
Feature ID
Feature Name
VS.BTS.EnergyCons.Measuring
Multi-mode: None GSM: None UMTS: WRFD-020406 LTE: None
Intelligent Power Measurement
1.2 ULGROUP (ULGROUP) Overview The object type "ULGROUP" contains only one function subset, that is, "TRAFFIC.ULGROUP".
FunctionSubSets FunctionSubSet
FunctionSubSet Name
TRAFFIC.ULGROUP
Uplink Resource Group Measurement
1.2.1 Uplink Resource Group Measurement (TRAFFIC.ULGROUP) Overview The UL resource group measurement indicates the baseband resource usage of a NodeB UL resource group. Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Original Release
50332573
VS.CE.ULAvailabl e.UlGroup
The Number of CEs Configured on All Available Boards in an Uplink Resource Group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332574
VS.CE.ULMean.Ul Group
Mean Number of Uplink CEs Consumed by All Cells in an Uplink Resource Group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50342574
VS.CE.ULMin.UlG roup
Minimum Number of Uplink CEs Consumed by All Cells in an Uplink Resource Group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50342575
VS.CE.ULMax.Ul Group
Maximum Number of Uplink CEs Consumed by All Cells in an Uplink Resource Group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
Counter Relationship None
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The Number of CEs Configured on All Available Boards in an Uplink Resource Group Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332573
VS.CE.ULAvai lable.UlGroup
The Number of CEs Configured on All Available Boards in an Uplink Resource Group
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of CEs configured for hardware of all available boards in an uplink resource group.
Measurement Points This counter is sampled every 30 seconds. At the end of a measurement period, the maximum of these sampling results is defined as the value of the counter.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.CE.ULAvailable.UlGro up
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332574
VS.CE.ULMea n.UlGroup
Mean Number of Uplink CEs Consumed by All Cells in an Uplink Resource Group
BTS3900 WCDMA, BTS3900
U
50342574
VS.CE.ULMin. UlGroup
Minimum Number of Uplink CEs Consumed by All Cells in an Uplink Resource Group
BTS3900 WCDMA, BTS3900
U
50342575
VS.CE.ULMax. UlGroup
Maximum Number of Uplink CEs Consumed by All Cells in an Uplink Resource Group
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of uplink CEs consumed by all cells in an uplink resource group.
Measurement Points The number of uplink CEs consumed by all cells in an uplink resource group is sampled every 30 seconds. At the end of a measurement period, the average number of uplink CEs in an uplink resource group is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of uplink CEs consumed by all cells in an uplink resource group, and the minimum of these sampling results is defined as the minimum number of uplink CEs consumed by all cells in an uplink resource group.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
Feature Name
VS.CE.ULMean.UlGroup
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.CE.ULMin.UlGroup
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.CE.ULMax.UlGroup
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
1.3 BOARD (BOARD) Overview The object type "BOARD" contains two function subsets: "TRAFFIC.BOARD" and "LOAD.BOARD".
FunctionSubSets FunctionSubSet
FunctionSubSet Name
TRAFFIC.BOARD
Board Measurement
LOAD.BOARD
Board Load Measurement
1.3.1 Board Measurement (TRAFFIC.BOARD) Overview The board measurement indicates the baseband resource usage of a certain NodeB board.
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Counters
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Counter ID
Counter Name
Counter Description
Original Release
50332582
VS.CE.DLAvailabl e.Board
The Number of Downlink CEs Configured on a Baseband Board
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332583
VS.CE.ULAvailabl e.Board
The Number of Uplink CEs Configured on a Baseband Board
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332584
VS.CE.DLMean.Bo ard
Mean Number of Downlink CEs Consumed by a Baseband Board
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332586
VS.CE.ULMean.Bo ard
Mean Number of Uplink CEs Consumed by a Baseband Board
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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Counter ID
Counter Name
Counter Description
Original Release
50342584
VS.CE.DLMin.Boa rd
Minimum Number of Downlink CEs Consumed by a Baseband Board
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50342585
VS.CE.DLMax.Boa rd
Maximum Number of Downlink CEs Consumed by a Baseband Board
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50342586
VS.CE.ULMin.Boa rd
Minimum Number of Uplink CEs Consumed by a Baseband Board
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50342587
VS.CE.ULMax.Boa rd
Maximum Number of Uplink CEs Consumed by a Baseband Board
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50342606
VS.BOARD.UsedH sdpaUserRatio.Me an
Average ratio of HSDPA users on a board
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
50342607
VS.BOARD.UsedH sdpaUserRatio.Ma x
Maximum ratio of HSDPA users on a board
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342608
VS.BOARD.UsedH supaUserRatio.Me an
Average ratio of HSUPA users on a board
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342609
VS.BOARD.UsedH supaUserRatio.Ma x
Maximum ratio of HSUPA users on a board
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None
The Number of Downlink CEs Configured on a Baseband Board Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332582
VS.CE.DLAvai lable.Board
The Number of Downlink CEs Configured on a Baseband Board
BTS3900 WCDMA, BTS3900
U
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Description The number of downlink CEs configured on a baseband board. The counter is sampled every 30 seconds. At the end of the measurement period, the maximum of these sampling results is used as the value of the counter. For example, if the measurement period is 15 minutes, there are 30 sampling results and the maximum of these sampling results is used as the value of the counter. If the board is unable to process downlink services, the number of CEs reported is zero.
Measurement Points The system samples the downlink hardware configured CEs number on available boards in an uplink resource group in period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.CE.DLAvailable.Board
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
The Number of Uplink CEs Configured on a Baseband Board Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332583
VS.CE.ULAvai lable.Board
The Number of Uplink CEs Configured on a Baseband Board
BTS3900 WCDMA, BTS3900
U
Description The number of uplink CEs configured on a baseband board. The counter is sampled every 30 seconds. At the end of the measurement period, the maximum of these sampling results is used as the value of the counter. For example, if the measurement period is 15 minutes, there are 30 Issue 12 (2014-05-30)
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sampling results and the maximum of these sampling results is used as the value of the counter. If the board is unable to process uplink services, the number of CEs reported is zero.
Measurement Points The system samples the uplink hardware configured CEs number on available boards in an uplink resource group in period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.CE.ULAvailable.Board
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of Downlink CEs Consumed by a Baseband Board Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332584
VS.CE.DLMea n.Board
Mean Number of Downlink CEs Consumed by a Baseband Board
BTS3900 WCDMA, BTS3900
U
50342584
VS.CE.DLMin. Board
Minimum Number of Downlink CEs Consumed by a Baseband Board
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342585
VS.CE.DLMax. Board
Maximum Number of Downlink CEs Consumed by a Baseband Board
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of downlink CEs consumed by all cells in a board.
Measurement Points The number of downlink CEs consumed by all cells in a baseband board is sampled every 30 seconds. At the end of a measurement period, the average number of downlink CEs consumed by a baseband board is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of downlink CEs consumed by a baseband board, and the minimum of these sampling results is defined as the minimum number of downlink CEs consumed by a baseband board. The number of downlink CEs consumed by a baseband board includes the number of CEs consumed by common channels in a cell, and these CEs are not included in the VS.CE.DLAvailable.Board counter. Therefore, the number of downlink CEs consumed by a baseband board may be greater than the value of VS.CE.DLAvailable.Board.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.CE.DLMean.Board
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.CE.DLMin.Board
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None Issue 12 (2014-05-30)
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Counter Name
Feature ID
VS.CE.DLMax.Board
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of Uplink CEs Consumed by a Baseband Board Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332586
VS.CE.ULMea n.Board
Mean Number of Uplink CEs Consumed by a Baseband Board
BTS3900 WCDMA, BTS3900
U
50342586
VS.CE.ULMin. Board
Minimum Number of Uplink CEs Consumed by a Baseband Board
BTS3900 WCDMA, BTS3900
U
50342587
VS.CE.ULMax. Board
Maximum Number of Uplink CEs Consumed by a Baseband Board
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of uplink CEs consumed by all cells in a board.
Measurement Points The number of uplink CEs consumed by all cells in a baseband board is sampled every 30 seconds. At the end of a measurement period, the average number of uplink CEs consumed by a baseband board is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of uplink CEs consumed by a baseband board, and the minimum of these sampling results is defined as the minimum number of uplink CEs consumed by a baseband board.
Formula None Issue 12 (2014-05-30)
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Unit None
Related Features Counter Name
Feature ID
VS.CE.ULMean.Board
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.CE.ULMin.Board
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.CE.ULMax.Board
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
The average ratio of HSDPA users that have been activated on the board scheduler and the ratio of HSDPA users supported by a board Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342606
VS.BOARD.Us edHsdpaUserRa tio.Mean
Average ratio of HSDPA users on a board
BTS3900 WCDMA, BTS3900
U
Description These counters indicate the ratio of HSDPA users that have been activated on the board scheduler and the ratio of HSDPA users supported by a board.
Measurement Points The ratio of HSDPA users on a board is sampled every five seconds. At the end of a measurement period, the accumulated number of HSDPA equivalent users within a sampling period is A, the number of samples is B, and the number of HSDPA users supported on the board is C. One Issue 12 (2014-05-30)
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HSDPA user is regarded as one HSDPA equivalent user. In addition, if DC-HSDPA/DBHSDPA/MC-HSDPA is activated, a DC-HSDPA/DB-HSDPA/MC-HSDPA user is regarded as one HSDPA user in the anchor carrier and one HSDPA user in the supplementary carrier, and this counter is measured in the two carriers separately. If HSDPA scheduler resource pool is enabled, all boards that support the feature are used as a shared resource pool. At the end of a measurement period, the accumulated number of HSDPA equivalent users in the resource pool within a sampling period is A, the number of samples is B, and the number of HSDPA users supported in the resource pool is C. The formula for calculating the counter is as follows: VS.BOARD.UsedHsdpaUserRatio.Mean=A/(B*C).
Formula None
Unit %
Related Features Counter Name
Feature ID
VS.BOARD.UsedHsdpaUse rRatio.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
The maximum ratio of HSDPA users that have been activated on the board scheduler and the ratio of HSDPA users supported by a board Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342607
VS.BOARD.Us edHsdpaUserRa tio.Max
Maximum ratio of HSDPA users on a board
BTS3900 WCDMA, BTS3900
U
Description These counters indicate the ratio of HSDPA users that have been activated on the board scheduler and the ratio of HSDPA users supported by a board. Issue 12 (2014-05-30)
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Measurement Points The ratio of HSDPA users is sampled every five seconds. At the end of a measurement period, the maximum number of HSDPA equivalent users on a board is A and the number of HSDPA users supported on the board is C. One HSDPA user is regarded as one HSDPA equivalent user. In addition, if DC-HSDPA/DB-HSDPA/MC-HSDPA is activated, a DC-HSDPA/DB-HSDPA/ MC-HSDPA user is regarded as one HSDPA user in the anchor carrier and one HSDPA user in the supplementary carrier, and this counter is measured in the two carriers separately. If HSDPA scheduler resource pool is enabled, all boards that support the feature are used as a shared resource pool. At the end of a measurement period, the maximum number of HSDPA equivalent users in the resource pool within a sampling period is A, and the number of HSDPA users supported in the resource pool is C. The formula for calculating the counter is as follows: VS.BOARD.UsedHsdpaUserRatio.Max = A/C.
Formula None
Unit %
Related Features Counter Name
Feature ID
VS.BOARD.UsedHsdpaUse rRatio.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
The average ratio of HSUPA users that have been activated on the board scheduler and the ratio of HSUPA users supported by boards. Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342608
VS.BOARD.Us edHsupaUserRa tio.Mean
Average ratio of HSUPA users on a board
BTS3900 WCDMA, BTS3900
U
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Description These counters indicate the ratio of HSUPA users that have been activated on the board scheduler and the ratio of HSUPA users supported by boards.
Measurement Points The ratio of HSUPA users on a board is sampled every five seconds. At the end of a measurement period, the accumulated number of HSUPA equivalent users is A, the number of samples is B, and the number of HSUPA users supported on the board is C. The formula for calculating the counter is as follows: VS.BOARD.UsedHsupaUserRatio.Mean = A/(B*C). Note that one one HSUPA user is regarded as one HSUPA equivalent user. In addition, when the DC-HSUPA feature is activated, a DC-HSUPA user is regarded as one HSUPA user in the anchor carrier and one HSUPA user in the supplementary carrier, and this counter is measured in the two carriers separately.
Formula None
Unit %
Related Features Counter Name
Feature ID
VS.BOARD.UsedHsupaUse rRatio.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None
The maximum ratio of HSUPA users that have been activated on the board scheduler and the ratio of HSUPA users supported by boards. Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342609
VS.BOARD.Us edHsupaUserRa tio.Max
Maximum ratio of HSUPA users on a board
BTS3900 WCDMA, BTS3900
U
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Description These counters indicate the ratio of HSUPA users that have been activated on the board scheduler and the ratio of HSUPA users supported by boards.
Measurement Points The ratio of HSUPA users is sampled every five seconds. At the end of a measurement period, the maximum number of HSUPA equivalent users on a board is A and the number of HSUPA users supported on the board is C. The formula for calculating the counter is as follows: VS.BOARD.UsedHsupaUserRatio.Max = A/C. Note that one one HSUPA user is regarded as one HSUPA equivalent user. In addition, when the DC-HSUPA feature is activated, a DCHSUPA user is regarded as one HSUPA user in the anchor carrier and one HSUPA user in the supplementary carrier, and this counter is measured in the two carriers separately.
Formula None
Unit %
Related Features Counter Name
Feature ID
VS.BOARD.UsedHsupaUse rRatio.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
1.3.2 Board Load Measurement (LOAD.BOARD) Overview This counter provides the load on a board in the NodeB.
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Counters Counter ID
Counter Name
Counter Description
Original Release
50333648
VS.BRD.CPULOA D.MAX
Maximum Board CPU Usage
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50333649
VS.BRD.CPULOA D.MEAN
Average Board CPU Usage
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50343648
VS.BRD.CPULOA D.OVER
Board CPU Usage Exceeding the Threshold (%)
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
Counter Relationship None
Maximum and Average Board CPU Usage Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50333648
VS.BRD.CPUL OAD.MAX
Maximum Board CPU Usage
BTS3900 WCDMA
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50333649
VS.BRD.CPUL OAD.MEAN
Average Board CPU Usage
BTS3900 WCDMA
U
Description This counter provides the maximum and average CPU usage of a board in a specified measurement period. In the current version, either counter 50333648 VS.BRD.CPULOAD.MAX or the 1593835632 VS.BBUBoard.CPULoad.Max counter is used, or they can both be used. The reported value of counter 50333648 VS.BRD.CPULOAD.MAX is normal but counter 50333648 VS.BRD.CPULOAD.MAX is not recommended for use. In a later version, only the 1593835632 VS.BBUBoard.CPUload.Max counter is used. In the current version, either counter 50333649 VS.BRD.CPULOAD.MEAN or the 1593835633 VS.BBUBoard.CPUload.Mean counter is used, or they can both be used. The reported value of counter 50333649 VS.BRD.CPULOAD.MEAN is normal but counter 50333649 VS.BRD.CPULOAD.MEAN is not recommended for use. In a later version, only the 1593835633 VS.BBUBoard.CPUload.Mean counter is used.
Measurement Points In the sampling interval of 5s, the CPU usage is sampled many times, and the average of these sampling results is used as the average CPU usage of this sampling interval. The maximum or the average of the final sampling results is used as the value of this counter. Each sampling result is based on the maximum usage among multiple CPUs in the board. For example, if the number of times that the average CPU usage exceeds the preconfigured threshold in the measurement period is X1, X2, X3, ..., and Xn, the value of the VS.Board.CPUload.Max and VS.Board.CPUload.Mean counters are calculated using the following formulae: VS.BRD.CPULOAD.MAX = MAX(Xi), VS.BRD.CPULOAD.MEAN =(X1+X2+...+Xn)/n.
Formula None
Unit %
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Related Features Counter Name
Feature ID
Feature Name
VS.BRD.CPULOAD.MAX
Multi-mode: MRFD-210302
Fault Management
GSM: None UMTS: None LTE: None VS.BRD.CPULOAD.MEA N
Multi-mode: MRFD-210302
Fault Management
GSM: None UMTS: None LTE: None
Percentage of Cpu Use Rate Overload Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50343648
VS.BRD.CPUL OAD.OVER
Board CPU Usage Exceeding the Threshold (%)
BTS3900 WCDMA
U
Description This counter provides the percentage of the period during which the CPU usage of a board exceeds the threshold to the entire measurement period. Counter 50343648 VS.BRD.CPULOAD.OVER will be replaced by counter 1593835634 VS.BBUBoard.CPULoad.Over in later versions. In the current version, counters 50343648 VS.BRD.CPULOAD.OVER and 1593835634 VS.BBUBoard.CPULoad.Over are both valid, and the value of counter 50343648 VS.BRD.CPULOAD.OVER is properly reported. Counter 50343648 VS.BRD.CPULOAD.OVER will be deleted in later versions. Using counter 50343648 VS.BRD.CPULOAD.OVER is not recommended.
Measurement Points In a measurement period, the average CPU usage is sampled every 5s. The percentage of the period during which the CPU usage of a board exceeds the threshold to the entire measurement period is used as the value of this counter. Each sampling result is based on the maximum usage among multiple CPUs in the board.
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Formula None
Unit %
Related Features Counter Name
Feature ID
Feature Name
VS.BRD.CPULOAD.OVER
Multi-mode: MRFD-210302
Fault Management
GSM: None UMTS: None LTE: None
1.4 NODE (NODE) Overview The object type NODE contains node-related function subset.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Equipment.Node
Node Equipment Performance Measurement
1.4.1 Node Equipment Performance Measurement (Equipment.Node) Overview The Node Equipment Performance Measurement function subset measures the node equipment performance measurement.
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Counters Counter ID
Counter Name
Counter Description
Original Release
1593835620
VS.PSU.ShutdownTime
PSU shutdown total time
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1593835628
VS.EnergyCons.BT S.Adding.UMTS
The sum of power consumption of all boards in UMTS
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1593835629
VS.EnergyCons.BT S.Measuring.UMT S
Power consumption measured by the power system of UMTS
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None
PSU shutdown total time
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1593835620
VS.PSU.Shutdo wnTime
PSU shutdown total time
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the shutdown duration of all power supplying units (PSUs) in the base station within the measurement period.
Measurement Points In a measurement period, the intelligent shutdown status of each PSU is sampled every second. When one or more PSUs are intelligently shut down, this counter is added by one.
Formula None
Unit s
Related Features Counter Name
Feature ID
VS.PSU.ShutdownTime
Multi-mode: None
Feature Name
GSM: GBFD-111608
PSU Intelligent Shutdown
UMTS: WRFD-020121
Intelligent Power Management
LTE: LOFD-001056 TDLOFD-001056
PSU Intelligent Sleep Mode PSU Intelligent Sleep Mode
The sum of power consumption of all boards in UMTS
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1593835628
VS.EnergyCons .BTS.Adding.U MTS
The sum of power consumption of all boards in UMTS
BTS3900 WCDMA, BTS3900
U
Description This counter measures the power consumption of the UMTS within a measurement period, which equals the sum of the power consumption of boards and RF modules working in UMTS mode. In a UMTS only base station, the value of this counter equals the base station power consumption. In a multimode base station, the value of this counter is a part of the base station power consumption.
Measurement Points The system samples the power consumption of boards and RF modules working in UMTS mode every 5 minutes. At the end of a measurement period, the sum of these estimated sampling results is used as the value of this counter.
Formula None
Unit kWh
Related Features Counter Name
Feature ID
VS.EnergyCons.BTS.Addin g.UMTS
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020406 LTE: None
Intelligent Power Measurement
Power consumption measured by the power system of UMTS Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1593835629
VS.EnergyCons .BTS.Measurin g.UMTS
Power consumption measured by the power system of UMTS
BTS3900 WCDMA, BTS3900
U
Description This counter measures the power consumption of the UMTS within a measurement period. In a UMTS only base station, the value of this counter equals the base station power consumption. In a multimode base station, the value of this counter is a part of the base station power consumption.
Measurement Points The system samples the power consumption measured by the power system every 5 minutes. At the end of a measurement period, the sum of these sampling results divided by the number of modes where the PMU is configured equals to the UMTS power consumption and is used as the value of the counter.
Formula None
Unit kWh
Related Features Counter Name
Feature ID
VS.EnergyCons.BTS.Measu ring.UMTS
Multi-mode: None GSM: None UMTS: WRFD-020406 LTE: None
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Feature Name
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Intelligent Power Measurement
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1.5 BBUBoard (BBUBoard) Overview The object type BBU Board contains function subset related to the BBU board.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Load.BBUBoard
BBU Board Load Performance Measurement
1.5.1 BBU Board Load Performance Measurement (Load.BBUBoard) Overview The BBU Board Load Performance Measurement function subset measures the load on a BBU board.
Counters Counter ID
Counter Name
Counter Description
Original Release
1593835630
VS.BBUBoard.CP ULoad.CumulativeHighloadCount
The number of times of CPU Use Rate Overload
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1593835632
VS.BBUBoard.CP ULoad.Max
Maximum Board CPU Usage
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1593835633
VS.BBUBoard.CP ULoad.Mean
Average Board CPU Usage
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1593835634
VS.BBUBoard.CP ULoad.Over
Board CPU Usage Exceeding the Threshold (%)
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
The number of times of CPU Use Rate Overload Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1593835630
VS.BBUBoard. CPULoad.Cum ulativeHighload Count
The number of times of CPU Use Rate Overload
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the number of times of CPU use rate overload.
Measurement Points In the sampling interval of 5s, the CPU usage is sampled many times, and the average of these sampling results is used as the average CPU usage of this sampling interval. At the end of a measurement period, the number of times that the average CPU usage exceeds the preconfigured threshold is used as the value of the counter. The preconfigured threshold is 85%. For example, if the number of times that the average CPU usage exceeds the preconfigured threshold in the measurement period is X1, X2, X3, ..., and Xn, the value of the VS.BBUBoard.CPULoad.CumulativeHighloadCount counter is the sum of X1, X2, X3, ..., and Xn.
Formula None
Unit None
Related Features Counter Name
Feature ID
Feature Name
VS.BBUBoard.CPULoad.C umulativeHighloadCount
Multi-mode: MRFD-210302
Fault Management
GSM: GBFD-111202
O&M of BTS
UMTS: None LTE: None
Maximum and Average Board CPU Usage
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1593835632
VS.BBUBoard. CPULoad.Max
Maximum Board CPU Usage
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1593835633
VS.BBUBoard. CPULoad.Mean
Average Board CPU Usage
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the maximum and average CPU usage of a board in a specified measurement period.
Measurement Points In the sampling interval of 5s, the CPU usage is sampled many times, and the average of these sampling results is used as the average CPU usage of this sampling interval. The maximum or the average of the final sampling results is used as the value of this counter. Each sampling result is based on the maximum usage among multiple CPUs in the board. For example, if the number of times that the average CPU usage exceeds the preconfigured threshold in the measurement period is X1, X2, X3, ..., and Xn, the value of the VS.BBUBoard.CPUload.Max and VS.BBUBoard.CPUload.Mean counters are calculated using the following formulae: VS.BBUBoard.CPUload.Max = MAX(Xi), VS.BBUBoard.CPUload.Mean =(X1+X2+...+Xn)/ n.
Formula None
Unit %
Related Features Counter Name
Feature ID
Feature Name
VS.BBUBoard.CPULoad.M ax
Multi-mode: MRFD-210302
Fault Management
GSM: GBFD-111202
O&M of BTS
UMTS: None LTE: None Issue 12 (2014-05-30)
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter Name
Feature ID
Feature Name
VS.BBUBoard.CPULoad.M ean
Multi-mode: MRFD-210302
Fault Management
GSM: GBFD-111202
O&M of BTS
UMTS: None LTE: None
Percentage of Cpu Use Rate Overload Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1593835634
VS.BBUBoard. CPULoad.Over
Board CPU Usage Exceeding the Threshold (%)
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the percentage of the period during which the CPU usage of a board exceeds the threshold to the entire measurement period.
Measurement Points In the measurement period of 5s, the CPU usage is sampled many times, and the average of these sampling results is used as the final sampling result of this measurement period. The percentage of the period during which the CPU usage of a board exceeds the threshold to the entire measurement period is used as the value of this counter. Each sampling result is based on the maximum usage among multiple CPUs in the board.
Formula None
Unit %
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
Feature Name
VS.BBUBoard.CPULoad.O ver
Multi-mode: MRFD-210302
Fault Management
GSM: GBFD-111202
O&M of BTS
UMTS: None LTE: None
1.6 Measurement of Ethernet port performance (ETHPORT) Overview The object type FEGE Measurement contains the function subset related to the Ethernet port. It represents the traffic volume of services and communication quality of the Ethernet port on the transmission board in the base station.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Physical.FEGE
Measurement related to Ethernet port
1.6.1 Measurement related to Ethernet port (Physical.FEGE) Overview The ETHPORT function subset measures the traffic volumes at the data link layer on an Ethernet port, helping users to plan network. Figure 1-1 shows the position of the Ethernet port in the TCP/IP model. Figure 1-1
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counters Counter ID
Counter Name
Counter Description
Original Release
1542455297
VS.FEGE.TxBytes
Number of bytes in the packets successfully transmitted on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455298
VS.FEGE.TxPackets
Number of packets successfully transmitted on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455299
VS.FEGE.RxBytes
Number of bytes in the packets successfully received on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542455300
VS.FEGE.RxPackets
Number of packets successfully received on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455301
VS.FEGE.RxErrPackets
Number of error packets received on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455302
VS.FEGE.TxMaxSpeed
Maximum transmit rate on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542455303
VS.FEGE.TxMinSpeed
Minimum transmit rate on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455304
VS.FEGE.TxMean Speed
Average transmit rate on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455305
VS.FEGE.RxMaxSpeed
Maximum receive rate on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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40
3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542455306
VS.FEGE.RxMinSpeed
Minimum receive rate on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455307
VS.FEGE.RxMean Speed
Average receive rate on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542460296
VS.FEGE.TxTotalBW
Total transmit bandwidth on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542460297
VS.FEGE.RxTotalBW
Total receive bandwidth on the Ethernet port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
Number of Bytes on the Ethernet Port Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455297
VS.FEGE.TxB ytes
Number of bytes in the packets successfully transmitted on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of bytes in the packets successfully received on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
1542455299
VS.FEGE.RxB ytes
BTS3900 G,U,L
BTS3900
Description These counters provide the number of bytes in the packets successfully transmitted and the number of bytes in the packets successfully received on an Ethernet port within a measurement period, respectively. They reflect the traffic on the Ethernet port at the data link layer. The counter value includes the number of bytes in the MAC header, VLAN flag, payload, and CRC field that is at the end of a packet. Issue 12 (2014-05-30)
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Measurement Points The number of bytes in the packets successfully transmitted or successfully received on the Ethernet port is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit byte
Related Features Counter Name
Feature ID
VS.FEGE.TxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.FEGE.RxBytes
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Packets on the Ethernet Port Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455298
VS.FEGE.TxPa ckets
Number of packets successfully transmitted on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455300
VS.FEGE.RxPa ckets
Number of packets successfully received on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of error packets received on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
1542455301
VS.FEGE.RxEr rPackets
BTS3900 G,U,L
BTS3900
Description These counters provide the number of transmitted packets, received packets, or error packets on an Ethernet port within a measurement period. They reflect the traffic on and the transmission quality of the Ethernet port at the data link layer. The FEGE.RxErrPackets counter provides the number of error packets received on physical links and failed in CRC checks.
Measurement Points The number of transmitted packets, received packets, or error packets is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.FEGE.TxPackets
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
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Feature Name
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
44
3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter Name
Feature ID
VS.FEGE.RxPackets
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.FEGE.RxErrPackets
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Rate on the Ethernet Port Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455302
VS.FEGE.TxM axSpeed
Maximum transmit rate on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455303
VS.FEGE.TxM inSpeed
Minimum transmit rate on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455304
VS.FEGE.TxM eanSpeed
Average transmit rate on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455305
VS.FEGE.RxM axSpeed
Maximum receive rate on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455306
VS.FEGE.RxM inSpeed
Minimum receive rate on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 Issue 12 (2014-05-30)
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455307
VS.FEGE.RxM eanSpeed
Average receive rate on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description The counters measure the transmit rate and the receive rate on the Ethernet port within a measurement period. They indicate the traffic on the Ethernet port at the data link layer.
Measurement Points The transmit rate or the receive rate on the Ethernet port is sampled per second. At the end of a measurement period, the maximum, minimum, or average of these sampling results is used as the value of the corresponding counter.
Formula None
Unit bit/s
Related Features Counter Name
Feature ID
VS.FEGE.TxMaxSpeed
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
VS.FEGE.TxMinSpeed
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
Issue 12 (2014-05-30)
Feature Name
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
46
3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter Name
Feature ID
VS.FEGE.TxMeanSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.FEGE.RxMaxSpeed
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.FEGE.RxMinSpeed
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.FEGE.RxMeanSpeed
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Available Bandwidth on the Ethernet Port Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460296
VS.FEGE.TxTo talBW
Total transmit bandwidth on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460297
VS.FEGE.RxT otalBW
Total receive bandwidth on the Ethernet port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description These counters provide total transmit and receive bandwidth in Ethernet in the current measurement period, reflecting the ETH bandwidth.
Measurement Points Available bandwidth in the transmit and receive directions of the Ethernet per second. At the end of a measurement period, the average of these sampling results is used as the value of the corresponding counter.
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.FEGE.TxTotalBW
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
VS.FEGE.RxTotalBW
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
Issue 12 (2014-05-30)
Feature Name
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
48
3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
1.7 Measurement of E1/T1 port performance (E1T1) Overview The object type E1T1 Measurement contains the E1/T1 port-related function subset. It represents the traffic volume of services and communication quality of the E1/T1 port on the transmission board in the base station.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Physical.E1T1
Measurement related to E1T1 port
1.7.1 Measurement related to E1T1 port (Physical.E1T1) Overview The E1T1 function subset helps analyze the transmission quality of the system and ensure the stable and reliable running of the system. Figure 1-2 shows the position of the E1/T1 port in the TCP/IP model. Figure 1-2
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counters Counter ID
Counter Name
Counter Description
Original Release
1542455312
VS.E1T1.CodeViolate
Number of Code Type Errors on the E1/T1 Electrical Port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455313
VS.E1T1.FramingError
Number of Base Frame Alignment Errors on the E1/T1 Electrical Port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455314
VS.E1T1.CrcError
Number of CRC Errors on the E1/T1 Electrical Port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542455315
VS.E1T1.EbitError
Number of Ebit Errors on the E1/T1 Port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455316
VS.E1T1.Sa6Error
Number of Sa6 Errors on the E1/T1 Port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455320
VS.E1T1.Multiframe
Number of multiframe cycles at the E1/T1 port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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51
3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542455321
VS.E1T1.FrameAlignChanged
Number of Times that Frames Are Not Aligned
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455866
VS.E1T1.ES.TES
Total Errored Seconds in the TX Direction
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R006 C00
1542455867
VS.E1T1.ES.TSES
Total Severely Errored Seconds in the TX Direction
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R006 C00
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52
3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542455868
VS.E1T1.ES.TUAS
Total Unavailable Seconds in the TX Direction
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R006 C00
1542455869
VS.E1T1.ES.RES
Total Errored Seconds in the RX Direction
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R006 C00
1542455870
VS.E1T1.ES.RSES
Total Severely Errored Seconds in the RX Direction
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R006 C00
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542455871
VS.E1T1.ES.RUAS
Total Unavailable Seconds in the RX Direction
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R006 C00
Counter Relationship None
Number of Code Type Errors on the E1/T1 Electrical Port Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455312
VS.E1T1.Code Violate
Number of Code Type Errors on the E1/T1 Electrical Port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of code type errors on the E1/T1 electrical port within a measurement period. A code type error occurs if the line coding modes at two communicating E1/T1 electrical ports mismatch.
Measurement Points The number of code type errors on the E1/T1 electrical port is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None Issue 12 (2014-05-30)
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3900 Series Base Station Performance Counter Reference
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Unit None
Related Features Counter Name
Feature ID
VS.E1T1.CodeViolate
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Base Frame Alignment Errors on the E1/T1 Electrical Port Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455313
VS.E1T1.Frami ngError
Number of Base Frame Alignment Errors on the E1/T1 Electrical Port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of base frame alignment errors on the E1/T1 electrical port within a measurement period. A base frame alignment error prohibits the precise location of frames.
Measurement Points The number of base frame alignment errors on the E1/T1 electrical port is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None Issue 12 (2014-05-30)
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3900 Series Base Station Performance Counter Reference
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Unit None
Related Features Counter Name
Feature ID
VS.E1T1.FramingError
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of CRC Errors on the E1/T1 Electrical Port Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455314
VS.E1T1.CrcEr ror
Number of CRC Errors on the E1/T1 Electrical Port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of CRC errors on the E1/T1 electrical port within a measurement period. This counter is relevant only for CRC multiframes (E1) or extended superframes (T1).
Measurement Points The measurement is performed per second to count the number of CRC errors on the E1/T1 electrical port, and the sum of these sampling results is calculated as the result of the corresponding counter at the end of a measurement period.
Formula None
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3900 Series Base Station Performance Counter Reference
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Unit None
Related Features Counter Name
Feature ID
VS.E1T1.CrcError
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Ebit Errors on the E1/T1 Port Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455315
VS.E1T1.EbitE rror
Number of Ebit Errors on the E1/T1 Port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of Ebit errors, that is the number of cyclic redundancy check (CRC) failures reported by the peer end, within a measurement period. The counter measures the number of Ebit errors for CRC multi-frames (E1) or extended super-frames (T1).
Measurement Points The number of Ebit errors on the E1/T1 port is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit None Issue 12 (2014-05-30)
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3900 Series Base Station Performance Counter Reference
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Related Features Counter Name
Feature ID
VS.E1T1.EbitError
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Sa6 Errors on the E1/T1 Port Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455316
VS.E1T1.Sa6Er ror
Number of Sa6 Errors on the E1/T1 Port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of Sa6 errors on the E1 port within a measurement period. This counter is relevant only for CRC multiframes (E1 port).
Measurement Points The measurement is performed per second to count the number of Sa6 errors on the E1 port, and the sum of these sampling results is calculated as the result of the corresponding counter at the end of a measurement period.
Formula None
Unit None
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
VS.E1T1.Sa6Error
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of multiframe cycles at the E1/T1 port Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455320
VS.E1T1.Multi frame
Number of multiframe cycles at the E1/ T1 port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of multiframe cycles on the E1/T1 electrical port within a measurement period.
Measurement Points The measurement is performed per second to count the number of multiframe cycles on the E1/ T1 electrical port, and the sum of these sampling results is calculated as the result of the corresponding counter at the end of a measurement period.
Formula None
Unit None
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Related Features Counter Name
Feature ID
VS.E1T1.Multiframe
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Times that Frames Are Not Aligned Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455321
VS.E1T1.Fram eAlignChanged
Number of Times that Frames Are Not Aligned
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of times that frames are not aligned within a measurement period. It indicates the multiframe variable. This counter is relevant only for CRC multiframes (E1) or extended superframes (T1).
Measurement Points The measurement is performed per second to count the number of times that frames are not aligned on the E1/T1 electrical port. Every time the multi-frames (E1) or extended super-frames (T1) change, the counter increases by one.
Formula None
Unit None
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Related Features Counter Name
Feature ID
VS.E1T1.FrameAlignChanged
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Total Errored Seconds in the TX Direction Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455866
VS.E1T1.ES.T ES
Total Errored Seconds in the TX Direction
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the total error seconds in the TX direction on an E1/T1 link. It reflects the quality on the E1/T1 link. A second is considered an error second in the TX direction if an e-bit error occurs or an RDI alarm is generated in this second.
Measurement Points This counter is sampled per second in the TX direction. This counter is increased by one each time a second is considered as a errored second.
Formula None
Unit s
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Related Features Counter Name
Feature ID
VS.E1T1.ES.TES
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Total Severely Errored Seconds in the TX Direction Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455867
VS.E1T1.ES.T SES
Total Severely Errored Seconds in the TX Direction
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the total severely errored seconds (SESs) in the TX direction on an E1/ T1 link. It reflects the quality on the E1/T1 link. A second is considered a severe error bit second in the TX direction if the e-bit error rate is larger than 30% or an RDI alarm is generated in this second.
Measurement Points This counter is sampled per second in the TX direction. This counter is increased by one each time a second is considered as a severely errored second.
Formula None
Unit s
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Related Features Counter Name
Feature ID
VS.E1T1.ES.TSES
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Total Unavailable Seconds in the TX Direction Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455868
VS.E1T1.ES.T UAS
Total Unavailable Seconds in the TX Direction
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the total severely errored seconds (SESs) in the TX direction on an E1/ T1 link. If there are more than 10 consecutive seconds with severe bit errors, these seconds are considered as SESs.
Measurement Points This counter is sampled per second in the TX direction.
Formula None
Unit s
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Related Features Counter Name
Feature ID
VS.E1T1.ES.TUAS
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Total Errored Seconds in the RX Direction Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455869
VS.E1T1.ES.R ES
Total Errored Seconds in the RX Direction
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the total errored seconds in the RX direction on an E1/T1 link. It reflects the quality on the E1/T1 link. A second is considered an error second in the RX direction if an error occurs or an LOS/AIS/LOF alarm is generated in this second.
Measurement Points This counter is sampled per second in the RX direction. This counter is increased by one each time a second is considered as a errored second.
Formula None
Unit s
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Related Features Counter Name
Feature ID
VS.E1T1.ES.RES
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Total Severely Errored Seconds in the RX Direction Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455870
VS.E1T1.ES.R SES
Total Severely Errored Seconds in the RX Direction
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the total severely errored seconds (SESs) in the RX direction on an E1/ T1 link. It reflects the quality on the E1/T1 link. A second is considered a severe error bit second in the RX direction if the bit error rate is larger than 30% or an LOS/AIS/LOF alarm is generated in this second.
Measurement Points This counter is sampled per second in the RX direction. This counter is increased by one each time a second is considered as a severely errored second.
Formula None
Unit s
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Related Features Counter Name
Feature ID
VS.E1T1.ES.RSES
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Total Unavailable Seconds in the RX Direction Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455871
VS.E1T1.ES.R UAS
Total Unavailable Seconds in the RX Direction
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the total severely errored seconds (SESs) in the RX direction on an E1/ T1 link. If there are more than 10 consecutive seconds with severe bit errors, these seconds are considered as SESs.
Measurement Points This counter is sampled per second in the RX direction.
Formula None
Unit s
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Related Features Counter Name
Feature ID
Feature Name
VS.E1T1.ES.RUAS
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-05030101
ATM over E1T1 on Iub Interface
WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
1.8 Measurement of PPP Link performance (PPP) Overview The object type PPP Measurement contains the PPP link-related function subset. It represents the traffic volume of services carried by the PPP link of the transmission board in the base station and the quality of service.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
DataLink.PPP
Measurement related to PPP link
1.8.1 Measurement related to PPP link (DataLink.PPP) Overview The DataLink.PPP function subset measures the number of packets transmitted on the PPP link of the base station and evaluates the information about the rates, for example, the number of received packets, the number of transmitted packets, and the rate. It represents the traffic volume and quality of services carried by the PPP link. Figure 1-3 shows the position of the PPP link in the TCP/IP model.
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Figure 1-3
Counters Counter ID
Counter Name
Counter Description
Original Release
1542455334
VS.PPP.TxPackets
Number of Packets Successfully Transmitted on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
1542455335
VS.PPP.TxBytes
Number of Bytes in the Packets Successfully Transmitted on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455336
VS.PPP.TxDropPk ts
Number of Packets to Be Transmitted but Discarded on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
1542455337
VS.PPP.RxPackets
Number of Packets Successfully Received on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
1542455338
VS.PPP.RxBytes
Number of Bytes in the Packets Successfully Received on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455339
VS.PPP.RxDropPk ts
Number of Packets Received but Discarded on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
1542455343
VS.PPP.TxMaxSpeed
Maximum Transmit Rate on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
1542455344
VS.PPP.TxMinSpeed
Minimum Transmit Rate on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455345
VS.PPP.TxMeanSpeed
Average Transmit Rate on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
1542455346
VS.PPP.RxMaxSpeed
Maximum Receive Rate on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
1542455347
VS.PPP.RxMinSpeed
Minimum Receive Rate on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455348
VS.PPP.RxMeanSpeed
Average Receive Rate on the PPP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:Version earlier than V100R003C00
1542460298
VS.PPP.TxTotalB W
Total transmit bandwidth of the PPP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460299
VS.PPP.RxTotalB W
Total receive bandwidth of the PPP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
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Number of Packets on the PPP Link Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455334
VS.PPP.TxPack ets
Number of Packets Successfully Transmitted on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of Packets to Be Transmitted but Discarded on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
Number of Packets Successfully Received on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
Number of Packets Received but Discarded on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
1542455336
VS.PPP.TxDro pPkts
1542455337
VS.PPP.RxPac kets
1542455339
VS.PPP.RxDro pPkts
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.PPP.TxPackets
This counter measures the number of packets successfully transmitted on the PPP link within a measurement period. It indicates the traffic on the PPP link.
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Counter Name
Description
VS.PPP.TxDropPkts
This counter measures the number of packets that are to be transmitted but discarded on the PPP link within a measurement period. It indicates the traffic on the PPP link. Packet losses occur in the following situations: 1. The PPP link is not stable or activated. 2. The protocol number of transmitted packets is invalid. For example, the protocol number is not one of 0x0021, 0x0061, 0x0065, 0x0059, and 0x003d.
VS.PPP.RxPackets
This counter measures the number of packets successfully received on the PPP link within a measurement period. It indicates the traffic on the PPP link.
VS.PPP.RxDropPkts
This counter measures the number of packets that are to be received but discarded on the PPP link within a measurement period. It indicates the traffic on the PPP link. Packet losses occur in the following situations: 1. The PPP link is not stable or activated. 2. The protocol number of received packets is invalid. For example, the protocol number is not one of 0x0021, 0x0061, 0x0065, 0x0059, and 0x003d.
Measurement Points Number of successfully transmitted packets, packets discarded by the transmit direction, successfully received packets, and packets discarded by the receive direction on the PPP link per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
VS.PPP.TxPackets
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.PPP.TxDropPkts
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.PPP.RxPackets
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.PPP.RxDropPkts
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
Number of Bytes on the PPP Link
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455335
VS.PPP.TxByte s
Number of Bytes in the Packets Successfully Transmitted on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of Bytes in the Packets Successfully Received on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
1542455338
VS.PPP.RxByte s
BTS3900
G,U,L
BTS3900
Description The following table describes the meanings of each counter. Counter Name
Description
VS.PPP.TxBytes
This counter measures the number of bytes successfully transmitted on the PPP link within a measurement period. This counter measures the total number of bytes in the address field, control field, protocol field, and information field in a packet. It indicates the traffic on the PPP link.
VS.PPP.RxBytes
This counter measures the number of bytes successfully received on the PPP link within a measurement period. This counter measures the total number of bytes in the address field, control field, protocol field, and information field in a packet. It indicates the traffic on the PPP link.
Measurement Points Number of bytes successfully transmitted and received on the PPP link per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
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Formula None
Unit byte
Related Features Counter Name
Feature ID
VS.PPP.TxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004
Compression & Multiplexing over E1/T1
TDLBFD-003004
Compression & Multiplexing over E1/T1 VS.PPP.RxBytes
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004
Compression & Multiplexing over E1/T1
TDLBFD-003004
Compression & Multiplexing over E1/T1
Rate on the PPP Link Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455343
VS.PPP.TxMax Speed
Maximum Transmit Rate on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455344
VS.PPP.TxMin Speed
Minimum Transmit Rate on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455345
VS.PPP.TxMea nSpeed
Average Transmit Rate on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455346
VS.PPP.RxMax Speed
Maximum Receive Rate on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455347
VS.PPP.RxMin Speed
Minimum Receive Rate on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455348
VS.PPP.RxMea nSpeed
Average Receive Rate on the PPP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.PPP.TxMaxSpeed
This counter measures the maximum transmit rate on the PPP link within a measurement period. It counter indicates the traffic on the PPP link.
VS.PPP.TxMinSpeed
This counter measures the minimum transmit rate on the PPP link within a measurement period. It counter indicates the traffic on the PPP link.
VS.PPP.TxMeanSpeed
This counter measures the average transmit rate on the PPP link within a measurement period. It indicates the traffic on the PPP link.
VS.PPP.RxMaxSpeed
This counter measures the maximum receive rate on the PPP link within a measurement period. It indicates the traffic on the PPP link.
VS.PPP.RxMinSpeed
This counter measures the minimum receive rate on the PPP link within a measurement period. It indicates the traffic on the PPP link.
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Counter Name
Description
VS.PPP.RxMeanSpeed
This counter measures the average receive rate on the PPP link within a measurement period. It indicates the traffic on the PPP link.
Measurement Points Number of bytes transmitted and received on the PPP link per second. At the end of a measurement period, the maximum, minimum, and average sampling results are reported.
Formula None
Unit bit/s
Related Features Counter Name
Feature ID
VS.PPP.TxMaxSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.PPP.TxMinSpeed
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
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Counter Name
Feature ID
VS.PPP.TxMeanSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.PPP.RxMaxSpeed
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.PPP.RxMinSpeed
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.PPP.RxMeanSpeed
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
Total bandwidth of the PPP link
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460298
VS.PPP.TxTota lBW
Total transmit bandwidth of the PPP link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542460299
VS.PPP.RxTota lBW
Total receive bandwidth of the PPP link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description The following table describes the meanings of each counter. Counter Name
Description
VS.PPP.TxTotalBW
Total transmission bandwidth in PPP link is measured in the current measurement period, reflecting the PPP bandwidth.
VS.PPP.RxTotalBW
Total receive bandwidth in PPP link is measured in the current measurement period, reflecting the PPP bandwidth.
Measurement Points Available bandwidth in the transmit and receive directions of the PPP link per second. At the end of a measurement period, the average of these sampling results is used as the value of the corresponding counter.
Formula None
Unit kbit/s
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Related Features Counter Name
Feature ID
Feature Name
VS.PPP.TxTotalBW
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.PPP.RxTotalBW
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
1.9 Measurement of MP Group performance (MPGRP) Overview The object type MP Group Measurement (MPGRP) contains the function subset related to the MP group. It represents the traffic volume and service quality of the transmission board in the base station.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
DataLink.MPGRP
Measurement related to MP
1.9.1 Measurement related to MP (DataLink.MPGRP) Overview The MPGRP function subset measures traffic volumes of the services carried by the MPGRP links and the service quality. Figure 1-4 shows the position of the MP group in the TCP/IP model. Issue 12 (2014-05-30)
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Figure 1-4
Counters Counter ID
Counter Name
Counter Description
Original Release
1542455349
VS.MP.TxPackets
Number of Packets Successfully Transmitted by the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455350
VS.MP.TxBytes
Number of Bytes in the Packets Successfully Transmitted by the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455351
VS.MP.TxDropPkt s
Number of Packets That Are to Be Transmitted But Discarded by the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455352
VS.MP.RxPackets
Number of Packets Successfully Received by the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455353
VS.MP.RxBytes
Number of Bytes in the Packets Successfully Received by the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455354
VS.MP.RxDropPkt s
Number of Packets That Are Received But Discarded by the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455358
VS.MP.TxMaxSpe ed
Maximum Transmit Rate of the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455359
VS.MP.TxMinSpee d
Minimum Transmit Rate of the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455360
VS.MP.TxMeanSpeed
Average Transmit Rate of the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455361
VS.MP.RxMaxSpe ed
Maximum Receive Rate of the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455362
VS.MP.RxMinSpee d
Minimum Receive Rate of the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455363
VS.MP.RxMeanSpeed
Average Receive Rate of the MP Group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542460300
VS.MP.TxTotalB W
Total transmit bandwidth of the MP group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460301
VS.MP.RxTotalB W
Total receive bandwidth of the MP group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
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Number of Packets on the MP Group Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455349
VS.MP.TxPack ets
Number of Packets Successfully Transmitted by the MP Group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of Packets That Are to Be Transmitted But Discarded by the MP Group
BTS3900 WCDMA, BTS3900 LTE,
Number of Packets Successfully Received by the MP Group
BTS3900 WCDMA, BTS3900 LTE,
Number of Packets That Are Received But Discarded by the MP Group
BTS3900 WCDMA, BTS3900 LTE,
1542455351
VS.MP.TxDrop Pkts
1542455352
VS.MP.RxPack ets
1542455354
VS.MP.RxDrop Pkts
BTS3900 G,U,L
BTS3900
G,U,L
BTS3900 G,U,L
BTS3900
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.MP.TxPackets
This counter provides the number of packets successfully transmitted on an MP group within a measurement period. It reflects the traffic and transmission capability on the MP group.
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Counter Name
Description
VS.MP.TxDropPkts
This counter provides the number of packets that are to be transmitted but discarded on an MP group when MP links are not activated within a measurement period. It reflects the traffic and transmission capability on the MP group.
VS.MP.RxPackets
This counter provides the number of packets successfully received on an MP group within a measurement period. It reflects the traffic and transmission capability on the MP group.
VS.MP.RxDropPkts
This counter provides the number of packets that are to be received but discarded due to failed reassembling of disordered packets on MP links on an MP group within a measurement period. It reflects the traffic and transmission capability on the MP group.
Measurement Points Number of successfully transmitted packets, packets discarded by the transmit direction, successfully received packets, and packets discarded by the receive direction by the MP group is sampled per second. At the end of a measurement period, the average of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.MP.TxPackets
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
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Counter Name
Feature ID
VS.MP.TxDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004
Compression & Multiplexing over E1/T1
TDLBFD-003004
Compression & Multiplexing over E1/T1 VS.MP.RxPackets
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004
Compression & Multiplexing over E1/T1
TDLBFD-003004
Compression & Multiplexing over E1/T1 VS.MP.RxDropPkts
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004
Compression & Multiplexing over E1/T1
TDLBFD-003004
Compression & Multiplexing over E1/T1
Number of Bytes on the MP Group Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455350
VS.MP.TxByte s
Number of Bytes in the Packets Successfully Transmitted by the MP Group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455353
VS.MP.RxByte s
Number of Bytes in the Packets Successfully Received by the MP Group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description The following table describes the meanings of each counter. Counter Name
Description
VS.MP.TxBytes
This counter provides the number of bytes successfully transmitted on an MP group within a measurement period. It reflects the traffic and transmission capability on the MP group. The counter value includes the number of bytes in the MP group header and payload of a packet.
VS.MP.RxBytes
This counter provides the number of bytes successfully received on an MP group within a measurement period. It reflects the traffic and transmission capability on the MP group. The counter value includes the number of bytes in the MP group header and payload of a packet.
Measurement Points Number of bytes successfully transmitted and received by the MP group is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit byte
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Related Features Counter Name
Feature ID
VS.MP.TxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004
Compression & Multiplexing over E1/T1
TDLBFD-003004
Compression & Multiplexing over E1/T1 VS.MP.RxBytes
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004
Compression & Multiplexing over E1/T1
TDLBFD-003004
Compression & Multiplexing over E1/T1
Rate on the MP Group Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455358
VS.MP.TxMax Speed
Maximum Transmit Rate of the MP Group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455359
VS.MP.TxMin Speed
Minimum Transmit Rate of the MP Group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455360
VS.MP.TxMea nSpeed
Average Transmit Rate of the MP Group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455361
VS.MP.RxMax Speed
Maximum Receive Rate of the MP Group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455362
VS.MP.RxMin Speed
Minimum Receive Rate of the MP Group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455363
VS.MP.RxMea nSpeed
Average Receive Rate of the MP Group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.MP.TxMaxSpeed
The counter measures the maximum transmit rate of the MP group within a measurement period. This counter represents the traffic on the MP link.
VS.MP.TxMinSpeed
The counter measures the minimum transmit rate of the MP group within a measurement period. This counter represents the traffic on the MP link.
VS.MP.TxMeanSpeed
The counter measures the average transmit rate of the MP group within a measurement period. This counter represents the traffic on the MP link.
VS.MP.RxMaxSpeed
The counter measures the maximum receive rate of the MP group within a measurement period. This counter represents the traffic on the MP link.
VS.MP.RxMinSpeed
The counter measures the minimum receive rate of the MP group within a measurement period. This counter represents the traffic on the MP link.
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Counter Name
Description
VS.MP.RxMeanSpeed
The counter measures the average receive rate of the MP group within a measurement period. This counter represents the traffic on the MP link.
Measurement Points The number of bytes transmitted and received by the MP group is sampled per second. At the end of a measurement period, the maximum, minimum, and average sampling results are reported.
Formula None
Unit bit/s
Related Features Counter Name
Feature ID
VS.MP.TxMaxSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.MP.TxMinSpeed
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
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Counter Name
Feature ID
VS.MP.TxMeanSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.MP.RxMaxSpeed
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.MP.RxMinSpeed
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.MP.RxMeanSpeed
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
Available Bandwidth on the MP Group
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460300
VS.MP.TxTotal BW
Total transmit bandwidth of the MP group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542460301
VS.MP.RxTotal BW
Total receive bandwidth of the MP group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description The following table describes the meanings of each counter. Counter Name
Description
VS.MP.TxTotalBW
Total transmit bandwidth in MP group is measured in the current measurement period, reflecting the MP bandwidth.
VS.MP.RxTotalBW
Total receive bandwidth in MP group is measured in the current measurement period, reflecting the MP bandwidth.
Measurement Points Available bandwidth in the transmit and receive directions on the MP group per second. At the end of a measurement period, the average of these sampling results is used as the value of the corresponding counter.
Formula None
Unit kbit/s
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Related Features Counter Name
Feature ID
Feature Name
VS.MP.TxTotalBW
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
VS.MP.RxTotalBW
Multi-mode: None GSM: GBFD-118611
Abis IP over E1/T1
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LBFD-003004 TDLBFD-003004
Compression & Multiplexing over E1/T1 Compression & Multiplexing over E1/T1
1.10 Measurement of IP layer performance (IP) Overview The object type IP Measurement contains the function subset related to the IP layer of the transmission board in the base station. It represents the traffic volume and the service qualities of the IP layer.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Network.IP
Measurement related to IP
1.10.1 Measurement related to IP (Network.IP) Overview The Network.IP function subset measures the IP packet traffic, such as the number of successfully transmitted or received IP packets or the number of bytes in the transmitted or received IP packets. It represents the traffic volume and quality of services at the IP layer. Figure 1-5 shows the position of the IP layer in the TCP/IP model. Issue 12 (2014-05-30)
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Figure 1-5
Counters Counter ID
Counter Name
Counter Description
Original Release
1542455326
VS.IP.TxPackets
Number of successfully transmitted IP packets
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R005 C00
1542455327
VS.IP.TxBytes
Number of bytes in the successfully transmitted IP packets
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R005 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455328
VS.IP.TxDropPkts
Number of discarded IP packets transmitted
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R005 C00
1542455329
VS.IP.TxDropBytes
Number of bytes in the discarded IP packets transmitted
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R005 C00
1542455330
VS.IP.RxPackets
Number of successfully received IP packets
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R005 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455331
VS.IP.RxBytes
Number of bytes in the successfully received IP packets
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R005 C00
1542455332
VS.IP.RxDropPkts
Number of discarded IP packets received
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R005 C00
1542455333
VS.IP.RxDropBytes
Number of bytes in the discarded IP packets received
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R005 C00
Counter Relationship None
Number of IP Packets Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455326
VS.IP.TxPacket s
Number of successfully transmitted IP packets
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of discarded IP packets transmitted
BTS3900 WCDMA, BTS3900 LTE,
Number of successfully received IP packets
BTS3900 WCDMA, BTS3900 LTE,
Number of discarded IP packets received
BTS3900 WCDMA, BTS3900 LTE,
1542455328
1542455330
1542455332
VS.IP.TxDropP kts
VS.IP.RxPacket s
VS.IP.RxDropP kts
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900
Description These counters measure the number of IP packets successfully transmitted, successfully received, or discarded within a measurement period. They indicate the traffic on and the processing capability of the base station at the network layer.
Measurement Points The number of IP packets successfully transmitted, successfully received, or discarded is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The VS.IP.TxPackets counter measures the number of IP packets successfully transmitted when the routing table and ARP table are found successfully. The counter is incremented after fragment. The VS.IP.RxPackets counter measures the number of IP packets successfully received from the data link layer. This counter is incremented before reassembly. The VS.IP.TxDropPkts counter measures the number of transmitted IP packets discarded. It is incremented in any of the following conditions: (1) The forward information base (FIB) fails to be found. (2) The address of the FIB table is invalid. (3) The FIB table is invalid. (4) During the configuration of the routing load sharing, the configuration is incorrect or the routing table is invalid. The VS.IP.RxDropPkts counter measures the number of received IP packets discarded. It is incremented in any of the following conditions: (1) The IP header check fails. (2) Packet Issue 12 (2014-05-30)
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reassembly fails. (3) Broadcast packets are discarded when the access control list (ACL) filtering function is enabled.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.IP.TxPackets
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
VS.IP.TxDropPkts
UMTS: WRFD-050402 LTE: None
IP Transmission Introduction on Iub Interface
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
VS.IP.RxDropPkts
IP Transmission Introduction on Abis Interface
Multi-mode: None GSM: GBFD-118601
VS.IP.RxPackets
Feature Name
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Number of Bytes in the IP Packets
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455327
VS.IP.TxBytes
Number of bytes in the successfully transmitted IP packets
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of bytes in the discarded IP packets transmitted
BTS3900 WCDMA, BTS3900 LTE,
Number of bytes in the successfully received IP packets
BTS3900 WCDMA, BTS3900 LTE,
Number of bytes in the discarded IP packets received
BTS3900 WCDMA, BTS3900 LTE,
1542455329
1542455331
1542455333
VS.IP.TxDropBytes
VS.IP.RxBytes
VS.IP.RxDropBytes
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900
Description These counters measure the number of bytes in the successfully transmitted, successfully received, or discarded IP packets within a measurement period. They indicate the traffic and the processing capability of the base station at the network layer.
Measurement Points The number of bytes in the successfully transmitted, successfully received, or discarded IP packets is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The VS.IP.TxBytes counter measures the number of bytes in the IP packets successfully transmitted when the routing table and ARP table are found successfully. It includes the IP header and payload (or IPSec-related payload such as AH header and ESP header in IPSec scenarios). If packets need to be fragmented, this counter is incremented after fragment. The VS.IP.RxBytes counter measures the number of bytes in the IP packets successfully received from the data link layer. It includes the IP header and payload (or IPSec-related payload such as AH header and ESP header in IPSec scenarios). If packets are fragmented, this counter is incremented before packet reassembly. The VS.IP.TxDropBytes counter is incremented in any of the following conditions: (1) The forward information base (FIB) fails to be found. (2) The address of the FIB table is invalid. (3) Issue 12 (2014-05-30)
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The FIB table is invalid. (4) During the configuration of the routing load sharing, the configuration is incorrect or the routing table is invalid. The VS.IP.RxDropBytes counter is incremented in any of the following conditions: (1) The IP header check fails. (2) Packet reassembly fails. (3) Broadcast packets are discarded when the access control list (ACL) filtering function is enabled.
Formula None
Unit byte
Related Features Counter Name
Feature ID
VS.IP.TxBytes
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
VS.IP.TxDropBytes
UMTS: WRFD-050402 LTE: None
UMTS: WRFD-050402 LTE: None
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
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IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601
VS.IP.RxDropBytes
IP Transmission Introduction on Abis Interface
Multi-mode: None GSM: GBFD-118601
VS.IP.RxBytes
Feature Name
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1.11 Measurement of IP path performance (IPPath) Overview The object type IP Path Measurement contains the function subset related to the IP path in the base station. It represents the traffic volume and service qualities of IP paths that are configured on the transmission board. It represents the traffic volume of the packets that follow the General Packet Radio Service Tunneling Protocol for User Plane (GTP-U). It provides a fine-grained flow monitoring mechanism, which facilitates the user-data based Qos management.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Transport.IPPath
Measurement related to IP path
1.11.1 Measurement related to IP path (Transport.IPPath) Overview The IP Path function subset provides the measurements on an IP path in the base station. It measures the traffic volumes of services carried by an IP path and the service quality at a smaller granularity, and supports QoS management based on the traffic volumes. Figure 1-6 shows the position of the IP path in the TCP/IP model. Figure 1-6
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Counters Counter ID
Counter Name
Counter Description
Original Release
1542455872
VS.IPPath.TxBytes
Number of bytes successfully transmitted on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
1542455873
VS.IPPath.RxBytes
Number of bytes successfully received on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
1542455874
VS.IPPath.TxPkts
Number of packets successfully transmitted on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
1542455875
VS.IPPath.TxDrop Pkts
Number of discarded packets transmitted on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542455876
VS.IPPath.RxDrop Pkts
Number of discarded packets received on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
1542455877
VS.IPPath.RxPkts
Number of packets successfully received on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
1542455878
VS.IPPath.TxMean Speed
Average TX rate on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
1542455879
VS.IPPath.TxMaxSpeed
Maximum TX rate on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542455880
VS.IPPath.RxMea nSpeed
Average RX rate on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
1542455881
VS.IPPath.RxMaxSpeed
Maximum RX rate on the IP path
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00
Counter Relationship None
Number of Bytes on the IP Path Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455872
VS.IPPath.TxB ytes
Number of bytes successfully transmitted on the IP path
BTS3900 WCDMA, BTS3900
G,U
1542455873
VS.IPPath.RxB ytes
Number of bytes successfully received on the IP path
BTS3900 WCDMA, BTS3900
G,U
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Description These counters provide the number of bytes in the IP packets successfully transmitted and the number of bytes in the IP packets successfully received on an IP path at the IP layer within a measurement period, respectively. They reflect the traffic and transmission capability on the IP path at the IP layer.
Measurement Points The number of service bytes successfully transmitted or successfully received on the IP path is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The counter includes the IP header and payload.
Formula None
Unit byte
Related Features Counter Name
Feature ID
VS.IPPath.TxBytes
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
VS.IPPath.RxBytes
Feature Name
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Number of Packets on the IP Path
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455874
VS.IPPath.TxP kts
Number of packets successfully transmitted on the IP path
BTS3900 WCDMA, BTS3900
G,U
1542455875
VS.IPPath.TxD ropPkts
Number of discarded packets transmitted on the IP path
BTS3900 WCDMA, BTS3900
G,U
1542455876
VS.IPPath.RxD ropPkts
Number of discarded packets received on the IP path
BTS3900 WCDMA, BTS3900
G,U
1542455877
VS.IPPath.RxP kts
Number of packets successfully received on the IP path
BTS3900 WCDMA, BTS3900
G,U
Description These counters provide the number of IP packets successfully transmitted, successfully received, transmitted but discarded or received but discarded on an IP path at the IP layer within a measurement period, respectively. They reflect the traffic and transmission capability on the IP path at the IP layer.
Measurement Points The number of service packets transmitted or received on the IP path is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
VS.IPPath.TxPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.IPPath.TxDropPkts
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.IPPath.RxDropPkts
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.IPPath.RxPkts
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Rate on the IP Path Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455878
VS.IPPath.TxM eanSpeed
Average TX rate on the IP path
BTS3900 WCDMA, BTS3900
G,U
1542455879
VS.IPPath.TxM axSpeed
Maximum TX rate on the IP path
BTS3900 WCDMA, BTS3900
G,U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455880
VS.IPPath.RxM eanSpeed
Average RX rate on the IP path
BTS3900 WCDMA, BTS3900
G,U
1542455881
VS.IPPath.RxM axSpeed
Maximum RX rate on the IP path
BTS3900 WCDMA, BTS3900
G,U
Description These counters provide the rate of transmitting or receiving packets on the IP path at the IP layer within a measurement period. They reflect the load on the IP path at the IP layer.
Measurement Points The number of bytes received or transmitted on an IP path is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The maximum TX and RX rate are calculated based on the maximum number of bytes. The average rate in a measurement period is calculated based on this counter. This counter includes the header and payload of IP packets.
Formula None
Unit bit/s
Related Features Counter Name
Feature ID
VS.IPPath.TxMeanSpeed
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
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Feature Name
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
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Counter Name
Feature ID
Feature Name
VS.IPPath.TxMaxSpeed
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.IPPath.RxMeanSpeed
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
LTE: None
VS.IPPath.RxMaxSpeed
IP Transmission Introduction on Abis Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
LTE: None
1.12 Measurement of Resource Group performance (RscGroup) Overview The object type Resource Group Measurement contains the function subset related to the resource group. It represents the traffic volume and service processing capability of the resource group on the transmission board in the base station.
FunctionSubSets
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FunctionSubSet
FunctionSubSet Name
Transport.RscGroup
Measurement related to Resource Group
Transport.FLOWCTROL
Measurement related to FLOWCTROL
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1.12.1 Measurement related to Resource Group (Transport.RscGroup) Overview The resource group of an base station is a set of data streams. The data streams can be related to control plane services, user plane services, OM services, IP clock services, or bypass services (regardless of control plane services or user plane services). The transmission quality affects the services of the base station. The base station manages bandwidths based on resource groups. The base station can configure the bandwidth, flow shaping, admission control, and flow control for the resource group. Multiple resource groups can be configured on one physical link, the bandwidth of which is shared among these resource groups. Multiple transport-layer bearers can be configured for one resource group, the configured bandwidth of which is shared among these bearers. The Transport.RscGroup function subset measures the number of bytes or packets transmitted by the resource group of the base station. It represents the service processing capability of the resource group. Figure 1-7 shows the position of the resource group in the TCP/ IP model. The Transport.RscGroup function subset measures only the data transmitted from a resource group.The counters of function subset Transport.RscGourp report valid values in IP transmission, and reports zero in ATM transmission. Figure 1-7
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Counters Counter ID
Counter Name
Counter Description
Original Release
1542455365
VS.RscGroup.TxB ytes
Number of bytes in the packets successfully transmitted by the resource group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455367
VS.RscGroup.TxP kts
Number of packets successfully transmitted by the resource group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455369
VS.RscGroup.TxD ropBytes
Number of bytes in the packets discarded by the resource group due to transmission failures
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455371
VS.RscGroup.TxD ropPkts
Number of packets discarded by the resource group due to transmission failures
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455375
VS.RscGroup.TxM axSpeed
Maximum transmit rate of the resource group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455376
VS.RscGroup.TxM inSpeed
Minimum transmit rate of the resource group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455377
VS.RscGroup.TxM eanSpeed
Average transmit rate of the resource group
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
Counter Relationship None
Number of Bytes in the Packets Transmitted by the Resource Group Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455365
VS.RscGroup.T xBytes
Number of bytes in the packets successfully transmitted by the resource group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of bytes in the packets discarded by the resource group due to transmission failures
BTS3900 WCDMA, BTS3900 LTE,
1542455369
VS.RscGroup.T xDropBytes
BTS3900
G,U,L
BTS3900
Description These counters measure the number of bytes in the packets transmitted by all the queues of a resource group at the data link layer within a measurement period and the number of bytes in Issue 12 (2014-05-30)
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the packets discarded due to congestion in the queues within a measurement period. They represent the transmit traffic on the resource group at the data link layer. If the resource group is carried on an Ethernet port, the counters measure the MAC headers and payloads in the packets. If the resource group is carried on a port carrying a PPP link or MP link, the counters measure the data parts of the PPP frames or MP frames. The measurement of the counters remains unchanged in packet fragment or IPSec scenarios.
Measurement Points Number of transmitted bytes and discarded bytes in the resource group per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit byte
Related Features Counter Name
Feature ID
VS.RscGroup.TxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003011 TDLOFD-003011
Enhanced Transport QoS Management Enhanced Transport QoS Management
VS.RscGroup.TxDropBytes
Multi-mode: None GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003011 TDLOFD-003011
Enhanced Transport QoS Management Enhanced Transport QoS Management
Number of Packets Transmitted by the Resource Group
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455367
VS.RscGroup.T xPkts
Number of packets successfully transmitted by the resource group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of packets discarded by the resource group due to transmission failures
BTS3900 WCDMA, BTS3900 LTE,
1542455371
VS.RscGroup.T xDropPkts
BTS3900
G,U,L
BTS3900
Description These counters measure the number of IP packets transmitted by all the queues of a resource group at the data link layer within a measurement period and the number of packets discarded due to congestion in the queues within a measurement period. They represent the transmit traffic on the resource group at the data link layer.
Measurement Points Number of transmitted and discarded packets in the resource group per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
VS.RscGroup.TxPkts
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003011
Enhanced Transport QoS Management
TDLOFD-003011
Enhanced Transport QoS Management VS.RscGroup.TxDropPkts
Multi-mode: None GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003011
Enhanced Transport QoS Management
TDLOFD-003011
Enhanced Transport QoS Management
Rates of the Resource Group Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455375
VS.RscGroup.T xMaxSpeed
Maximum transmit rate of the resource group
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Minimum transmit rate of the resource group
BTS3900 WCDMA, BTS3900 LTE,
Average transmit rate of the resource group
BTS3900 WCDMA, BTS3900 LTE,
1542455376
1542455377
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VS.RscGroup.T xMinSpeed
VS.RscGroup.T xMeanSpeed
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900
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Description These counters measure the transmit rate of a resource group within a measurement period. They represent the transmission rate of the resource group. If the resource group is carried on an Ethernet port, the counters measure the MAC headers and payloads. If the resource group is carried on the PPP or MP group port, the counters measure the information part of the PPP frame or MP frame.
Measurement Points The transmit rate of the resource group is sampled per second. At the end of a measurement period, the maximum, minimum, or average of these sampling results is used as the value of the corresponding counter.
Formula None
Unit bit/s
Related Features Counter Name
Feature ID
VS.RscGroup.TxMaxSpeed
Multi-mode: None
Feature Name
GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003011 TDLOFD-003011
Enhanced Transport QoS Management Enhanced Transport QoS Management
VS.RscGroup.TxMinSpeed
Multi-mode: None GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003011 TDLOFD-003011
Enhanced Transport QoS Management Enhanced Transport QoS Management
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Counter Name
Feature ID
Feature Name
VS.RscGroup.TxMeanSpeed
Multi-mode: None GSM: GBFD-118605
IP QOS
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003011 TDLOFD-003011
Enhanced Transport QoS Management Enhanced Transport QoS Management
1.12.2 Measurement related to FLOWCTROL (Transport.FLOWCTROL) Overview The Flow control function subset provides resource-group-related flow control counters, which indicate the flow control of each resource group.The counters of function subset Transport.FLOWCTROL report valid values in both IP transmission and ATM transmission.
Counters
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Counter ID
Counter Name
Counter Description
Original Release
1542460308
VS.RscGroup.Flow Ctrol.UL.AdjBW. Max
Resource group maximum UL available bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460309
VS.RscGroup.Flow Ctrol.UL.AdjBW. Min
Resource group minimum UL available bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542460310
VS.RscGroup.Flow Ctrol.UL.AdjBW.A vg
Resource group average UL available bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460311
VS.RscGroup.Flow Ctrol.DL.AdjBW. Max
Resource group maximum DL available bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460312
VS.RscGroup.Flow Ctrol.DL.AdjBW. Min
Resource group minimum DL available bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460313
VS.RscGroup.Flow Ctrol.DL.AdjBW.A vg
Resource group average DL available bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460314
VS.RscGroup.Flow Ctrol.UL.UpBW.N um
Resource group available UL bandwidth increase times
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542460315
VS.RscGroup.Flow Ctrol.DL.Delay.Up BW.Num
Resource group DL available bandwidth increase times after jitter congestion released
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460316
VS.RscGroup.Flow Ctrol.DL.Drop.Up BW.Num
Resource group DL available bandwidth increase times after packet loss congestion released
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460317
VS.RscGroup.Flow Ctrol.UL.DelayCon g.DownBWNum
Resource group available UL bandwidth decrease times for jitter congestion
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460318
VS.RscGroup.Flow Ctrol.DL.DelayCon g.DownBWNum
Resource group DL available bandwidth decrease times for jitter congestion
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460319
VS.RscGroup.Flow Ctrol.UL.DropCon g.DownBWNum
Resource group available UL bandwidth decrease times for packet loss congestion
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542460320
VS.RscGroup.Flow Ctrol.DL.DropCon g.DownBWNum
Resource group DL available bandwidth decrease times for packet loss congestion
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460321
VS.RscGroup.Flow Ctrol.UL.SendNum
Resource group Number of UL frames Resource group sent successfully
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460322
VS.RscGroup.Flow Ctrol.DL.ReceiveNum
Resource group Number of DL frames Resource group received
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460323
VS.RscGroup.Flow Ctrol.UL.DropNu m
Resource group Number of lost UL frames
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460324
VS.RscGroup.Flow Ctrol.DL.DropNu m
Resource group Number of lost DL frames
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542460325
VS.RscGroup.Flow Ctrol.UL.DelayVar a.Max
Resource group maximum UL delay jitter
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460326
VS.RscGroup.Flow Ctrol.UL.DelayVar a.Min
Resource group minimum UL delay jitter
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460327
VS.RscGroup.Flow Ctrol.UL.DelayVar a.Avg
Resource group average UL delay jitter
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460328
VS.RscGroup.Flow Ctrol.DL.DelayVar a.Max
Resource group maximum DL delay jitter
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460329
VS.RscGroup.Flow Ctrol.DL.DelayVar a.Min
Resource group minimum DL delay jitter
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542460330
VS.RscGroup.Flow Ctrol.DL.DelayVar a.Avg
Resource group average DL delay jitter
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460331
VS.RscGroup.Flow Ctrol.UL.CongTime
Resource group UL congestion duration
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
1542460332
VS.RscGroup.Flow Ctrol.DL.CongTime
Resource group DL congestion duration
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None
Resource group maximum UL available bandwidth Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460308
VS.RscGroup.F lowCtrol.UL.A djBW.Max
Resource group maximum UL available bandwidth
BTS3900 WCDMA, BTS3900
U
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Description The BTS adjusts the UL port bandwidth according to flow control algorithm. The BTS calculates the UL available bandwidth of the physical layer per second, VS.RscGroup.FlowCtrol.UL.AdjBW.Max is the maximum value of available bandwidth of the UL physical layer.
Measurement Points The available UL bandwidth is sampled within each scheduling period. If the physical port is carried on an MP group, the value of the counter is the total bandwidth of the available UL MP links in the MP group. If the physical port is carried on a PPP link, the value of the counter is the available bandwidth on the PPP link. If the physical port is an ETHTRUNK port or an Ethernet port, the value of the counter depends on the negotiation for the port. If the physical port is carried on TUNNEL, the value of the counter is the total available UL bandwidth on the current TUNNEL. If rate limitation is set on the physical port, the value of the counter is the smaller value between the defined upper limited bandwidth and the measured available bandwidth.
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .AdjBW.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group minimum UL available bandwidth Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460309
VS.RscGroup.F lowCtrol.UL.A djBW.Min
Resource group minimum UL available bandwidth
BTS3900 WCDMA, BTS3900
U
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Description The BTS adjusts the UL port bandwidth according to flow control algorithm. The BTS calculates the UL available bandwidth of the physical layer per second, VS.RscGroup.FlowCtrol.UL.AdjBW.Min is the minimum value of the available bandwidth of the UL physical layer.
Measurement Points The available UL bandwidth is sampled within each scheduling period. If the physical port is carried on an MP group, the value of the counter is the total bandwidth of the available UL MP links in the MP group. If the physical port is carried on a PPP link, the value of the counter is the available bandwidth on the PPP link. If the physical port is an ETHTRUNK port or an Ethernet port, the value of the counter depends on the negotiation for the port. If the physical port is carried on TUNNEL, the value of the counter is the total available UL bandwidth on the current TUNNEL. If rate limitation is set on the physical port, the value of the counter is the smaller value between the defined upper limited bandwidth and the measured available bandwidth.
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .AdjBW.Min
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group average UL available bandwidth Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460310
VS.RscGroup.F lowCtrol.UL.A djBW.Avg
Resource group average UL available bandwidth
BTS3900 WCDMA, BTS3900
U
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Description The BTS adjusts the UL port bandwidth according to flow control algorithm. The BTS calculates the UL available bandwidth of the physical layer per second. The collected values of available bandwidth in a statistics period are accumulated and recorded as A, and the number of calculation times in a statistics period is recorded as B. Then, VS.RscGroup.FlowCtrol.UL.AdjBW.Avg = A/B.
Measurement Points The available UL bandwidth is sampled within each scheduling period. If the physical port is carried on an MP group, the value of the counter is the total bandwidth of the available UL MP links in the MP group. If the physical port is carried on a PPP link, the value of the counter is the available bandwidth on the PPP link. If the physical port is an ETHTRUNK port or an Ethernet port, the value of the counter depends on the negotiation for the port. If the physical port is carried on TUNNEL, the value of the counter is the total available UL bandwidth on the current TUNNEL. If rate limitation is set on the physical port, the value of the counter is the smaller value between the defined upper limited bandwidth and the measured available bandwidth.
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .AdjBW.Avg
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group maximum DL available bandwidth Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460311
VS.RscGroup.F lowCtrol.DL.A djBW.Max
Resource group maximum DL available bandwidth
BTS3900 WCDMA, BTS3900
U
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Description When the DYNAMIC_BW_SHAPING algorithm of the base station is enabled, the base station adjusts the available bandwidth of HSDPA according to the result of internal congestion statistics, and it calculates the available bandwidth of HSDPA per second. When the STATIC_BW_SHAPING algorithm of the base station is enabled, the base station calculates the available bandwidth of HSDPA according to the following formula: Available bandwidth of HSDPA = Total physical bandwidth * Coefficient. (The coefficient is 0.8 in ATM mode and 0.9 in IP mode.) The base station calculates the available bandwidth of HSDPA per second. When other algorithms are used, the base station reports 0 as the statistics value. VS.RscGroup.FlowCtrol.DL.AdjBW.Max is the collected maximum value of the available DL MAC-HS layer bandwidth. The DL statistics is valid only in the complete sharing mode of configured bandwidth. The complete sharing mode of configured bandwidth is enabled when the following requirement is met: Bandwidth configured for each type of PATH (for example RT and NRT) > Total physical bandwidth x 90%.
Measurement Points The available DL bandwidth is sampled within each scheduling period. If the physical port is carried on an MP group, the value of the counter is the total bandwidth of the available UL MP links in the MP group. If the physical port is carried on a PPP link, the value of the counter is the available bandwidth on the PPP link. If the physical port is an ETHTRUNK port or an Ethernet port, the value of the counter depends on the negotiation for the port. If the physical port is carried on TUNNEL, the value of the counter is the total available DL bandwidth on the current TUNNEL. If rate limitation is set on the physical port, the value of the counter is the smaller value between the defined upper limited bandwidth and the measured available bandwidth. If the IP path is carried on loopback interface, the value of this counter is the total available DL bandwidth on the current loopback interface. (The default DL bandwidth on the loopback interface is 1 Gbit/s.)
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .AdjBW.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
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Resource group minimum DL available bandwidth Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460312
VS.RscGroup.F lowCtrol.DL.A djBW.Min
Resource group minimum DL available bandwidth
BTS3900 WCDMA, BTS3900
U
Description When the DYNAMIC_BW_SHAPING algorithm of the base station is enabled, the base station adjusts the available bandwidth of HSDPA according to the result of internal congestion statistics, and it calculates the available bandwidth of HSDPA per second. When the STATIC_BW_SHAPING algorithm of the base station is enabled, the base station calculates the available bandwidth of HSDPA according to the following formula: Available bandwidth of HSDPA = Total physical bandwidth * Coefficient. (The coefficient is 0.8 in ATM mode and 0.9 in IP mode.) The base station calculates the available bandwidth of HSDPA per second. When other algorithms are used, the base station reports 0 as the statistics value. VS.RscGroup.FlowCtrol.DL.AdjBW.Min is the collected minimum value of the available DL MAC-HS layer bandwidth. The DL statistics is valid only in the complete sharing mode of configured bandwidth. The complete sharing mode of configured bandwidth is enabled when the following requirement is met: Bandwidth configured for each type of PATH (for example RT and NRT) > Total physical bandwidth x 90%.
Measurement Points The available DL bandwidth is sampled within each scheduling period. If the physical port is carried on an MP group, the value of the counter is the total bandwidth of the available UL MP links in the MP group. If the physical port is carried on a PPP link, the value of the counter is the available bandwidth on the PPP link. If the physical port is an ETHTRUNK port or an Ethernet port, the value of the counter depends on the negotiation for the port. If the physical port is carried on TUNNEL, the value of the counter is the total available DL bandwidth on the current TUNNEL. If rate limitation is set on the physical port, the value of the counter is the smaller value between the defined upper limited bandwidth and the measured available bandwidth. If the IP path is carried on loopback interface, the value of this counter is the total available DL bandwidth on the current loopback interface. (The default DL bandwidth on the loopback interface is 1 Gbit/s.)
Formula None
Unit kbit/s Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .AdjBW.Min
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group average DL available bandwidth Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460313
VS.RscGroup.F lowCtrol.DL.A djBW.Avg
Resource group average DL available bandwidth
BTS3900 WCDMA, BTS3900
U
Description When the DYNAMIC_BW_SHAPING algorithm of the base station is enabled, the base station adjusts the available bandwidth of HSDPA according to the result of internal congestion statistics, and it calculates the available bandwidth of HSDPA per second. When the STATIC_BW_SHAPING algorithm of the base station is enabled, the base station calculates the available bandwidth of HSDPA according to the following formula: Available bandwidth of HSDPA = Total physical bandwidth * Coefficient. (The coefficient is 0.8 in ATM mode and 0.9 in IP mode.) The base station calculates the available bandwidth of HSDPA per second. When other algorithms are used, the base station reports 0 as the statistics value. The collected values of available bandwidth of the DL MAC-HS layer in a statistics period are accumulated and recorded as A, and the number of calculation times is recorded as B. Then, VS.RscGroup.FlowCtrol.DL.AdjBW.Avg = A/B. The DL statistics is valid only in the complete sharing mode of configured bandwidth. The complete sharing mode of configured bandwidth is enabled when the following requirement is met: Bandwidth configured for each type of PATH (for example RT and NRT) > Total physical bandwidth x 90%.
Measurement Points The available DL bandwidth is sampled within each scheduling period. If the physical port is carried on an MP group, the value of the counter is the total bandwidth of the available UL MP links in the MP group. If the physical port is carried on a PPP link, the value of the counter is the available bandwidth on the PPP link. If the physical port is an ETHTRUNK port or an Ethernet port, the value of the counter depends on the negotiation for the port. If the physical port is carried on TUNNEL, the value of the counter is the total available DL bandwidth on the current TUNNEL. If rate limitation is set on the physical port, the value of the counter is the Issue 12 (2014-05-30)
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smaller value between the defined upper limited bandwidth and the measured available bandwidth. If the IP path is carried on loopback interface, the value of this counter is the total available DL bandwidth on the current loopback interface. (The default DL bandwidth on the loopback interface is 1 Gbit/s.)
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .AdjBW.Avg
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group available UL bandwidth increase times Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460314
VS.RscGroup.F lowCtrol.UL.U pBW.Num
Resource group available UL bandwidth increase times
BTS3900 WCDMA, BTS3900
U
Description The number of attempts to increase the available UL bandwidth of the base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points The number of attempts to increase the available UL bandwidth of the base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH. Issue 12 (2014-05-30)
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Formula None
Unit None
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .UpBW.Num
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group DL available bandwidth increase times after jitter congestion released Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460315
VS.RscGroup.F lowCtrol.DL.D elay.UpBW.Nu m
Resource group DL available bandwidth increase times after jitter congestion released
BTS3900 WCDMA, BTS3900
U
Description Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of attempts to increase the available DL bandwidth of the base station Iub logical port based on the delay variation. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of attempts to increase the available DL bandwidth of the base station Iub logical port based on the Issue 12 (2014-05-30)
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delay variation. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .Delay.UpBW.Num
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group DL available bandwidth increase times after packet loss congestion released Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460316
VS.RscGroup.F lowCtrol.DL.Dr op.UpBW.Num
Resource group DL available bandwidth increase times after packet loss congestion released
BTS3900 WCDMA, BTS3900
U
Description Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of attempts to increase the available DL bandwidth of the base station Iub logical port based on the packet loss. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of Issue 12 (2014-05-30)
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attempts to increase the available DL bandwidth of the base station Iub logical port based on the packet loss. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .Drop.UpBW.Num
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group available UL bandwidth decrease times for jitter congestion Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460317
VS.RscGroup.F lowCtrol.UL.D elayCong.Down BWNum
Resource group available UL bandwidth decrease times for jitter congestion
BTS3900 WCDMA, BTS3900
U
Description The number of attempts to decrease the available UL bandwidth of the base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points The number of attempts to decrease the available UL bandwidth of the base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH. Issue 12 (2014-05-30)
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Formula None
Unit None
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .DelayCong.DownBWNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group DL available bandwidth decrease times for jitter congestion Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460318
VS.RscGroup.F lowCtrol.DL.D elayCong.Down BWNum
Resource group DL available bandwidth decrease times for jitter congestion
BTS3900 WCDMA, BTS3900
U
Description Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of attempts to decrease the available DL bandwidth of the base station Iub logical port based on the delay variation. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of attempts to decrease the available DL bandwidth of the base station Iub logical port based on the delay variation. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH. Issue 12 (2014-05-30)
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Formula None
Unit None
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .DelayCong.DownBWNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group available UL bandwidth decrease times for packet loss congestion Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460319
VS.RscGroup.F lowCtrol.UL.Dr opCong.DownB WNum
Resource group available UL bandwidth decrease times for packet loss congestion
BTS3900 WCDMA, BTS3900
U
Description The number of attempts to decrease the available UL bandwidth of the base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points The number of attempts to decrease the available UL bandwidth of the base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula None Issue 12 (2014-05-30)
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Unit None
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .DropCong.DownBWNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group DL available bandwidth decrease times for packet loss congestion Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460320
VS.RscGroup.F lowCtrol.DL.Dr opCong.DownB WNum
Resource group DL available bandwidth decrease times for packet loss congestion
BTS3900 WCDMA, BTS3900
U
Description Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of attempts to decrease the available DL bandwidth of the base station Iub logical port based on the packet loss. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of attempts to decrease the available DL bandwidth of the base station Iub logical port based on the packet loss. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Formula None Issue 12 (2014-05-30)
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Unit None
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .DropCong.DownBWNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group Number of UL frames Resource group sent successfully Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460321
VS.RscGroup.F lowCtrol.UL.Se ndNum
Resource group Number of UL frames Resource group sent successfully
BTS3900 WCDMA, BTS3900
U
Description The number of frames that are successfully transmitted on a base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points The number of frames that are successfully transmitted on a base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .SendNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group Number of DL frames Resource group received Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460322
VS.RscGroup.F lowCtrol.DL.Re ceiveNum
Resource group Number of DL frames Resource group received
BTS3900 WCDMA, BTS3900
U
Description Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of frames that are successfully received on a base station Iub logic port and accumulates all collected values within a measurement period. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of frames that are successfully received on a base station Iub logic port and accumulates all collected values within a measurement period. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .ReceiveNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group Number of lost UL frames Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460323
VS.RscGroup.F lowCtrol.UL.Dr opNum
Resource group Number of lost UL frames
BTS3900 WCDMA, BTS3900
U
Description The number of frames that are lost on a base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points The number of frames that are lost on a base station Iub logical port is sampled every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula None
Unit None
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Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .DropNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group Number of lost DL frames Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460324
VS.RscGroup.F lowCtrol.DL.Dr opNum
Resource group Number of lost DL frames
BTS3900 WCDMA, BTS3900
U
Description Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of frames that are lost on a base station Iub logic port and accumulates all collected values within a measurement period. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points Samples are taken every five seconds within a measurement period. When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the number of frames that are lost on a base station Iub logic port and accumulates all collected values within a measurement period. When other algorithms are used, the base station reports 0 as the statistics value. The base station reports the traffic statistics of logical ports that carry PATH. These DL HSDPA frames are discarded by the RNC interface board, intermediate transmission links, or the base station.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .DropNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group maximum UL delay jitter Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460325
VS.RscGroup.F lowCtrol.UL.D elayVara.Max
Resource group maximum UL delay jitter
BTS3900 WCDMA, BTS3900
U
Description The BTS calculates the UL jitter per second. VS.RscGroup.FlowCtrol.UL.DelayVara.Max is the collected maximum value of UL jitter.
Measurement Points The base station reports the traffic statistics of logic ports that carry PATH.
Formula None
Unit ms
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .DelayVara.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
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Resource group minimum UL delay jitter Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460326
VS.RscGroup.F lowCtrol.UL.D elayVara.Min
Resource group minimum UL delay jitter
BTS3900 WCDMA, BTS3900
U
Description The BTS calculates the UL jitter per second. VS.RscGroup.FlowCtrol.UL.DelayVara.Min is the collected minimum value of UL jitter.
Measurement Points The base station reports the traffic statistics of logic ports that carry PATH.
Formula None
Unit ms
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .DelayVara.Min
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group average UL delay jitter
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460327
VS.RscGroup.F lowCtrol.UL.D elayVara.Avg
Resource group average UL delay jitter
BTS3900 WCDMA, BTS3900
U
Description The BTS calculates the UL jitter per second. All collected values of UL jitter in a statistics period are accumulated and recorded as A, and the number of calculation times is recorded as B. Then, VS.RscGroup.FlowCtrol.UL.DelayVara.Avg = A/B.
Measurement Points The base station reports the traffic statistics of logic ports that carry PATH.
Formula None
Unit ms
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .DelayVara.Avg
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group maximum DL delay jitter Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460328
VS.RscGroup.F lowCtrol.DL.D elayVara.Max
Resource group maximum DL delay jitter
BTS3900 WCDMA, BTS3900
U
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Description When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the DL jitter per second. When other algorithms are used, the base station reports 0 as the statistics value. VS.RscGroup.FlowCtrol.DL.DelayVara.Max is the collected maximum value of DL jitter.
Measurement Points The base station reports the traffic statistics of logic ports that carry PATH.
Formula None
Unit ms
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .DelayVara.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group minimum DL delay jitter Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460329
VS.RscGroup.F lowCtrol.DL.D elayVara.Min
Resource group minimum DL delay jitter
BTS3900 WCDMA, BTS3900
U
Description When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the DL jitter per second. When other algorithms are used, the base station reports 0 as the statistics value. VS.RscGroup.FlowCtrol.DL.DelayVara.Min is the collected minimum value of DL jitter.
Measurement Points The base station reports the traffic statistics of logic ports that carry PATH. Issue 12 (2014-05-30)
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Formula None
Unit ms
Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .DelayVara.Min
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group average DL delay jitter Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460330
VS.RscGroup.F lowCtrol.DL.D elayVara.Avg
Resource group average DL delay jitter
BTS3900 WCDMA, BTS3900
U
Description When the DYNAMIC_BW_SHAPING algorithm is enabled, the base station calculates the DL jitter per second. When other algorithms are used, the base station reports 0 as the statistics value. All collected values of DL jitter in a statistics are accumulated and recorded as A, and the number of calculation times is recorded as B. Then, VS.RscGroup.FlowCtrol.DL.DelayVara.Avg = A/ B.
Measurement Points The base station reports the traffic statistics of logic ports that carry PATH.
Formula None
Unit ms Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.DL .DelayVara.Avg
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group UL congestion duration Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460331
VS.RscGroup.F lowCtrol.UL.C ongTime
Resource group UL congestion duration
BTS3900 WCDMA, BTS3900
U
Description The base station determines whether the following requirement is met: VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Avg x 0.8 less than Actual physical layer flow of a UL logic port. If the preceding requirement is met, the UL congestion duration is increased by one second. Samples are taken every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points The base station determines whether the following requirement is met: VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Avg x 0.8 less than Actual physical layer flow of a UL logic port. If the preceding requirement is met, the UL congestion duration is increased by one second. Samples are taken every five seconds. All collected values within a measurement period are accumulated. The base station reports the traffic statistics of logical ports that carry PATH.
Formula None
Unit s
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Related Features Counter Name
Feature ID
VS.RscGroup.FlowCtrol.UL .CongTime
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Resource group DL congestion duration Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460332
VS.RscGroup.F lowCtrol.DL.C ongTime
Resource group DL congestion duration
BTS3900 WCDMA, BTS3900
U
Description When the DYNAMIC_BW_SHAPING algorithm is enabled when the configured bandwidth is completely shared, the base station determines whether the following requirement is met: VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Avg x 0.8 less than HSDPA flow of the DL logic port. If the preceding requirement is met, the DL congestion duration is increased by one second. If the preceding requirement is not met, the DL congestion duration does not change. Samples are taken every five seconds. All collected values within a measurement period are accumulated. When other algorithms are used, the base station reports 0 as the calculation value. The base station reports the traffic statistics of logical ports that carry PATH.
Measurement Points When the DYNAMIC_BW_SHAPING algorithm is enabled when the configured bandwidth is completely shared, the base station determines whether the following requirement is met: VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Avg x 0.8 less than HSDPA flow of the DL logic port. If the preceding requirement is met, the DL congestion duration is increased by one second. If the preceding requirement is not met, the DL congestion duration does not change. Samples are taken every five seconds. All collected values within a measurement period are accumulated. When other algorithms are used, the base station reports 0 as the calculation value. The base station reports the traffic statistics of logical ports that carry PATH.
Formula None Issue 12 (2014-05-30)
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Unit s
Related Features Counter Name
Feature ID
Feature Name
VS.RscGroup.FlowCtrol.DL .CongTime
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
1.13 Measurement of IP PM performance (IPPM) Overview The object type IP PM measurement contains the function subset related to the IP performance monitoring (PM). It represents the traffic volume and the service qualities of the transmission board in the base station.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Transport.IPPM
Measurement related to IPPM
1.13.1 Measurement related to IPPM (Transport.IPPM) Overview The IP PM function subset provides the measurements on an IP PM in the base station. It measures the quality of traffic carried on the transmission boards. Figure 1-8 shows the position of the IP PM in the TCP/IP model. Figure 1-9 shows the principles of the IP PM. The IP PM checks the packet loss, delay, and jitter condition of a link by the local end transmitting forward monitoring (FM) frames and the peer end responding with backward reporting (BR) frames. The number of FM frames is used to represent the number of frames transmitted by the local end, whereas that of BR frames is used to represent the number of frames received by the peer end. The local end calculates the delay, jitter, and packet loss rate along the local-to-peer direction based on the received BR frames. Ultimately, the bandwidth condition is obtained.
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Figure 1-8
Figure 1-9
Counters Counter ID
Counter Name
Counter Description
Original Release
1542455408
VS.IPPM.Bits.Mea nsTx
Average bit transmit rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455409
VS.IPPM.Pkts.Mea nsTx
Average packet transmit rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455410
VS.IPPM.Peak.Bits .RateTx
Peak bit transmit rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455411
VS.IPPM.Peak.Pkt s.RateTx
Peak packet transmit rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455412
VS.IPPM.Peer.Bits .MeansRx
Average peer bit receive rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455413
VS.IPPM.Peer.Pkts .MeansRx
Average peer packet receive rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455414
VS.IPPM.Peer.Pea k.Bits.RateRx
Peak peer bit receive rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455415
VS.IPPM.Peer.Pea k.Pkts.RateRx
Peak peer packet receive rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455416
VS.IPPM.Forword. DropMeans
Average forward packet loss rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455417
VS.IPPM.Forword. Peak.DropRates
Peak forward packet loss rate on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455418
VS.IPPM.Forward. JitterStandardDeviation
Standard deviation of forward jitter on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455419
VS.IPPM.Back.JitterStandardDeviation
Standard deviation of backward jitter on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455420
VS.IPPM.Rtt.Mean s
Average RTT on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455421
VS.IPPM.MaxRttDelay
Maximum RTT on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455452
VS.IPPM.MinRttDelay
Minimum RTT on the IP PM
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455911
VS.IPPM.Local.Tx Pkts
Number of packets sent by the IP PM local end
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455912
VS.IPPM.Peer.RxP kts
Number of packets received by the IP PM peer end
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
Counter Relationship None
Byte Rate Measurements on the IP PM Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455408
VS.IPPM.Bits. MeansTx
Average bit transmit rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455410
VS.IPPM.Peak. Bits.RateTx
Peak bit transmit rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455412
VS.IPPM.Peer. Bits.MeansRx
Average peer bit receive rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455414
VS.IPPM.Peer. Peak.Bits.Rate Rx
Peak peer bit receive rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Description These counters provide transmit byte rates and receive byte rates of the transport network on the IP performance monitor (IP PM) within a measurement period. They indicate the transmission capability of the transport network.
Measurement Points The transmit byte rate or receive byte rate at the local or peer end is sampled per second on the IP PM. At the end of a measurement period, the average or maximum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit bit/s
Related Features Counter Name
Feature ID
VS.IPPM.Bits.MeansTx
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
VS.IPPM.Peak.Bits.RateTx
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
VS.IPPM.Peer.Bits.MeansR x
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
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Counter Name
Feature ID
VS.IPPM.Peer.Peak.Bits.Ra teRx
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012
IP Performance Monitoring
TDLOFD-003012
IP Performance Monitoring
Packet Rate Measurements on the IP PM Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455409
VS.IPPM.Pkts. MeansTx
Average packet transmit rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455411
VS.IPPM.Peak. Pkts.RateTx
Peak packet transmit rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455413
1542455415
VS.IPPM.Peer. Pkts.MeansRx
VS.IPPM.Peer. Peak.Pkts.Rate Rx
Average peer packet receive rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
Peak peer packet receive rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 G,U,L
BTS3900
Description These counters provide transmit packet rates and receive packet rates of the transport network on the IP performance monitor (IP PM) within a measurement period. They indicate the transmission capability of the transport network.
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Measurement Points The transmit packet rate or receive packet rate at the local or peer end is sampled per second on the IP PM. At the end of a measurement period, the average or maximum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit packet/s
Related Features Counter Name
Feature ID
VS.IPPM.Pkts.MeansTx
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
VS.IPPM.Peak.Pkts.RateTx
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
VS.IPPM.Peer.Pkts.MeansR x
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
VS.IPPM.Peer.Peak.Pkts.Ra teRx
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
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Forward Packet Loss Rate Measurements on the IP PM Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455416
VS.IPPM.Forw ord.DropMeans
Average forward packet loss rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Peak forward packet loss rate on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
1542455417
VS.IPPM.Forw ord.Peak.DropRates
BTS3900 G,U,L
BTS3900
Description These counters provide packet loss rate on the transport network by using the IP performance monitor (IP PM) within a measurement period. They reflect the quality on the detected IP path.
Measurement Points The number of forward packets transmitted and the number of forward packets lost over the link are sampled and accumulated every second, respectively. The packet loss rate in a second is obtained by dividing the number of forward packets lost in one second by the number of forward packets transmitted in one second. At the end of the measurement period, the maximum packet loss rate is the maximum one among all the packet loss rates in the measurement period, and the average packet loss rate is obtained by dividing the total number of lost forward packets by the total number of forward packets transmitted in the measurement period.
Formula (([VS.IPPM.Local.TxPkts]-[VS.IPPM.Peer.RxPkts])/[VS.IPPM.Local.TxPkts])*{100}
Unit %
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Related Features Counter Name
Feature ID
VS.IPPM.Forword.DropMeans
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012
IP Performance Monitoring
TDLOFD-003012
IP Performance Monitoring VS.IPPM.Forword.Peak.Dro pRates
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012
IP Performance Monitoring
TDLOFD-003012
IP Performance Monitoring
Jitter Measurements on the IP PM Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455418
VS.IPPM.Forw ard.JitterStandardDeviation
Standard deviation of forward jitter on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Standard deviation of backward jitter on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
1542455419
VS.IPPM.Back. JitterStandardDeviation
BTS3900 G,U,L
BTS3900
Description These counters provide the standard delay deviation of the round trip time (RTT) for the IP PM packets on the transport network within a measurement period. They reflect the stabilization of the transmission delay of a detected data flow. A larger counter value reflects a larger fluctuation in transmission delay. The forward delay variation represents the delay variation in the RTT of IP PM packets from the local end to the peer end. The backward delay variation represents the delay variation in the RTT of IP PM packets from the peer end to the local end.
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Measurement Points A sample is taken every 1 second to obtain the forward jitter and backward jitter of the IP PM for calculating the forward jitter standard deviation and backward jitter standard deviation at the end of a measurement period based on the standard deviation formula. The counter VS.IPPM.Forward.JitterStandardDeviation provides the jitter standard deviation of FM frames on a link at the end of a measurement period. The forward jitter is calculated by using the following formula: Forward jitter = T2 - T1 - T, where T2 is the time when the FM frame is received, T1 is the time when the FM frame is sent, and T is the standard delay. The counter VS.IPPM.Back.JitterStandardDeviation provides the jitter standard deviation of BR frames on a link at the end of a measurement period. The backward jitter is calculated by using the following formula: Backward jitter = T4 - T3 - T, where T4 is the time when the BR frame is received, T3 is the time when the BR frame is sent, and T is the standard delay.
Formula None
Unit ms
Related Features Counter Name
Feature ID
VS.IPPM.Forward.JitterStandardDeviation
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
VS.IPPM.Back.JitterStandardDeviation
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
RTT Measurements on the IP PM
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455420
VS.IPPM.Rtt.M eans
Average RTT on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455421
VS.IPPM.Max RttDelay
Maximum RTT on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455452
VS.IPPM.MinRttDelay
Minimum RTT on the IP PM
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description These counters provide the latency of the round trip time (RTT) for the IP PM packets on the transport network within a measurement period. They reflect the time delay on the transport network.
Measurement Points The RTT is sampled and calculated by the IP PM mechanism every second. After forward activation is performed for an IP PM link, the local end sends FM frames and receives BR frames periodically. The value of the VS.IPPM.Rtt.Means counter can be calculated in the following formula: VS.IPPM.Rtt.Means counter = Total delay of FM and BR frames/Total number of transmitted FM frames. The maximum delay of the sampling delays of FM frames and BR frames is used as the value of the VS.IPPM.MaxRttDelay counter. The minimum delay of the sampling delays of FM frames and BR frames is used as the value of the VS.IPPM.MinRttDelay counter.
Formula None
Unit ms Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.IPPM.Rtt.Means
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012
IP Performance Monitoring
TDLOFD-003012
IP Performance Monitoring VS.IPPM.MaxRttDelay
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012
IP Performance Monitoring
TDLOFD-003012
IP Performance Monitoring VS.IPPM.MinRttDelay
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012
IP Performance Monitoring
TDLOFD-003012
IP Performance Monitoring
Number of Packets on the IP PM Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455911
VS.IPPM.Local .TxPkts
Number of packets sent by the IP PM local end
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of packets received by the IP PM peer end
BTS3900 WCDMA, BTS3900 LTE,
1542455912
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VS.IPPM.Peer. RxPkts
BTS3900 G,U,L
BTS3900
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Description These counters provide the number of packets sent by the local end of an IP PM session and the number of packets received by the peer end of an IP PM session. They reflect the service traffic volume on IP paths measured by IP PM.
Measurement Points The base station takes samples of the number of packets sent by the local end of an IP PM session and the number of packets received by the peer end of an IP PM session every measurement period of 1 second. At the end of each measurement period, the base station adds up all sampled values to obtain the value of the corresponding counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.IPPM.Local.TxPkts
Multi-mode: None
Feature Name
GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
VS.IPPM.Peer.RxPkts
Multi-mode: None GSM: GBFD-118607
IP Performance Monitor
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003012 TDLOFD-003012
IP Performance Monitoring IP Performance Monitoring
1.14 Measurement of SCTP performance (SCTP) Overview The object type SCTP Measurement contains the function subset related to the Stream Control Transmission Protocol (SCTP) link of the base station. It represents the traffic volume of signaling services carried by the SCTP link and the quality of service. Issue 12 (2014-05-30)
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FunctionSubSets FunctionSubSet
FunctionSubSet Name
Transport.SCTP
Measurement related to SCTP link
1.14.1 Measurement related to SCTP link (Transport.SCTP) Overview The SCTP function subset measures the traffic volumes of IP packets transmitted and received on an SCTP link inside the base station. It measures traffic volumes of the signaling services carried on base station transmission boards and the service quality. Figure 1-10 shows the position of the SCTP layer in the TCP/IP model. Figure 1-10
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Counters Counter ID
Counter Name
Counter Description
Original Release
1542455422
VS.Sctp.RxBytes
Number of bytes in the IP packets received on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455423
VS.Sctp.TxBytes
Number of bytes in the IP packets transmitted on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455424
VS.Sctp.RxPkts
Number of IP packets received on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455425
VS.Sctp.TxPkts
Number of IP packets transmitted on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455428
VS.Sctp.RxDropPk ts
Number of discarded IP packets received on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455430
VS.Sctp.RxMaxSpeed
Maximum IP packet receive rate on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455431
VS.Sctp.RxMinSpeed
Minimum IP packet receive rate on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455432
VS.Sctp.RxMeanSpeed
Average IP packet receive rate on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455433
VS.Sctp.TxMaxSpeed
Maximum IP packet transmit rate on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455434
VS.Sctp.TxMinSpeed
Minimum IP packet transmit rate on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455435
VS.Sctp.TxMeanSpeed
Average IP packet transmit rate on the SCTP
version earlier than V100R008C00,and the mapping singlemode base station versions that introduce this counter are: NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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1542455882
VS.Sctp.ToUserPkts
Number of packets transmitted from an SCTP link to the application layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455883
VS.Sctp.FromUserPkts
Number of packets received on the SCTP from the application layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter Relationship None
Number of Bytes in the IP Packets on the SCTP Link Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455422
VS.Sctp.RxByt es
Number of bytes in the IP packets received on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
1542455423
VS.Sctp.TxByt es
Number of bytes in the IP packets transmitted on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
Description These counters provide the number of bytes in the packets received from or transmitted to the IP layer on an SCTP link within a measurement period. They reflect the traffic of signaling services. The counter VS.Sctp.RxDropBytes is not supported currently and the value of the counter is always 0. The counter 1542455422 VS.Sctp.RxBytes will be replaced with the VS.SctpLnk.RxBytes counter in a later version. In the current version, either this counter or the VS.SctpLnk.RxBytes counter is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.RxBytes counter is used. The counter 1542455423 VS.Sctp.TxBytes will be replaced with the VS.SctpLnk.TxBytes counter in a later version. In the current version, either this counter or the VS.SctpLnk.TxBytes counter is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.TxBytes counter is used.
Measurement Points The number of bytes in the IP packets successfully transmitted or successfully received on the SCTP link is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The counter value includes the number of bytes in user data (the data field of a user data packet, excluding the MAC header, IP header, and SCTP header). This counter excludes the number of bytes in the following SCTP management messages: Heartbeat messages, Link establishment messages, Link disconnection messages, Handshake messages. Issue 12 (2014-05-30)
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Formula None
Unit byte
Related Features Counter Name
Feature ID
VS.Sctp.RxBytes
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None VS.Sctp.TxBytes
Multi-mode: None GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of IP Packets on the SCTP Link Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455424
VS.Sctp.RxPkts
Number of IP packets received on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
1542455425
VS.Sctp.TxPkts
Number of IP packets transmitted on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
1542455428
VS.Sctp.RxDro pPkts
Number of discarded IP packets received on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
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Description These counters provide the number of packets received from or transmitted to the IP layer on an SCTP link within a measurement period. They reflect the traffic of signaling services. IP packets with any of the following errors are discarded on the SCTP link: parsing error, block type error, and association query failure. The counter 1542455424 VS.Sctp.RxPkts will be replaced with the VS.SctpLnk.RxPkts counter in a later version. In the current version, either this counter or the VS.SctpLnk.RxPkts counter is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.RxPkts is used. The counter 1542455425 VS.Sctp.TxPkts will be replaced with the VS.SctpLnk.TxPkts counter in a later version. In the current version, either this counter or the VS.SctpLnk.TxPkts counter is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.TxPkts counter is used. The counter 1542455428 VS.Sctp.RxDropPkts will be replaced with the VS.SctpLnk.RxDropPkts counter in a later version. In the current version, either this counter or the VS.SctpLnk.RxDropPkts counter is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.RxDropPkts counter is used.
Measurement Points The number of IP packets successfully transmitted, successfully received, or discarded on the SCTP link is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The counter value includes the number of all the packets transmitted and received over an SCTP link. The packets include SCTP management messages, such as heartbeat messages, link establishment messages, link disconnection messages, and handshake messages. However, the received packets on an SCTP link are not measured in any of the following cases: (1) The SCTP link is not configured. (2) There is no signaling bearer at the upper layer of the SCTP link. (3) The SCTP link is blocked. The VS.Sctp.RxPkts counter provides the number of IP packets received on the SCTP link. The VS.Sctp.RxDropPkts counter provides the number of discarded IP packets received on the SCTP link. An IP packet is discarded when any of the following occurs: (1) The chunk length is incorrect in the packet. (2) The chunktype length is incorrect and the highest two bits are 10 in the packet. (3) The binding function of the packet is abnormal. For example, the DATA chunk and ABORT chunk are in the same packet. (4) The packet can be parsed but an exception occurs during the data check. For example, the V-tag is incorrect.
Formula None
Unit packet Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.Sctp.RxPkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None VS.Sctp.TxPkts
Multi-mode: None GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None VS.Sctp.RxDropPkts
Multi-mode: None GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
IP Packet Rate Measurements on the SCTP Link Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455430
VS.Sctp.RxMa xSpeed
Maximum IP packet receive rate on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
1542455431
VS.Sctp.RxMin Speed
Minimum IP packet receive rate on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
1542455432
VS.Sctp.RxMea nSpeed
Average IP packet receive rate on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
1542455433
VS.Sctp.TxMax Speed
Maximum IP packet transmit rate on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455434
VS.Sctp.TxMin Speed
Minimum IP packet transmit rate on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
1542455435
VS.Sctp.TxMea nSpeed
Average IP packet transmit rate on the SCTP
BTS3900 WCDMA, BTS3900 LTE
U,L
Description These counters provide the maximum rate, minimum rate, and average rate for transmitting or receiving packets received from or transmitted to the IP layer on an SCTP link within a measurement period. These rates are calculated on a per-byte basis. They reflect the transmission capability on the SCTP link. The counter 1542455430 VS.Sctp.RxMaxSpeed will be replaced with the VS.SctpLnk.RxMaxSpeed counter in a later version. In the current version, either this counter or the VS.SctpLnk.RxMaxSpeed counter is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.RxMaxSpeed is used. The counter 1542455431 VS.Sctp.RxMinSpeed will be replaced with the VS.SctpLnk.RxMinSpeed counter in a later version. In the current version, either this counter or the VS.SctpLnk.RxMinSpeed is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.RxMinSpeed counter is used. The counter 1542455432 VS.Sctp.RxMeanSpeed will be replaced with the VS.SctpLnk.RxMeanSpeed counter in a later version. In the current version, either this counter or the VS.SctpLnk.RxMeanSpeed is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.RxMeanSpeed counter is used. The counter 1542455433 VS.Sctp.TxMaxSpeed will be replaced with the VS.SctpLnk.TxMaxSpeed counter in a later version. In the current version, either this counter or the VS.SctpLnk.TxMaxSpeed counter is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.TxMaxSpeed is used. The counter 1542455434 VS.Sctp.TxMinSpeed will be replaced with the VS.SctpLnk.TxMinSpeed counter in a later version. In the current version, either this counter or the VS.SctpLnk.TxMinSpeed is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.TxMinSpeed counter is used. The counter 1542455435 VS.Sctp.TxMeanSpeed will be replaced with the VS.SctpLnk.TxMeanSpeed counter in a later version. In the current version, either this counter Issue 12 (2014-05-30)
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or the VS.SctpLnk.TxMeanSpeed is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.TxMeanSpeed counter is used.
Measurement Points The transmit rate or the receive rate on the SCTP link is sampled per second. At the end of a measurement period, the maximum, minimum, or average of these sampling results is used as the value of the corresponding counter.
Formula None
Unit bit/s
Related Features Counter Name
Feature ID
VS.Sctp.RxMaxSpeed
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402 LTE: None VS.Sctp.RxMinSpeed
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.Sctp.RxMeanSpeed
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.Sctp.TxMaxSpeed
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
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Counter Name
Feature ID
VS.Sctp.TxMinSpeed
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None VS.Sctp.TxMeanSpeed
Multi-mode: None GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of packets on the SCTP from the application layer Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455882
VS.Sctp.ToUserPkts
Number of packets transmitted from an SCTP link to the application layer
BTS3900 WCDMA
U
1542455883
VS.Sctp.FromU serPkts
Number of packets received on the SCTP from the application layer
BTS3900 WCDMA
U
Description These counters provide the number of packets received from or transmitted to the application layer on the SCTP link within a measurement period. They reflect the traffic of signaling services. The counter 1542455882 VS.Sctp.ToUserPkts will be replaced with the VS.SctpLnk.ToUserPkts counter in a later version. In the current version, either this counter or the VS.SctpLnk.ToUserPkts is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.ToUserPkts counter is used. Issue 12 (2014-05-30)
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The counter 1542455883 VS.Sctp.FromUserPkts will be replaced with the VS.SctpLnk.FromUserPkts counter in a later version. In the current version, either this counter or the VS.SctpLnk.FromUserPkts is used, or they can both be used. The reported value of this counter may be normal or invalid, and therefore this counter is not recommended for used. In later versions, only the VS.SctpLnk.FromUserPkts counter is used.
Measurement Points The number of packets received from or transmitted to the application layer on an SCTP link is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counters.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.Sctp.ToUserPkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402 LTE: None VS.Sctp.FromUserPkts
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
IP Transmission Introduction on Iub Interface
1.15 Measurement of OMCH performance (OMCH) Overview The object type OMCH measurement contains the OM channel-related function subset. It represents the traffic volume of services carried by the OM channel in the base station and the quality of service.
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FunctionSubSets FunctionSubSet
FunctionSubSet Name
Transport.OMCH
Measurement related to OMCH
1.15.1 Measurement related to OMCH (Transport.OMCH) Overview The OMCH function subset provides the measurements on an OM channel in the base station. It measures traffic volumes of the services carried on the OM channel in the base station and the service quality. The OM channel uses TCP packets for transmission. Figure 1-11 shows the position of the OM channel in the TCP/IP model. Figure 1-11
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Counters Counter ID
Counter Name
Counter Description
Original Release
1542455826
VS.OMCH.RxTotalPkts
Total Number of Packets Received on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455827
VS.OMCH.RxInSeqPkts
Number of In-Order Packets Received on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455828
VS.OMCH.RxWnd ProbePkts
Number of Window Probe Packets Received on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455829
VS.OMCH.RxWnd UpdatePkts
Number of the Window Size Update Packets Received on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455833
VS.OMCH.RxDup Pkts
Number of Fully Duplicated Packets Received on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455834
VS.OMCH.RxPart DupPkts
Number of Partially Duplicated Packets Received on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455835
VS.OMCH.RxOut OfOrderPkts
Number of Out-ofOrder Packets Received on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455836
VS.OMCH.RxAfterWndPkts
Number of Packets Beyond the Receive Window of the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455837
VS.OMCH.RxAfte rClosePkts
Number of Packets Received on the OM Channel After the Connection Is Released
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455838
VS.OMCH.RxAck Pkts
Number of ACKs Received on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455839
VS.OMCH.RxDupAckPkts
Number of Duplicated ACKs Received on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455840
VS.OMCH.RxToo MuchAckPkts
Number of Received ACKs for the NonTransmitted Data on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455841
VS.OMCH.TxTotalPkts
Total Number of Packets Transmitted on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455842
VS.OMCH.TxUrgentPkts
Number of Urgent Data Packets Transmitted on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455843
VS.OMCH.TxCtrl Pkts
Number of Control Packets Transmitted on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542455844
VS.OMCH.TxWnd ProbePkts
Number of Window Probe Packets Transmitted on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455845
VS.OMCH.TxWnd UpdatePkts
Number of the Window Size Update Packets Transmitted on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455846
VS.OMCH.TxDataPkts
Number of Data Packets Transmitted on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
1542455847
VS.OMCH.TxData RexntPkts
Number of Packets Retransmitted on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
1542455848
VS.OMCH.TxAck OnlyPkts
Number of ACKs Transmitted on the OM Channel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:Version earlier than V100R003C00
Counter Relationship None
Total Number of Packets Received on the OM Channel Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455826
VS.OMCH.Rx TotalPkts
Total Number of Packets Received on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Description This counter measures the total number of TCP packets received on the OM channel within a measurement period. It represents the traffic on the OM channel.
Measurement Points The number of packets received on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxTotalPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of In-Order Packets Received on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455827
VS.OMCH.RxI nSeqPkts
Number of InOrder Packets Received on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of in-order TCP packets with lengths of non-zero received on the OM channel within a measurement period. It represents the quality of the OM channel. Issue 12 (2014-05-30)
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Measurement Points The number of in-order packets received on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxInSeqPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Window Probe Packets Received on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455828
VS.OMCH.Rx WndProbePkts
Number of Window Probe Packets Received on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the total number of window probe packets received on the OM channel within a measurement period. It represents the traffic on the OM channel. After the local end informs the peer end that the receiving window size is zero, the peer end periodically sends window probe packets to check the size of the receiving window at the local end.
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Measurement Points The number of window probe packets received on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxWndProbePkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of the Window Size Update Packets Received on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455829
VS.OMCH.Rx WndUpdatePkt s
Number of the Window Size Update Packets Received on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of the window size update packets received on the OM channel within a measurement period. The peer end transmits such a packet when the peer end receives a probe packet from the local end or when the window size at the peer end changes. This counter represents the quality of the OM channel.
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3900 Series Base Station Performance Counter Reference
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Measurement Points The number of the window size update packets received on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxWndUpdatePkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Fully Duplicated Packets Received on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455833
VS.OMCH.Rx DupPkts
Number of Fully Duplicated Packets Received on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of fully duplicated ACKs received on the OM channel within a measurement period. It represents the quality of the OM channel. Two packets are fully duplicated if they have the same sequence number and the same data. This counter indicates the channel quality and the receive capability of the transmitter.
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3900 Series Base Station Performance Counter Reference
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Measurement Points The number of fully duplicated packets received on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxDupPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Partially Duplicated Packets Received on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455834
VS.OMCH.RxP artDupPkts
Number of Partially Duplicated Packets Received on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of partially duplicated packets received on the OM channel within a measurement period. It represents the quality of the OM channel. Two packets are partially duplicated if they have the same data. This counter indicates the channel quality and the receive capability of the transmitter. Issue 12 (2014-05-30)
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Measurement Points The number of partially duplicated packets received on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxPartDupPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Out-of-Order Packets Received on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455835
VS.OMCH.Rx OutOfOrderPkt s
Number of Outof-Order Packets Received on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of out-of-order packets received on the OM channel within a measurement period. It represents the quality of the OM channel.
Measurement Points The number of out-of-order packets received on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter. Issue 12 (2014-05-30)
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Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxOutOfOrderPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Packets Beyond the Receive Window of the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455836
VS.OMCH.Rx AfterWndPkts
Number of Packets Beyond the Receive Window of the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of packets beyond the receive window of the OM channel within the measurement period. A packet falls beyond the receive window of the OM channel when its size is larger than the receive capacity of the receive window. This counter indicates the quality of service of the OM channel.
Measurement Points The number of packets beyond the receive window of the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
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Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxAfterWndPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Packets Received on the OM Channel After the Connection Is Released Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455837
VS.OMCH.Rx AfterClosePkts
Number of Packets Received on the OM Channel After the Connection Is Released
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of packets with the FIN bit set to 1 that are received on the OM channel within a measurement period. The FIN packet indicates the packet received on the OM channel after the connection is released. Certain data is buffered during transmission, which causes the receiver to receive some packets after the connection is released. This counter represents the quality of the OM channel and the network.
Measurement Points The number of packets received on the OM channel after the connection is released is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter. Issue 12 (2014-05-30)
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Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxAfterClosePkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of ACKs Received on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455838
VS.OMCH.Rx AckPkts
Number of ACKs Received on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of acknowledge messages (ACKs), that is, messages have only ACK information or other information, received on the OM channel within a measurement period. An acknowledge message is a message with the ACK flag being set. It represents the quality of the OM channel.
Measurement Points The number of ACKs received on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None Issue 12 (2014-05-30)
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Unit packet
Related Features Counter Name
Feature ID
VS.OMCH.RxAckPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Duplicated ACKs Received on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455839
VS.OMCH.Rx DupAckPkts
Number of Duplicated ACKs Received on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of duplicated ACKs received on the OM channel within a measurement period. It represents the quality of the OM channel.
Measurement Points The number of duplicated ACKs received on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet Issue 12 (2014-05-30)
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
VS.OMCH.RxDupAckPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Received ACKs for the Non-Transmitted Data on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455840
VS.OMCH.Rx TooMuchAckP kts
Number of Received ACKs for the NonTransmitted Data on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of received ACKs for the data that has not been transmitted on the OM channel within a measurement period. This counter indicates the quality of the OM channel.
Measurement Points The number of received ACKs for the data that has not been transmitted on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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200
3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
VS.OMCH.RxTooMuchAckPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Total Number of Packets Transmitted on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455841
VS.OMCH.TxT otalPkts
Total Number of Packets Transmitted on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the total number of TCP packets successfully transmitted on the OM channel within a measurement period. The TCP packet includes the control packet, data packet, and keep-alive packet. This counter represents the traffic on the OM channel.
Measurement Points The number of packets transmitted on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
VS.OMCH.TxTotalPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Urgent Data Packets Transmitted on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455842
VS.OMCH.Tx UrgentPkts
Number of Urgent Data Packets Transmitted on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of all urgent data packets transmitted on the OM channel within a measurement period. It represents the traffic on the OM channel. An urgent data packet is a TCP packet with the URG bit set to 1.
Measurement Points The number of urgent data packets transmitted on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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3900 Series Base Station Performance Counter Reference
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Related Features Counter Name
Feature ID
VS.OMCH.TxUrgentPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Control Packets Transmitted on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455843
VS.OMCH.Tx CtrlPkts
Number of Control Packets Transmitted on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of control all packets transmitted on the OM channel within a measurement period. It represents the traffic on the OM channel. The control packet is used for connection setup or connection release. It is a TCP packet with the SYN bit, FIN bit, and RST bit all set and with no data.
Measurement Points The number of control packets transmitted on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
VS.OMCH.TxCtrlPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Window Probe Packets Transmitted on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455844
VS.OMCH.Tx WndProbePkts
Number of Window Probe Packets Transmitted on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of all window probe packets transmitted on the OM channel within a measurement period. It represents the traffic on the OM channel. If the local end receives an ACK from the peer end indicating that the receiving window size is zero, the local end will send a one-byte TCP packet, that is, a window probe packet, to the peer end after waiting for a period of time. Window probe packets transmitted on the OM channel are used to determine whether the receiver can still receive packets, that is, whether the actual receiving window size is zero. In general, a larger value of this counter indicates a larger extent that the receive capability is stronger than the transmit capability.
Measurement Points The number of detection packets transmitted on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet Issue 12 (2014-05-30)
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3900 Series Base Station Performance Counter Reference
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Related Features Counter Name
Feature ID
VS.OMCH.TxWndProbePkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of the Window Size Update Packets Transmitted on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455845
VS.OMCH.Tx WndUpdatePkt s
Number of the Window Size Update Packets Transmitted on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of all window size update packets transmitted on the OM channel within a measurement period. Such a packet is transmitted as a response to the window probe packet. It only includes the window size update information and has no data. This counter represents the quality of the OM channel.
Measurement Points The number of window size update packets transmitted on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
VS.OMCH.TxWndUpdatePkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Data Packets Transmitted on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455846
VS.OMCH.Tx DataPkts
Number of Data Packets Transmitted on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of all data packets transmitted on the OM channel within a measurement period. It represents the traffic on the OM channel.
Measurement Points The number of data packets transmitted on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
VS.OMCH.TxDataPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Packets Retransmitted on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455847
VS.OMCH.Tx DataRexntPkts
Number of Packets Retransmitted on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of all packets retransmitted on the OM channel within a measurement period. The transmitter retransmits a packet if no ACK message for the packet is received within a specified time. This counter represents the quality of the OM channel.
Measurement Points The number of packets retransmitted on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
VS.OMCH.TxDataRexntPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of ACKs Transmitted on the OM Channel Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455848
VS.OMCH.Tx AckOnlyPkts
Number of ACKs Transmitted on the OM Channel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of all ACKs, that is, the packets only include ACK information and have no data, transmitted on the OM channel within a measurement period. This counter represents the quality of the OM channel.
Measurement Points The number of ACKs transmitted on the OM channel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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3900 Series Base Station Performance Counter Reference
1 Equipment and Transport Network Related Measurement
Related Features Counter Name
Feature ID
Feature Name
VS.OMCH.TxAckOnlyPkts
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
LTE: None
1.16 Measurement of Tunnel performance (TUNNEL) Overview The object type Tunnel Measurement contains the tunnel-related function subset. It represents the traffic volume of services carried by the tunnel in the base station and the quality of service.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Network.Tunnel
Measurement related to TUNNEL
1.16.1 Measurement related to TUNNEL (Network.Tunnel) Overview The Network.Tunnel function subset measures the traffic and data rate in the tunnel. It represents the traffic volume of services carried by the tunnel in the base station and the quality of data transmission. Figure 1-12 shows the position of the tunnel in the TCP/IP model. Figure 1-12
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Counters Counter ID
Counter Name
Counter Description
Original Release
1542455856
VS.TUNNEL.TxBy tes
Number of Bytes Transmitted in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
1542455857
VS.TUNNEL.TxPa ckets
Number of Packets Transmitted in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
1542455858
VS.TUNNEL.RxBy tes
Number of Bytes Received in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455859
VS.TUNNEL.RxPa ckets
Number of Packets Received in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
1542455860
VS.TUNNEL.TxM axSpeed
Maximum Transmit Rate in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
1542455861
VS.TUNNEL.TxMi nSpeed
Minimum Transmit Rate in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455862
VS.TUNNEL.TxM eanSpeed
Average Transmit Rate in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
1542455863
VS.TUNNEL.RxM axSpeed
Maximum Receive Rate in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
1542455864
VS.TUNNEL.RxMi nSpeed
Minimum Receive Rate in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455865
VS.TUNNEL.RxM eanSpeed
Average Receive Rate in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R014C 00 eNodeB:V100R005 C00
Counter Relationship None
Number of Bytes on the TUNNEL Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455856
VS.TUNNEL.T xBytes
Number of Bytes Transmitted in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of Bytes Received in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
1542455858
VS.TUNNEL.R xBytes
BTS3900 G,U,L
BTS3900
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.TUNNEL.TxBytes
This counter measures the number of bytes transmitted in the tunnel at the network layer within a measurement period. It indicates the traffic in the tunnel at the network layer within the measurement period.
VS.TUNNEL.RxBytes
This counter measures the number of bytes received in the tunnel at the network layer within a measurement period. It indicates the traffic in the tunnel at the network layer within the measurement period.
Measurement Points The number of bytes in the packets successfully transmitted or received in the tunnel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit byte
Related Features Counter Name
Feature ID
Feature Name
VS.TUNNEL.TxBytes
Multi-mode: MRFD-211501
IP-Based Multi-mode CoTransmission on BS side (GBTS)
MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None LTE: None
IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB) IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
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Counter Name
Feature ID
Feature Name
VS.TUNNEL.RxBytes
Multi-mode: MRFD-211501
IP-Based Multi-mode CoTransmission on BS side (GBTS)
MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None
IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB)
LTE: None
IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
Number of Packets on the TUNNEL Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455857
VS.TUNNEL.T xPackets
Number of Packets Transmitted in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of Packets Received in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
1542455859
VS.TUNNEL.R xPackets
BTS3900 G,U,L
BTS3900
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.TUNNEL.TxPackets
This counter measures the number of packets transmitted in the tunnel at the network layer within a measurement period. It indicates the traffic and transmission quality in the tunnel at the network layer within the measurement period.
VS.TUNNEL.RxPackets
This counter measures the number of packets received in the tunnel at the network layer is measured within a measurement period. It indicates the traffic and transmission quality in the tunnel at the network layer within the measurement period.
Measurement Points The number of packets successfully transmitted or received in the tunnel is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
Feature Name
VS.TUNNEL.TxPackets
Multi-mode: MRFD-211501
IP-Based Multi-mode CoTransmission on BS side (GBTS)
MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None LTE: None
IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB) IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
VS.TUNNEL.RxPackets
Multi-mode: MRFD-211501 MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None LTE: None
IP-Based Multi-mode CoTransmission on BS side (GBTS) IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB) IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
Rate on the TUNNEL
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455860
VS.TUNNEL.T xMaxSpeed
Maximum Transmit Rate in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455861
VS.TUNNEL.T xMinSpeed
Minimum Transmit Rate in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455862
VS.TUNNEL.T xMeanSpeed
Average Transmit Rate in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455863
VS.TUNNEL.R xMaxSpeed
Maximum Receive Rate in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455864
VS.TUNNEL.R xMinSpeed
Minimum Receive Rate in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542455865
VS.TUNNEL.R xMeanSpeed
Average Receive Rate in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.TUNNEL.TxMaxSpeed
This counter measures the maximum transmit rate in the tunnel at the network layer within a measurement period. It indicates the traffic in the tunnel at the network layer within the measurement period.
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Counter Name
Description
VS.TUNNEL.TxMinSpeed
This counter measures the minimum transmit rate in the tunnel at the network layer within a measurement period. It indicates the traffic in the tunnel at the network layer within the measurement period.
VS.TUNNEL.TxMeanSpeed
This counter measures the average transmit rate in the tunnel at the network layer within a measurement period. It indicates the traffic in the tunnel at the network layer within the measurement period.
VS.TUNNEL.RxMaxSpeed
This counter measures the maximum receive rate in the tunnel at the network layer within a measurement period. It indicates the traffic in the tunnel at the network layer within the measurement period.
VS.TUNNEL.RxMinSpeed
This counter measures the minimum receive rate in the tunnel at the network layer within a measurement period. It indicates the traffic in the tunnel at the network layer within the measurement period.
VS.TUNNEL.RxMeanSpeed
This counter measures the average receive rate in the tunnel at the network layer within a measurement period. It indicates the traffic in the tunnel at the network layer within the measurement period.
Measurement Points Transmit rate and receive rate in the TUNNEL per second. At the end of a measurement period, the maximum, minimum, average sampling results are reported.
Formula None
Unit bit/s
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Related Features Counter Name
Feature ID
Feature Name
VS.TUNNEL.TxMaxSpeed
Multi-mode: MRFD-211501
IP-Based Multi-mode CoTransmission on BS side (GBTS)
MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None LTE: None
IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB) IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
VS.TUNNEL.TxMinSpeed
Multi-mode: MRFD-211501 MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None LTE: None
IP-Based Multi-mode CoTransmission on BS side (GBTS) IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB) IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
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Counter Name
Feature ID
Feature Name
VS.TUNNEL.TxMeanSpeed
Multi-mode: MRFD-211501
IP-Based Multi-mode CoTransmission on BS side (GBTS)
MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None LTE: None
IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB) IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
VS.TUNNEL.RxMaxSpeed
Multi-mode: MRFD-211501 MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None LTE: None
IP-Based Multi-mode CoTransmission on BS side (GBTS) IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB) IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
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Counter Name
Feature ID
Feature Name
VS.TUNNEL.RxMinSpeed
Multi-mode: MRFD-211501
IP-Based Multi-mode CoTransmission on BS side (GBTS)
MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None LTE: None
IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB) IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
VS.TUNNEL.RxMeanSpeed
Multi-mode: MRFD-211501 MRFD-221501 MRFD-231501 MRFD-241501 GSM: None UMTS: None LTE: None
IP-Based Multi-mode CoTransmission on BS side (GBTS) IP-Based Multi-mode CoTransmission on BS side (NodeB) IP-Based Multi-mode CoTransmission on BS side (eNodeB) IP-Based Multi-mode CoTransmission on BS side (LTE TDD)
1.17 Measurement of AAL2PATH performance (AAL2PATH) Overview The AAL2PATH object type contains the function subsets related to AAL2 paths. It indicates the traffic of services carried on AAL2 paths and the service quality.
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FunctionSubSets FunctionSubSet
FunctionSubSet Name
Transport.AAL2PATH
Measurement related to AAL2PATH
1.17.1 Measurement related to AAL2PATH (Transport.AAL2PATH) Overview The AAL2 PATH function subset measures the traffic volume carried on a transmission link. It helps analyze the transmission quality of the system and ensure the stable and reliable running of the system.
Counters
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Counter ID
Counter Name
Counter Description
Original Release
1542455884
VS.AAL2PATH.Rx Pkts
Number of packets successfully received on the AAL2 Path
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455885
VS.AAL2PATH.Tx Pkts
Number of packets successfully transmitted on the AAL2 Path
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455886
VS.AAL2PATH.Tx DropPkts
Number of discarded packets transmitted on the AAL2 Path
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542455887
VS.AAL2PATH.Rx DropPkts
Number of discarded packets received on the AAL2 Path
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
Counter Relationship None
Number of Packets on the AAL2 Path Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455884
VS.AAL2PAT H.RxPkts
Number of packets successfully received on the AAL2 Path
BTS3900 WCDMA, BTS3900
U
1542455885
VS.AAL2PAT H.TxPkts
Number of packets successfully transmitted on the AAL2 Path
BTS3900 WCDMA, BTS3900
U
1542455886
VS.AAL2PAT H.TxDropPkts
Number of discarded packets transmitted on the AAL2 Path
BTS3900 WCDMA, BTS3900
U
1542455887
VS.AAL2PAT H.RxDropPkts
Number of discarded packets received on the AAL2 Path
BTS3900 WCDMA, BTS3900
U
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Description The following table describes the meanings of each counter. Counter Name
Description
VS.AAL2PATH.RxPkts
This counter measures the number of packets received on the AAL2 Path within a measurement period. It represents the traffic on the AAL2 Path.
VS.AAL2PATH.TxPkts
This counter measures the number of packets transmitted on the AAL2 Path within a measurement period. It represents the traffic on the AAL2 Path.
VS.AAL2PATH.TxDropPkts
This counter measures the number of discarded packets transmitted on the AAL2 Path within a measurement period. It represents the traffic on the AAL2 Path.
VS.AAL2PATH.RxDropPkts
This counter measures the number of discarded packets received on the AAL2 Path within a measurement period. It represents the traffic on the AAL2 Path.
Measurement Points The number of successfully received packets on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of successfully transmitted packets on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of packets that are to be transmitted but discarded on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of packets that are to be received but discarded on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit packet Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
Feature Name
VS.AAL2PATH.RxPkts
Multi-mode: None GSM: None UMTS: WRFD-05030104 LTE: None
VS.AAL2PATH.TxPkts
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
Multi-mode: None GSM: None UMTS: WRFD-05030104 LTE: None
VS.AAL2PATH.TxDropPkt s
Multi-mode: None GSM: None UMTS: WRFD-05030104 LTE: None
VS.AAL2PATH.RxDropPkt s
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
Multi-mode: None GSM: None UMTS: WRFD-05030104 LTE: None
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
1.18 Measurement of SAAL performance (SAAL) Overview The SAAL object type contains the function subsets related to SAAL links. It indicates the traffic of signaling services carried on SAAL links and the service quality.
FunctionSubSets
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FunctionSubSet
FunctionSubSet Name
Transport.SAAL
Measurement related to SAAL
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1.18.1 Measurement related to SAAL (Transport.SAAL) Overview The SAAL function subset measures the traffic volumes of IP packets transmitted and received on an SAAL link inside the base station. It measures traffic volumes of the signaling services carried on base station transmission boards and the service quality.
Counters
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Counter ID
Counter Name
Counter Description
Original Release
1542455888
VS.SAALAAL5.Rx Pkts
Number of packets received on the SAAL AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455889
VS.SAALAAL5.Tx Pkts
Number of packets transmitted on the SAAL AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455890
VS.SAALAAL5.Rx DropPkts
Number of discarded packets received on the SAAL AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455891
VS.SAALAAL5.Tx DropPkts
Number of discarded packets transmitted on the SAAL AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542455892
VS.SAALAAL5.Tx Cells
Number of cells transmitted on the SAAL AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455893
VS.SAALAAL5.Rx Cells
Number of cells received on the SAAL AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455894
VS.SAAL.ToAAL5 Pkts
Number of packets successfully received to the AAL5 layer on the SAAL link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455895
VS.SAAL.ToAAL5 DropPkts
Number of discarded packets received to the AAL5 layer on the SAAL link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455896
VS.SAAL.FromAA L5Pkts
Number of packets successfully received from the AAL5 layer on the SAAL link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542455897
VS.SAAL.FromAA L5DropPkts
Number of discarded packets received from the AAL5 layer on the SAAL link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455898
VS.SAAL.FromUserPkts
Number of packets received from the user layer on the SAAL link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455899
VS.SAAL.ToUserPkts
Number of packets successfully transmitted to the user layer on the SAAL link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455900
VS.SAAL.ToUserFailedNumber
Number of packets failed to be transmitted to the user layer on the SAAL link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
Counter Relationship None
Number of Packets on the SAAL AAL5 link
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455888
VS.SAALAAL 5.RxPkts
Number of packets received on the SAAL AAL5 link
BTS3900 WCDMA, BTS3900
U
1542455889
VS.SAALAAL 5.TxPkts
Number of packets transmitted on the SAAL AAL5 link
BTS3900 WCDMA, BTS3900
U
1542455890
VS.SAALAAL 5.RxDropPkts
Number of discarded packets received on the SAAL AAL5 link
BTS3900 WCDMA, BTS3900
U
1542455891
VS.SAALAAL 5.TxDropPkts
Number of discarded packets transmitted on the SAAL AAL5 link
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.SAALAAL5.RxPkts
This counter provides the number of packets successfully received at the AAL5 layer on an SAAL link. It reflects the traffic on the SAAL AAL5 layer.
VS.SAALAAL5.TxPkts
This counter provides the number of packets successfully transmitted at the AAL5 layer on an SAAL link. It reflects the traffic on the SAAL AAL5 layer.
VS.SAALAAL5.RxDropPkts
This counter provides the number of discarded packets received at the AAL5 layer on an SAAL link. It reflects the quality on the SAAL AAL5 layer.
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Counter Name
Description
VS.SAALAAL5.TxDropPkts
This counter provides the number of discarded packets transmitted at the AAL5 layer on an SAAL link. It reflects the quality on the SAAL AAL5 layer.
Measurement Points The number of successfully received packets on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of successfully transmitted packets on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of packets that are to be received but discarded on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of packets that are to be transmitted but discarded on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SAALAAL5.RxPkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030105 LTE: None
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Permanent AAL5 Connections for Control Plane Traffic
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Counter Name
Feature ID
VS.SAALAAL5.TxPkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030105 LTE: None
VS.SAALAAL5.RxDropPkt s
Multi-mode: None GSM: None UMTS: WRFD-05030105 LTE: None
VS.SAALAAL5.TxDropPkt s
Permanent AAL5 Connections for Control Plane Traffic
Permanent AAL5 Connections for Control Plane Traffic
Multi-mode: None GSM: None UMTS: WRFD-05030105 LTE: None
Permanent AAL5 Connections for Control Plane Traffic
Number of Cells on the SAAL AAL5 link Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455892
VS.SAALAAL 5.TxCells
Number of cells transmitted on the SAAL AAL5 link
BTS3900 WCDMA, BTS3900
U
1542455893
VS.SAALAAL 5.RxCells
Number of cells received on the SAAL AAL5 link
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.SAALAAL5.TxCells
This counter provides the number of cells transmitted at the AAL5 layer on an SAAL link. It reflects the traffic on the SAAL AAL5 layer.
VS.SAALAAL5.RxCells
This counter provides the number of cells received at the AAL5 layer on an SAAL link. It reflects the traffic on the SAAL AAL5 layer.
Measurement Points The number of cells transmitted on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of received cells on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit cell
Related Features Counter Name
Feature ID
VS.SAALAAL5.TxCells
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030105 LTE: None
VS.SAALAAL5.RxCells
Permanent AAL5 Connections for Control Plane Traffic
Multi-mode: None GSM: None UMTS: WRFD-05030105 LTE: None
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Number of packets successfully received to the AAL5 layer on the SAAL link Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455894
VS.SAAL.ToA AL5Pkts
Number of packets successfully received to the AAL5 layer on the SAAL link
BTS3900 WCDMA, BTS3900
U
Description This counter provides the number of packets successfully transmitted to the AAL5 layer on an SAAL link. It reflects the traffic on the SAAL link.
Measurement Points This counter is measured when data to be transmitted to the AAL5 layer on the SAAL link in a measurement period.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SAAL.ToAAL5Pkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030104 LTE: None
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455895
VS.SAAL.ToA AL5DropPkts
Number of discarded packets received to the AAL5 layer on the SAAL link
BTS3900 WCDMA, BTS3900
U
Description This counter provides the number of packets that failed to be transmitted to the AAL5 layer on an SAAL link. It reflects the transmission quality on the SAAL link.
Measurement Points This counter is measured when data fails to be transmitted to the AAL5 layer on the SAAL link in a measurement period.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SAAL.ToAAL5DropPkt s
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030104 LTE: None
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
Number of packets successfully received from the AAL5 layer on the SAAL link
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455896
VS.SAAL.Fro mAAL5Pkts
Number of packets successfully received from the AAL5 layer on the SAAL link
BTS3900 WCDMA, BTS3900
U
Description This counter provides the number of packets successfully received from the AAL5 layer on an SAAL link. It reflects the traffic on the SAAL link.
Measurement Points This counter is measured when data to be received from the AAL5 layer on the SAAL link in a measurement period.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SAAL.FromAAL5Pkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030104 LTE: None
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
Number of discarded packets received from the AAL5 layer on the SAAL link
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455897
VS.SAAL.Fro mAAL5DropPk ts
Number of discarded packets received from the AAL5 layer on the SAAL link
BTS3900 WCDMA, BTS3900
U
Description This counter provides the number of packets that failed to be received from the AAL5 layer on an SAAL link. It reflects the traffic on the SAAL link.
Measurement Points This counter is measured when data fails to be received from the AAL5 layer on the SAAL link in a measurement period.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SAAL.FromAAL5Drop Pkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030104 LTE: None
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
Number of packets received from the user layer on the SAAL link
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455898
VS.SAAL.Fro mUserPkts
Number of packets received from the user layer on the SAAL link
BTS3900 WCDMA, BTS3900
U
Description This counter provides the number of packets received from the signaling or ALCAP on an SAAL path in a measurement period. It reflects the quality on the SAAL link.
Measurement Points This counter is measured when data to be received from the application layer on the SAAL link in a measurement period.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SAAL.FromUserPkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030104 LTE: None
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
Number of packets successfully transmitted to the user layer on the SAAL link
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455899
VS.SAAL.ToU serPkts
Number of packets successfully transmitted to the user layer on the SAAL link
BTS3900 WCDMA, BTS3900
U
Description This counter provides the number of packets successfully transmitted to the signaling or ALCAP on an SAAL path in a measurement period. It reflects the quality on the SAAL link.
Measurement Points This counter is measured when data to be transmitted to the application layer on the SAAL link in a measurement period.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SAAL.ToUserPkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030104 LTE: None
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
Number of packets failed to be transmitted to the user layer on the SAAL link
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455900
VS.SAAL.ToU serFailedNumb er
Number of packets failed to be transmitted to the user layer on the SAAL link
BTS3900 WCDMA, BTS3900
U
Description This counter provides the number of packets that failed to be transmitted to the signaling or ALCAP on an SAAL path in a measurement period. It reflects the traffic on the SAAL link.
Measurement Points This counter is measured when data fails to be transmitted to the application layer on the SAAL link in a measurement period.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SAAL.ToUserFailedNumber
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030104 LTE: None
Dynamic AAL2 Connections in Iub/IuCS/Iur Interface
1.19 Measurement of IMAGRP performance (IMAGRP) Overview The IMAGRP object type contains the function subsets related to IMA groups. It indicates the traffic of services carried on IMA groups and the service quality. Issue 12 (2014-05-30)
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FunctionSubSets FunctionSubSet
FunctionSubSet Name
DataLink.IMAGRP
Measurement related to IMAGRP
1.19.1 Measurement related to IMAGRP (DataLink.IMAGRP) Overview The IMAGRP function subset measures traffic volumes carried on the transmission links. It helps analyze the transmission quality of the system and ensure the stable and reliable running of the system.
Counters
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Counter ID
Counter Name
Counter Description
Original Release
1542455901
VS.IMAGRP.TxDr opCells
Number of discarded cells transmitted on the IMAGRP
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455902
VS.IMAGRP.TxCe lls
Number of user cells transmitted on the IMAGRP
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455903
VS.IMAGRP.RxCe lls
Number of user cells received on the IMAGRP
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542455904
VS.IMAGRP.RxDr opCells
Number of discarded cells received on the IMAGRP
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
Counter Relationship None
Number of Cells on the IMAGRP Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455901
VS.IMAGRP.T xDropCells
Number of discarded cells transmitted on the IMAGRP
BTS3900 WCDMA, BTS3900
U
1542455902
VS.IMAGRP.T xCells
Number of user cells transmitted on the IMAGRP
BTS3900 WCDMA, BTS3900
U
1542455903
VS.IMAGRP.R xCells
Number of user cells received on the IMAGRP
BTS3900 WCDMA, BTS3900
U
1542455904
VS.IMAGRP.R xDropCells
Number of discarded cells received on the IMAGRP
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.IMAGRP.TxDropCells
This counter provides the number of discarded cells transmitted on an IMA group due to ATM layer congestion. It reflects the quality on the IMA group.
VS.IMAGRP.TxCells
This counter provides the number of cells transmitted on an IMA group. It reflects the traffic on the IMA group.
VS.IMAGRP.RxCells
This counter provides the number of cells received on an IMA group. It reflects the traffic on the IMA group.
VS.IMAGRP.RxDropCells
This counter provides the number of discarded cells received on an IMA group due to ATM layer congestion. It reflects the quality on the IMA group.
Measurement Points The number of cells that are to be transmitted but discarded on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of cells transmitted on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of cells received on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of cells that are to be received but discarded on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit cell
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Related Features Counter Name
Feature ID
Feature Name
VS.IMAGRP.TxDropCells
Multi-mode: None GSM: None UMTS: WRFD-050304 LTE: None
VS.IMAGRP.TxCells
IMA for E1T1 or Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050304 LTE: None
VS.IMAGRP.RxCells
IMA for E1T1 or Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050304 LTE: None
VS.IMAGRP.RxDropCells
IMA for E1T1 or Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050304 LTE: None
IMA for E1T1 or Channelized STM-1/OC-3 on Iub Interface
1.20 Measurement of IPOAAAL5 performance (IPOAAAL5) Overview The IPOAAAL5 object type contains the function subsets related to IPOA AAL5. It indicates the traffic of services carried on IPOA AAL5 and the service quality.
FunctionSubSets
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FunctionSubSet
FunctionSubSet Name
Transport.IPOAAAL5
Measurement related to IPOAAAL5
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1.20.1 Measurement related to IPOAAAL5 (Transport.IPOAAAL5) Overview The IPOA AAL5 function subset measures the traffic volume carried on a transmission link at the ATM layer. It helps analyze the transmission quality of the system and ensure the stable and reliable running of the system.
Counters
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Counter ID
Counter Name
Counter Description
Original Release
1542455905
VS.IPOAAAL5.Rx Pkts
Number of packets received on the IPOA AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455906
VS.IPOAAAL5.Tx Pkts
Number of packets transmitted on the IPOA AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455907
VS.IPOAAAL5.Rx DropPkts
Number of discarded packets received on the IPOA AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455908
VS.IPOAAAL5.Tx DropPkts
Number of discarded packets transmitted on the IPOA AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
1542455909
VS.IPOAAAL5.Tx Cells
Number of cells transmitted on the IPOA AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
1542455910
VS.IPOAAAL5.Rx Cells
Number of cells received on the IPOA AAL5 link
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
Counter Relationship None
Number of Packets on the IPOA AAL5 link Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455905
VS.IPOAAAL5 .RxPkts
Number of packets received on the IPOA AAL5 link
BTS3900 WCDMA, BTS3900
U
1542455906
VS.IPOAAAL5 .TxPkts
Number of packets transmitted on the IPOA AAL5 link
BTS3900 WCDMA, BTS3900
U
1542455907
VS.IPOAAAL5 .RxDropPkts
Number of discarded packets received on the IPOA AAL5 link
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455908
VS.IPOAAAL5 .TxDropPkts
Number of discarded packets transmitted on the IPOA AAL5 link
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter. Counter Name
Description
VS.IPOAAAL5.RxPkts
This counter provides the number of packets received at the AAL5 layer on an IPoA link. It reflects the traffic on the IPoA AAL5 layer.
VS.IPOAAAL5.TxPkts
This counter provides the number of packets transmitted at the AAL5 layer on an IPoA link. It reflects the traffic on the IPoA AAL5 layer.
VS.IPOAAAL5.RxDropPkts
This counter provides the number of discarded packets received at the AAL5 layer on an IPoA link. It reflects the quality on the IPoA AAL5 layer.
VS.IPOAAAL5.TxDropPkts
This counter provides the number of discarded packets transmitted at the AAL5 layer on an IPoA link. It reflects the quality on the IPoA AAL5 layer.
Measurement Points The number of received packets on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of transmitted packets on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of packets that are to be received but discarded on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter;
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The number of packets that are to be transmitted but discarded on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.IPOAAAL5.RxPkts
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030105 LTE: None
VS.IPOAAAL5.TxPkts
Permanent AAL5 Connections for Control Plane Traffic
Multi-mode: None GSM: None UMTS: WRFD-05030105 LTE: None
VS.IPOAAAL5.RxDropPkt s
Multi-mode: None GSM: None UMTS: WRFD-05030105 LTE: None
VS.IPOAAAL5.TxDropPkts
Permanent AAL5 Connections for Control Plane Traffic
Permanent AAL5 Connections for Control Plane Traffic
Multi-mode: None GSM: None UMTS: WRFD-05030105 LTE: None
Permanent AAL5 Connections for Control Plane Traffic
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455909
VS.IPOAAAL5 .TxCells
Number of cells transmitted on the IPOA AAL5 link
BTS3900 WCDMA, BTS3900
U
1542455910
VS.IPOAAAL5 .RxCells
Number of cells received on the IPOA AAL5 link
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter. Counter Name
Description
VS.IPOAAAL5.TxCells
This counter provides the number of cells transmitted at the AAL5 layer on an IPoA link. It reflects the traffic on the IPoA AAL5 layer.
VS.IPOAAAL5.RxCells
This counter provides the number of cells received at the AAL5 layer on an IPoA link. It reflects the traffic on the IPoA AAL5 layer.
Measurement Points The number of cells transmitted on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter; The number of cells received on a link is sampled every second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter.
Formula None
Unit cell
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Related Features Counter Name
Feature ID
Feature Name
VS.IPOAAAL5.TxCells
Multi-mode: None GSM: None UMTS: WRFD-05030105 LTE: None
VS.IPOAAAL5.RxCells
Permanent AAL5 Connections for Control Plane Traffic
Multi-mode: None GSM: None UMTS: WRFD-05030105 LTE: None
Permanent AAL5 Connections for Control Plane Traffic
1.21 Measurement of TRUNK performance (TRUNK) Overview The object type TRUNK measurement contains the TRUNK-related function subset. It represents the traffic volume of services carried by the TRUNK in the base station and the quality of service.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Datalink.TRUNK
Measurement related to TRUNK
1.21.1 Measurement related to TRUNK (Datalink.TRUNK) Overview The Datalink.TRUNK function subset measures the data rate in the TRUNK. It represents the traffic volume of services carried by the TRUNK in the base station and the quality of service.
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Counters Counter ID
Counter Name
Counter Description
Original Release
1542460302
VS.TRUNK.TxTotalBW
Total transmission bandwidth in TRUNK link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460303
VS.TRUNK.RxTotalBW
Total receive bandwidth in TRUNK link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460304
VS.TRUNK.RxMa xSpeed
Maximum Receive Rate in TRUNK
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460305
VS.TRUNK.RxMe anSpeed
Mean Receive Rate in the Tunnel
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460306
VS.TRUNK.TxMa xSpeed
Maximum transmit Rate in TRUNK
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460307
VS.TRUNK.TxMe anSpeed
Mean transmit Rate in TRUNK
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460302
VS.TRUNK.Tx TotalBW
Total transmission bandwidth in TRUNK link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Total receive bandwidth in TRUNK link
BTS3900 WCDMA, BTS3900 LTE,
1542460303
VS.TRUNK.Rx TotalBW
BTS3900 G,U,L
BTS3900
Description These counters provide total transmit and receive bandwidth in TRUNK link in the current measurement period, reflecting the TRUNK bandwidth. The following table describes the meanings of each counter. Counter Name
Description
VS.TRUNK.TxTotalBW
Total transmission bandwidth in TRUNK link is measured in the current measurement period, reflecting the TRUNK bandwidth.
VS.TRUNK.RxTotalBW
Total receive bandwidth in TRUNK link is measured in the current measurement period, reflecting the TRUNK bandwidth.
Measurement Points Available bandwidth in the transmit and receive directions of the trunk group per second. At the end of a measurement period, the average of these sampling results is used as the value of the corresponding counter.
Formula None
Unit kbit/s
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Related Features Counter Name
Feature ID
Feature Name
VS.TRUNK.TxTotalBW
Multi-mode: MRFD-210103
Link aggregation
GSM: None UMTS: None LTE: LOFD-003008
Ethernet Link Aggregation (IEEE 802.3ad)
TDLOFD-003008
Ethernet Link Aggregation (IEEE 802.3ad) VS.TRUNK.RxTotalBW
Multi-mode: MRFD-210103
Link aggregation
GSM: None UMTS: None LTE: LOFD-003008
Ethernet Link Aggregation (IEEE 802.3ad)
TDLOFD-003008
Ethernet Link Aggregation (IEEE 802.3ad)
Rate on the TRUNK Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460304
VS.TRUNK.Rx MaxSpeed
Maximum Receive Rate in TRUNK
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542460305
VS.TRUNK.Rx MeanSpeed
Mean Receive Rate in the Tunnel
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542460306
VS.TRUNK.Tx MaxSpeed
Maximum transmit Rate in TRUNK
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900 1542460307
VS.TRUNK.Tx MeanSpeed
Mean transmit Rate in TRUNK
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Description These counters provide the transmit rate and the receive rate in TRUNK in the current measurement period, reflecting the TRUNK link quality. The following table describes the meanings of each counter. Counter Name
Description
VS.TRUNK.RxMaxSpeed
Maximum Receive Rate in TRUNK is measured in the current measurement period, reflecting the TRUNK link quality.
VS.TRUNK.RxMeanSpeed
Mean Receive Rate in the Tunnel is measured in the current measurement period, reflecting the TRUNK link quality.
VS.TRUNK.TxMaxSpeed
Maximum transmit Rate in TRUNK is measured in the current measurement period, reflecting the TRUNK link quality.
VS.TRUNK.TxMeanSpeed
Mean transmit Rate in TRUNK is measured in the current measurement period, reflecting the TRUNK link quality.
Measurement Points The transmit rate or the receive rate on the trunk is sampled per second. At the end of a measurement period, the maximum, minimum, or average of these sampling results is used as the value of the corresponding counter.
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
Feature Name
VS.TRUNK.RxMaxSpeed
Multi-mode: MRFD-210103
Link aggregation
GSM: None UMTS: None LTE: LOFD-003008 TDLOFD-003008
Ethernet Link Aggregation (IEEE 802.3ad) Ethernet Link Aggregation (IEEE 802.3ad)
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Counter Name
Feature ID
Feature Name
VS.TRUNK.RxMeanSpeed
Multi-mode: MRFD-210103
Link aggregation
GSM: None UMTS: None LTE: LOFD-003008 TDLOFD-003008
Ethernet Link Aggregation (IEEE 802.3ad) Ethernet Link Aggregation (IEEE 802.3ad)
VS.TRUNK.TxMaxSpeed
Multi-mode: MRFD-210103
Link aggregation
GSM: None UMTS: None LTE: LOFD-003008 TDLOFD-003008
Ethernet Link Aggregation (IEEE 802.3ad) Ethernet Link Aggregation (IEEE 802.3ad)
VS.TRUNK.TxMeanSpeed
Multi-mode: MRFD-210103
Link aggregation
GSM: None UMTS: None LTE: LOFD-003008 TDLOFD-003008
Ethernet Link Aggregation (IEEE 802.3ad) Ethernet Link Aggregation (IEEE 802.3ad)
1.22 Measurement of firewall performance (Firewall) Overview The Firewall object type contains the function subsets related to the built-in firewall. It indicates the security status of the base station.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Transport.Firewall
Measurement related to firewall
1.22.1 Measurement related to firewall (Transport.Firewall) Overview The firewall function subset measures the state of firewall, It helps to analyze the firewall state. Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Original Release
1542460338
VS.Firewall.RxL2 ACLFilterDropPkts
Number of discarded packets due to L2 ACL filter based on port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460339
VS.Firewall.RxAdvACLFilterDropPkts
Number of discarded packets due to advanced ACL filter based on port
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
Number of discarded packets due to L2 ACL filter based on port Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460338
VS.Firewall.Rx L2ACLFilterDropPkts
Number of discarded packets due to L2 ACL filter based on port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Description This counter measures the number of discarded packets due to L2 ACL filter based on port.
Measurement Points The number of discarded packets received due to L2 ACL filter based on port is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.Firewall.RxL2ACLFilterDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-003014 TDLOFD-003014
Integrated Firewall Integrated Firewall
Number of discarded packets due to advanced ACL filter based on port Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460339
VS.Firewall.Rx AdvACLFilterDropPkts
Number of discarded packets due to advanced ACL filter based on port
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Description This counter measures the number of discarded packets due to advanced ACL filter based on port. Advanced ACLs refer to L3 and L4 ACLs.
Measurement Points The number of discarded packets received due to advanced ACL filter based on port is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
Feature Name
VS.Firewall.RxAdvACLFilterDropPkts
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: LOFD-003014 TDLOFD-003014
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface Integrated Firewall Integrated Firewall
1.23 Measurement of IKE performance (IKE) Overview The IKE object type contains the function subsets related to the IKE. It indicates the IKE negotiation traffic and the service quality.
FunctionSubSets
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FunctionSubSet
FunctionSubSet Name
Transport.IKE
Measurement related to IKE
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1.23.1 Measurement related to IKE (Transport.IKE) Overview The IKE function subset measures the state of IKE.It helps to analyze the IKE state.
Counters Counter ID
Counter Name
Counter Description
Original Release
1542460340
VS.IKE.RxPackets
Number of IKE packets received
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460341
VS.IKE.TxPackets
Number of IKE packets transmitted
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460342
VS.IKE.SubSARek ey.Times
Times of IKE sub SA rekey completed
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460343
VS.IKE.DPDSessio nFail.Times
Times of DPD session fail
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
Number of IKE packets received Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460340
VS.IKE.RxPac kets
Number of IKE packets received
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of IKE packets received by the base station.
Measurement Points The number of IKE packets received is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None Issue 12 (2014-05-30)
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Unit packet
Related Features Counter Name
Feature ID
VS.IKE.RxPackets
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Number of IKE packets transmitted Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460341
VS.IKE.TxPack ets
Number of IKE packets transmitted
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of IKE packets transmitted.
Measurement Points The number of IKE packets transmitted is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
VS.IKE.TxPackets
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Times of IKE sub SA rekey completed Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460342
VS.IKE.SubSA Rekey.Times
Times of IKE sub SA rekey completed
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the times of IKE child SA rekey completed by the base station.
Measurement Points When sub SA rekey completed, the counter will be added 1.
Formula None
Unit None
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Related Features Counter Name
Feature ID
VS.IKE.SubSARekey.Time s
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Times of DPD session fail Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460343
VS.IKE.DPDSe ssionFail.Times
Times of DPD session fail
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the failure times of base station DPD session.
Measurement Points Times of DPD session fail is sampled in 30 seconds. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit None
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Related Features Counter Name
Feature ID
Feature Name
VS.IKE.DPDSessionFail.Ti mes
Multi-mode: None GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
1.24 Measurement of IPSec performance (IPSec) Overview The IPSec object type contains the function subsets related to IPSec. It indicates the IPSec traffic and the service quality.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Transport.IPSec
Measurement related to IPSec
1.24.1 Measurement related to IPSec (Transport.IPSec) Overview The IPSec function subset measures the state of IPSec,It helps to analyze the IPSec state.
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Counters Counter ID
Counter Name
Counter Description
Original Release
1542460344
VS.IPSec.RxCheck ReplayFailDropPkts
Number of discarded packets received due to replay checking fail
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460345
VS.IPSec.RxAHCheckFailDropPkts
Number of discarded packets received due to AH checking fail
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460346
VS.IPSec.RxESPFailDropPkts
Number of discarded packets received due to ESP fail
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460347
VS.IPSec.RxDecryptACLFailDropPkts
Number of discarded packets received due to decrypt ACL fail
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460348
VS.IPSec.RxDecryptSuccessPkts
Number of decrypt success packets received
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460349
VS.IPSec.TxOutboundSAMissDropPkts
Number of discarded packets transmitted due to outbound SA miss
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460350
VS.IPSec.TxAntiReplaySnWrappedDropPkts
Number of discarded packets transmitted due to sequence number overflow
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460351
VS.IPSec.TxEncryptSuccessPkts
Number of encrypt success packets transmitted
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
Number of discarded packets received due to replay checking fail Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460344
VS.IPSec.RxCh eckReplayFailDropPkts
Number of discarded packets received due to replay checking fail
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Description This counter measures the number of packets discarded by the base station RX due to the replay checking.
Measurement Points The number of discarded packets received due to replay checking fail is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.IPSec.RxCheckReplayFailDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Number of discarded packets received due to AH checking fail Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460345
VS.IPSec.RxA HCheckFailDropPkts
Number of discarded packets received due to AH checking fail
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of packets discarded by the base station RX due to the AH authentication failure. Issue 12 (2014-05-30)
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Measurement Points The number of discarded packets received due to AH checking fail is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.IPSec.RxAHCheckFailDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Number of discarded packets received due to ESP fail Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460346
VS.IPSec.RxES PFailDropPkts
Number of discarded packets received due to ESP fail
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of packets discarded by the base station RX due to the ESP authentication failure or decryption failure.
Measurement Points The number of discarded packets received due to ESP fail is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter. Issue 12 (2014-05-30)
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Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.IPSec.RxESPFailDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Number of discarded packets received due to decrypt ACL fail Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460347
VS.IPSec.RxDe cryptACLFailDropPkts
Number of discarded packets received due to decrypt ACL fail
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of packets discarded by the base station RX due to packets that should not have been encrypted.
Measurement Points The number of discarded packets received due to decrypt ACL fail is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None Issue 12 (2014-05-30)
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Unit packet
Related Features Counter Name
Feature ID
VS.IPSec.RxDecryptACLFailDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Number of decrypt success packets received Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460348
VS.IPSec.RxDe cryptSuccessPk ts
Number of decrypt success packets received
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of packets successfully decrypted by the base station RX.
Measurement Points The number of packets decryption successful received is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
VS.IPSec.RxDecryptSuccessPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Number of discarded packets transmitted due to outbound SA miss Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460349
VS.IPSec.TxOu tboundSAMissDropPkts
Number of discarded packets transmitted due to outbound SA miss
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of packets discarded by the base station TX due to outbound SA miss.
Measurement Points The number of discarded packets transmitted due to outbound SA miss is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
VS.IPSec.TxOutboundSAMissDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Number of discarded packets transmitted due to sequence number overflow Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460350
VS.IPSec.TxAn tiReplaySnWra ppedDropPkts
Number of discarded packets transmitted due to sequence number overflow
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of packets discarded by the base station TX due to sequence number overflow.
Measurement Points The number of discarded packets transmitted due to sequence number overflow is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
VS.IPSec.TxAntiReplaySnWrappedDropPkts
Multi-mode: None
Feature Name
GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
Number of encrypt success packets transmitted Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460351
VS.IPSec.TxEn cryptSuccessPk ts
Number of encrypt success packets transmitted
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter measures the number of packets successfully encrypted by the base station TX.
Measurement Points The number of packets encryption successful transmitted is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the counter.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
Feature Name
VS.IPSec.TxEncryptSuccessPkts
Multi-mode: None GSM: GBFD-113524
BTS Integrated IPsec
UMTS: WRFD-140209
NodeB Integrated IPsec
LTE: LOFD-003009
IPsec
TDLOFD-003009
IPsec
1.25 Measurement of SCTP Link performance (SCTPLNK) Overview The object type SCTPLNK Measurement contains the function subset related to the Stream Control Transmission Protocol (SCTP) link of the base station. It represents the traffic volume of signaling services carried by the SCTP link and the quality of service.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Transport.SCTPLNK
Measurement related to SCTPLNK
1.25.1 Measurement related to SCTPLNK (Transport.SCTPLNK) Overview The SCTPLNK function subset measures the traffic volumes of IP packets transmitted and received on an SCTP link inside the base station. It measures traffic volumes of the signaling services carried on base station transmission boards and the service quality.Figure 1-13 shows the position of the SCTP layer in the TCP/IP model.
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Figure 1-13
Counters Counter ID
Counter Name
Counter Description
Original Release
1542460356
VS.SctpLnk.RxByt es
Number of bytes in the IP packets received on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460357
VS.SctpLnk.TxByt es
Number of bytes in the IP packets transmitted on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460358
VS.SctpLnk.RxPkt s
Number of IP packets received on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460359
VS.SctpLnk.TxPkt s
Number of IP packets transmitted on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460360
VS.SctpLnk.RxDro pPkts
Number of discarded IP packets received on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460361
VS.SctpLnk.RxMa xSpeed
Maximum IP packet receive rate on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460362
VS.SctpLnk.RxMi nSpeed
Minimum IP packet receive rate on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460363
VS.SctpLnk.RxMe anSpeed
Average IP packet receive rate on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460364
VS.SctpLnk.TxMa xSpeed
Maximum IP packet transmit rate on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460365
VS.SctpLnk.TxMin Speed
Minimum IP packet transmit rate on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460366
VS.SctpLnk.TxMe anSpeed
Average IP packet transmit rate on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460367
VS.SctpLnk.ToUserPkts
Number of packets transmitted from an SCTP link to the application layer
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460368
VS.SctpLnk.FromUserPkts
Number of packets received on the SCTP link from the application layer
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460369
VS.SctpLnk.RePkt s
Number of chunks retransmitted from the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460370
VS.SctpLnk.RxDro pBytes
Number of discarded IP bytes received on the SCTP link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460371
VS.SctpLnk.Cong. Dur
Congestion Duration of an SCTP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460372
VS.SctpLnk.Cong
Number of Congestions on an SCTP Link
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542460373
VS.SctpLnk.Unava il.Dur
Duration of SCTP Link Unavailable
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542460374
VS.SctpLnk.Unavail
Number of Times SCTP Link Unavailable
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
Number of Bytes in the IP Packets on the SCTP link Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460356
VS.SctpLnk.Rx Bytes
Number of bytes in the IP packets received on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460357
VS.SctpLnk.Tx Bytes
Number of bytes in the IP packets transmitted on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of discarded IP bytes received on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
1542460370
VS.SctpLnk.Rx DropBytes
BTS3900 G,U,L
BTS3900
Description These counters measure the number of bytes in the IP packets transmitted or received on the SCTP link within a measurement period. They represent the traffic volume of signaling services. The counter measure the number of bytes discarded on the SCTP link within a measurement period is not supported currently and the value of the counter VS.SctpLnk.RxDropBytes is always 0. The following table describes the meanings of each counter. Counter Name
Description
VS.SctpLnk.RxBytes
The counters measure the number of bytes in the IP packets received on the SCTP link within a measurement period.
VS.SctpLnk.TxBytes
The counters measure the number of bytes in the IP packets transmitted on the SCTP link within a measurement period.
VS.SctpLnk.RxDropBytes
The counters measure the number of bytes discarded on the SCTP link within a measurement period. The function is not supported currently and the value of the counter is always 0.
Measurement Points The number of bytes in the IP packets successfully transmitted, successfully received or discarded on the SCTP link is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The counter value includes the number of bytes in user data (the data field of a user data packet, excluding the MAC header, IP header, and SCTP header). This counter excludes the number of bytes in the following SCTP management messages: Heartbeat messages, Link establishment messages, Link disconnection messages, Handshake messages. Issue 12 (2014-05-30)
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Formula None
Unit byte
Related Features Counter Name
Feature ID
VS.SctpLnk.RxBytes
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.SctpLnk.TxBytes
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.SctpLnk.RxDropBytes
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of IP Packets on the SCTP link Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460358
VS.SctpLnk.Rx Pkts
Number of IP packets received on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460359
VS.SctpLnk.Tx Pkts
Number of IP packets transmitted on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of discarded IP packets received on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
1542460360
VS.SctpLnk.Rx DropPkts
BTS3900 G,U,L
BTS3900
Description These counters measure the number of IP packets transmitted or received or discarded on the SCTP link within a measurement period. They represent the traffic volume of signaling services. The following table describes the meanings of each counter. Counter Name
Description
VS.SctpLnk.RxPkts
The counters measure the number of IP packets successfully received on the SCTP link within a measurement period.
VS.SctpLnk.TxPkts
The counters measure the number of IP packets transmitted on the SCTP link within a measurement period.
VS.SctpLnk.RxDropPkts
The counters measure the number of IP packets discarded on the SCTP link within a measurement period, This counter excludes the number of packets when the SCTP Link is down.
Measurement Points The number of IP packets successfully transmitted, successfully received or discarded on the SCTP link is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The counter value includes the number of all the packets received over an SCTP link. The packets include SCTP management messages, such as heartbeat messages, link establishment messages, link disconnection messages, and handshake messages. However, the received packets on an SCTP link are not measured in any of the following cases: (1) The SCTP link is not configured. (2) There is no signaling bearer at the upper layer of the SCTP link. (3) The SCTP link is blocked. The VS.SctpLnk.RxPkts counter provides the number of IP packets received on the SCTP link. A measured IP packet must carry the IP addresses and port numbers that can identify an SCTP Issue 12 (2014-05-30)
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association. The following packets are measured: (1) ABORT packets. (2) Packets that pass the code check (excluding the V-tag check) and can be sent to the corresponding association. The VS.SctpLnk.RxDropPkts counter provides the number of discarded IP packets received on the SCTP link. A measured IP packet must carry the IP addresses and port numbers that can identify an SCTP association. An IP packet is discarded when any of the following occurs: (1) The checksum is incorrect in the packet. (2) The chunk length is incorrect in the packet. (3) The chunktype is abnormal and the highest two bits are 10 in the packet. (4) The chunktype is abnormal and the highest two bits are not 10 in the packet. (5) The binding function of the packet is abnormal. For example, the DATA chunk and ABORT chunk are in the same packet.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SctpLnk.RxPkts
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
VS.SctpLnk.TxPkts
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
VS.SctpLnk.RxDropPkts
Feature Name
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
IP Packet Rate Measurements on the SCTP link
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460361
VS.SctpLnk.Rx MaxSpeed
Maximum IP packet receive rate on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Minimum IP packet receive rate on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
Average IP packet receive rate on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
Maximum IP packet transmit rate on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
Minimum IP packet transmit rate on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
Average IP packet transmit rate on the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
1542460362
VS.SctpLnk.Rx MinSpeed
1542460363
VS.SctpLnk.Rx MeanSpeed
1542460364
VS.SctpLnk.Tx MaxSpeed
1542460365
VS.SctpLnk.Tx MinSpeed
1542460366
VS.SctpLnk.Tx MeanSpeed
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900
Description These counters measure the maximum rate, minimum rate, and average rate for transmitting or receiving IP packets on an SCTP link within a measurement period. These rates are calculated on a per-byte basis. They represent the transmission capability of the SCTP link. The following table describes the meanings of each counter.
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Counter Name
Description
VS.SctpLnk.RxMaxSpeed
These counters measure the maximum rate receiving IP packets on an SCTP link within a measurement period. These rates are calculated on a per-byte basis.
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Counter Name
Description
VS.SctpLnk.RxMinSpeed
These counters measure the minimum rate receiving IP packets on an SCTP link within a measurement period. These rates are calculated on a per-byte basis.
VS.SctpLnk.RxMeanSpeed
These counters measure the average rate receiving IP packets on an SCTP link within a measurement period. These rates are calculated on a per-byte basis.
VS.SctpLnk.TxMaxSpeed
These counters measure the maximum for transmitting IP packets on an SCTP link within a measurement period. These rates are calculated on a per-byte basis.
VS.SctpLnk.TxMinSpeed
These counters measure the minimum for transmitting IP packets on an SCTP link within a measurement period. These rates are calculated on a per-byte basis.
VS.SctpLnk.TxMeanSpeed
These counters measure the average for transmitting IP packets on an SCTP link within a measurement period. These rates are calculated on a per-byte basis.
Measurement Points The transmit rate or the receive rate on the SCTP link is sampled per second. At the end of a measurement period, the maximum rate, minimum rate or average rate of these sampling results is used as the value of the corresponding counter.
Formula None
Unit bit/s
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Related Features Counter Name
Feature ID
VS.SctpLnk.RxMaxSpeed
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
VS.SctpLnk.RxMinSpeed
UMTS: WRFD-050402 LTE: None
UMTS: WRFD-050402 LTE: None
UMTS: WRFD-050402 LTE: None
UMTS: WRFD-050402 LTE: None
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: None
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IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601
VS.SctpLnk.TxMeanSpeed
IP Transmission Introduction on Abis Interface
Multi-mode: None GSM: GBFD-118601
VS.SctpLnk.TxMinSpeed
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: GBFD-118601
VS.SctpLnk.TxMaxSpeed
IP Transmission Introduction on Abis Interface
Multi-mode: None GSM: GBFD-118601
VS.SctpLnk.RxMeanSpeed
Feature Name
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Number of packets on the SCTP link from the application layer Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460367
VS.SctpLnk.To UserPkts
Number of packets transmitted from an SCTP link to the application layer
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of packets received on the SCTP link from the application layer
BTS3900 WCDMA, BTS3900 LTE,
1542460368
VS.SctpLnk.Fr omUserPkts
BTS3900
G,U,L
BTS3900
Description These counters measure the number of user packets transmitted or received on the SCTP link within a measurement period. They represent the traffic volume of signaling services. The following table describes the meanings of each counter. Counter Name
Description
VS.SctpLnk.ToUserPkts
The counters measure the number of user packets transmitted on the SCTP link within a measurement period.
VS.SctpLnk.FromUserPkts
The counters measure the number of user packets received on the SCTP link within a measurement period.
Measurement Points The number of packets received from or transmitted to the application layer on an SCTP link is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counters.
Formula None Issue 12 (2014-05-30)
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Unit packet
Related Features Counter Name
Feature ID
Feature Name
VS.SctpLnk.ToUserPkts
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
VS.SctpLnk.FromUserPkts
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of chunks retransmitted from the SCTP link Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460369
VS.SctpLnk.Re Pkts
Number of chunks retransmitted from the SCTP link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description These counters measure the number of chunks retransmitted from the SCTP link. They represent the transmission capability of the SCTP link. The following table describes the meanings of each counter.
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Counter Name
Description
VS.SctpLnk.RePkts
The counters measure the number of chunks retransmitted from the SCTP link.
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Measurement Points The number of packets retransmitted on an SCTP link is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counters.
Formula None
Unit packet
Related Features Counter Name
Feature ID
VS.SctpLnk.RePkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Congestion Duration of an SCTP Link Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460371
VS.SctpLnk.Co ng.Dur
Congestion Duration of an SCTP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the duration through which an SCTP link is in the congested state in a measurement period.
Measurement Points The congestion duration is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. An SCTP link is considered congested when the buffered data of the SCTP link reaches the threshold. Issue 12 (2014-05-30)
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Formula None
Unit s
Related Features Counter Name
Feature ID
VS.SctpLnk.Cong.Dur
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Congestions on an SCTP Link Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460372
VS.SctpLnk.Co ng
Number of Congestions on an SCTP Link
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the number of times that an SCTP link enters the congested state in a measurement period.
Measurement Points The number of congestion times is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. An SCTP link is considered congested when the buffered data of the SCTP link reaches the threshold.
Formula None Issue 12 (2014-05-30)
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Unit None
Related Features Counter Name
Feature ID
VS.SctpLnk.Cong
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Duration of SCTP Link Unavailable Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460373
VS.SctpLnk.Un avail.Dur
Duration of SCTP Link Unavailable
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the duration through which an SCTP link is in the unavailable state.
Measurement Points The duration through which an SCTP link is unavailable is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. When an SCTP link is in the unavailable state, the link may be faulty or deactivated. Due to time adjustment and measurement precision, the measurement result of the counter VS.SctpLnk.Unavail.Dur may have an error of several seconds.
Formula None
Unit s Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.SctpLnk.Unavail.Dur
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Number of Times SCTP Link Unavailable Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542460374
VS.SctpLnk.Un avail
Number of Times SCTP Link Unavailable
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description This counter provides the number of times that an SCTP link is unavailable due to link disconnection.
Measurement Points The number of times that an SCTP link becomes unavailable is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. When an SCTP link is in the unavailable state, the link may be faulty or deactivated.
Formula None
Unit None
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Related Features Counter Name
Feature ID
Feature Name
VS.SctpLnk.Unavail
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface
LTE: None
1.26 Measurement of UserPlaneHostIP performance (UserPlaneHostIP) Overview The UserPlaneHostIP object type contains the function subsets related to the local IP addresses on the user plane. It indicates the traffic of the user-plane services.
FunctionSubSets FunctionSubSet
FunctionSubSet Name
Transport.UserPlaneHostIP
Measurement related to UserPlaneHostIP
1.26.1 Measurement related to UserPlaneHostIP (Transport.UserPlaneHostIP) Overview The UserPlaneHostIP function subset measures the IP packets and bytes in the IP packets transmitted from and received by a user-plane local IP address. It helps analyze the transmission quality of the system and ensure stable and reliable operation of the system.
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Counters Counter ID
Counter Name
Counter Description
Original Release
1542455526
VS.UserPlaneHostI P.TxPkts
Number of IP packets transmitted on the user-plane local IP address
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542455527
VS.UserPlaneHostI P.RxPkts
Number of IP packets received on the user-plane local IP address
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542455528
VS.UserPlaneHostI P.TxBytes
Number of bytes in the IP Packets transmitted on the user-plane local IP address
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455529
VS.UserPlaneHostI P.RxBytes
Number of bytes in the IP Packets received on the userplane local IP address
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542455530
VS.UserPlaneHostI P.TxMaxSpeed
Maximum transmit rate of IP Packets on the user-plane local IP address
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542455531
VS.UserPlaneHostI P.TxMeanSpeed
Average transmit rate of IP Packets on the user-plane local IP address
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
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Counter ID
Counter Name
Counter Description
Original Release
1542455532
VS.UserPlaneHostI P.RxMaxSpeed
Maximum receive rate of IP Packets on the user-plane local IP address
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
1542455533
VS.UserPlaneHostI P.RxMeanSpeed
Average receive rate of IP Packets on the user-plane local IP address
V100R008C00,and the mapping singlemode base station versions that introduce this counter are: eGBTS:V100R015C 00 NodeB:V200R015C 00 eNodeB:V100R006 C00
Counter Relationship None
Number of IP Packets on the User-Plane Local IP Address Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455526
VS.UserPlaneH ostIP.TxPkts
Number of IP packets transmitted on the user-plane local IP address
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455527
VS.UserPlaneH ostIP.RxPkts
Number of IP packets received on the userplane local IP address
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
BTS3900
Description These counters measure the number of packets received and transmitted based on the user-plane local IP address at the IP layer within a measurement period. It indicates the traffic of a userplane local IP address at the IP layer. The following table describes the meanings of each counter. Counter Name
Description
VS.UserPlaneHostIP.TxPkts
This counter measures the number of packets transmitted based on the user-plane local IP address at the IP layer within a measurement period. It indicates the traffic of a user-plane local IP address at the IP layer.
VS.UserPlaneHostIP.RxPkts
This counter measures the number of packets received based on the user-plane local IP address at the IP layer within a measurement period. It indicates the traffic of a user-plane local IP address at the IP layer.
Measurement Points The number of packets successfully transmitted or received on the user-plane local IP address is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The packets to be measured are IP packets. If IP packets need to be fragmented, the number of TX packets is measured before the packets are fragmented and the number of RX packets is measured after the packets are reassembled.
Formula None
Unit packet
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Related Features Counter Name
Feature ID
VS.UserPlaneHostIP.TxPkts
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-002004 TDLOFD-002004
Self-configuration Self-configuration
VS.UserPlaneHostIP.RxPkts
Multi-mode: None GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-002004 TDLOFD-002004
Self-configuration Self-configuration
Number of Bytes in the IP Packets on the User-Plane Local IP Address Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455528
VS.UserPlaneH ostIP.TxBytes
Number of bytes in the IP Packets transmitted on the user-plane local IP address
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Number of bytes in the IP Packets received on the user-plane local IP address
BTS3900 WCDMA, BTS3900 LTE,
1542455529
VS.UserPlaneH ostIP.RxBytes
BTS3900 G,U,L
BTS3900
Description These counters measure the number of bytes received and transmitted based on the user-plane local IP address at the IP layer within a measurement period. It indicates the traffic of a userplane local IP address at the IP layer. The following table describes the meanings of each counter. Issue 12 (2014-05-30)
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Counter Name
Description
VS.UserPlaneHostIP.TxBytes
This counter measures the number of bytes transmitted based on the user-plane local IP address at the IP layer within a measurement period. It indicates the traffic of a user-plane local IP address at the IP layer.
VS.UserPlaneHostIP.RxBytes
This counter measures the number of bytes received based on the user-plane local IP address at the IP layer within a measurement period. It indicates the traffic of a user-plane local IP address at the IP layer.
Measurement Points The number of bytes in the packets successfully transmitted or received on the user-plane local IP address is sampled per second. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The bytes to be measured include IP packet header and payload. When IPSec is used, the bytes to be measured include IPSec-related payloads, such as AH header and ESP header. If packets need to be fragmented, the number of TX bytes is measured before the packets are fragmented and the number of RX bytes is measured after the packets are reassembled.
Formula None
Unit byte
Related Features Counter Name
Feature ID
VS.UserPlaneHostIP.TxByt es
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: LOFD-002004 TDLOFD-002004
Feature Name
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface Self-configuration Self-configuration
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Counter Name
Feature ID
VS.UserPlaneHostIP.RxByt es
Multi-mode: None
Feature Name
GSM: GBFD-118601
IP Transmission Introduction on Abis Interface
UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: LOFD-002004 TDLOFD-002004
Self-configuration Self-configuration
Rate of IP Packets on the User-Plane Local IP Address Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
1542455530
VS.UserPlaneH ostIP.TxMaxSp eed
Maximum transmit rate of IP Packets on the user-plane local IP address
BTS3900 WCDMA, BTS3900 LTE,
G,U,L
Average transmit rate of IP Packets on the user-plane local IP address
BTS3900 WCDMA, BTS3900 LTE,
Maximum receive rate of IP Packets on the user-plane local IP address
BTS3900 WCDMA, BTS3900 LTE,
Average receive rate of IP Packets on the user-plane local IP address
BTS3900 WCDMA, BTS3900 LTE,
1542455531
1542455532
1542455533
VS.UserPlaneH ostIP.TxMeanSpeed
VS.UserPlaneH ostIP.RxMaxSp eed
VS.UserPlaneH ostIP.RxMeanSpeed
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900 G,U,L
BTS3900
Description These counters measure receive and transmit rate based on the user-plane local IP address at the IP layer within a measurement period. It indicates the load of a user-plane local IP address at the IP layer. The following table describes the meanings of each counter. Issue 12 (2014-05-30)
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Counter Name
Description
VS.UserPlaneHostIP.TxMaxSpeed
This counter measures the maximum transmit rate based on the user-plane local IP address at the IP layer within a measurement period. It indicates the load of a user-plane local IP address at the IP layer.
VS.UserPlaneHostIP.TxMeanSpeed
This counter measures the average transmit rate based on the user-plane local IP address at the IP layer within a measurement period. It indicates the load of a user-plane local IP address at the IP layer.
VS.UserPlaneHostIP.RxMaxSpeed
This counter measures the maximum receive rate based on the user-plane local IP address at the IP layer within a measurement period. It indicates the load of a user-plane local IP address at the IP layer.
VS.UserPlaneHostIP.RxMeanSpeed
This counter measures the average receive rate based on the user-plane local IP address at the IP layer within a measurement period. It indicates the load of a user-plane local IP address at the IP layer.
Measurement Points The transmit rate or the receive rate on the user-plane local IP address is sampled per second. At the end of a measurement period, the maximum and average sampling results are reported. The counter includes the IP header and payload.
Formula None
Unit bit/s
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Related Features Counter Name
Feature ID
VS.UserPlaneHostIP.TxMa xSpeed
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: LOFD-002004 TDLOFD-002004
Feature Name
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface Self-configuration Self-configuration
VS.UserPlaneHostIP.TxMea nSpeed
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: LOFD-002004 TDLOFD-002004
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface Self-configuration Self-configuration
VS.UserPlaneHostIP.RxMa xSpeed
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: LOFD-002004 TDLOFD-002004
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface Self-configuration Self-configuration
VS.UserPlaneHostIP.RxMe anSpeed
Multi-mode: None GSM: GBFD-118601 UMTS: WRFD-050402 LTE: LOFD-002004 TDLOFD-002004
IP Transmission Introduction on Abis Interface IP Transmission Introduction on Iub Interface Self-configuration Self-configuration
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2 Radio Network Related Measurement
Radio Network Related Measurement
About This Chapter 2.1 Local Cell (LOCELL) 2.2 NodeB (NodeB) 2.3 Operator (OPERATOR) 2.4 LOCELL_SECTOREQM (LOCELL_SECTOREQM)
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2.1 Local Cell (LOCELL) Overview The object type "LOCELL" consists of eleven function subsets: "CPC.LOCELL", "HSDPA.LOCELL", "HSUPA.LOCELL", "TRAFFIC.LOCELL", "ERACH.LOCELL", "SCCPCH.LOCELL", "DCH.LOCELL", "ALGO.LOCELL", "CELLRESERVE.LOCELL", "POWER.LOCELL", and "EFACH.LOCELL".
FunctionSubSets FunctionSubSet
FunctionSubSet Name
HSDPA.LOCELL
HSDPA measurements per local cell
TRAFFIC.LOCELL
Traffic measurements per local cell
HSUPA.LOCELL
HSUPA measurements per local cell
CPC.LOCELL
CPC measurements per local cell
ERACH.LOCELL
ERACH measurements per local cell
SCCPCH.LOCELL
SCCPCH Measurements per Local Cell
DCH.LOCELL
DCH Measurement per local cell
ALGO.LOCELL
Algorithm Measurement per local cell
CELLRESERVE.LOCELL
Reserved Measurements per local cell
POWER.LOCELL
Measurement of locell power
EFACH.LOCELL
EFACH measurements per local cell
2.1.1 HSDPA Measurements per Local Cell (HSDPA.LOCELL) Overview The measurement of the HSDPA local cell indicates the running status and performance of the HSDPA cell on a NodeB.
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Counters
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Counter ID
Counter Name
Counter Description
Original Release
50331654
VS.AckTotal
Total number of ACKs received
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331655
VS.NackTotal
Total number of NACKs received
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331656
VS.DtxTotal
Total number of TTIs when the NodeB can not translate the acknowledgement information from the UE
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331657
VS.AckFirst
Number of ACKs received after 1st transmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331658
VS.AckRetrans.1
Number of ACKs received after 1st retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331659
VS.AckRetrans.2
Number of ACKs received after 2nd retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331660
VS.AckRetrans.3
Number of ACKs received after 3rd retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331661
VS.AckRetrans.4
Number of ACKs received after 4th retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331662
VS.AckRetrans.5
Number of ACKs received after 5th retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331663
VS.AckRetrans.6
Number of ACKs received after 6th retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331664
VS.AckRetrans.7
Number of ACKs received after 7th retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331665
VS.AckRetrans.8
Number of ACKs received after 8th retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331666
VS.AckRetrans.9
Number of ACKs received after 9th retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331667
VS.AckRetrans.10
Number of ACKs received after 10th retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331668
VS.AckRemain
Number of times the NodeB does not receive the ACK from the UE after the last retransmission
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331816
VS.MIMODUALS TREAM1.DTX
Number Of MIMO Anchor Stream DTX
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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Counter ID
Counter Name
Counter Description
Original Release
50331817
VS.MIMODUALS TREAM2.DTX
Number Of MIMO SupStream DTX
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331818
VS.MIMODUALS TREAM1.ACK
Number Of MIMO Anchor Stream ACK
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331819
VS.MIMODUALS TREAM2.ACK
Number Of MIMO SupStream ACK
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331820
VS.MIMODUALS TREAM1.NACK
Number Of MIMO Anchor Stream NACK
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331821
VS.MIMODUALS TREAM2.NACK
Number Of MIMO SupStream NACK
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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Counter ID
Counter Name
Counter Description
Original Release
50331669
VS.CQI.0
Number of reports with CQI0
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331670
VS.CQI.1
Number of reports with CQI1
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331671
VS.CQI.2
Number of reports with CQI2
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331672
VS.CQI.3
Number of reports with CQI3
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331673
VS.CQI.4
Number of reports with CQI4
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331674
VS.CQI.5
Number of reports with CQI5
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331675
VS.CQI.6
Number of reports with CQI6
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331676
VS.CQI.7
Number of reports with CQI7
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331677
VS.CQI.8
Number of reports with CQI8
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331678
VS.CQI.9
Number of reports with CQI9
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331679
VS.CQI.10
Number of reports with CQI10
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331680
VS.CQI.11
Number of reports with CQI11
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331681
VS.CQI.12
Number of reports with CQI12
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331682
VS.CQI.13
Number of reports with CQI13
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331683
VS.CQI.14
Number of reports with CQI14
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331684
VS.CQI.15
Number of reports with CQI15
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331685
VS.CQI.16
Number of reports with CQI16
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331686
VS.CQI.17
Number of reports with CQI17
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331687
VS.CQI.18
Number of reports with CQI18
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331688
VS.CQI.19
Number of reports with CQI19
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331689
VS.CQI.20
Number of reports with CQI20
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331690
VS.CQI.21
Number of reports with CQI21
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331691
VS.CQI.22
Number of reports with CQI22
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331692
VS.CQI.23
Number of reports with CQI23
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331693
VS.CQI.24
Number of reports with CQI24
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331694
VS.CQI.25
Number of reports with CQI25
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331695
VS.CQI.26
Number of reports with CQI26
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331696
VS.CQI.27
Number of reports with CQI27
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331697
VS.CQI.28
Number of reports with CQI28
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331698
VS.CQI.29
Number of reports with CQI29
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331699
VS.CQI.30
Number of reports with CQI30
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331725
VS.CQI.31
Number of Cqi31
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
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Counter ID
Counter Name
Counter Description
Original Release
50331726
VS.CQI.32
Number of Cqi32
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331727
VS.CQI.33
Number of Cqi33
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331728
VS.CQI.34
Number of Cqi34
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331729
VS.CQI.35
Number of Cqi35
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331754
VS.UsedCQI0
Number of times the NodeB transmits data with CQI=0
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
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Counter ID
Counter Name
Counter Description
Original Release
50331755
VS.UsedCQI1
Number of times the NodeB transmits data with CQI=1
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331756
VS.UsedCQI2
Number of times the NodeB transmits data with CQI=2
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331757
VS.UsedCQI3
Number of times the NodeB transmits data with CQI=3
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331758
VS.UsedCQI4
Number of times the NodeB transmits data with CQI=4
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331759
VS.UsedCQI5
Number of times the NodeB transmits data with CQI=5
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
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Counter ID
Counter Name
Counter Description
Original Release
50331760
VS.UsedCQI6
Number of times the NodeB transmits data with CQI=6
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331761
VS.UsedCQI7
Number of times the NodeB transmits data with CQI=7
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331762
VS.UsedCQI8
Number of times the NodeB transmits data with CQI=8
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331763
VS.UsedCQI9
Number of times the NodeB transmits data with CQI=9
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331764
VS.UsedCQI10
Number of times the NodeB transmits data with CQI=10
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
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2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331765
VS.UsedCQI11
Number of times the NodeB transmits data with CQI=11
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331766
VS.UsedCQI12
Number of times the NodeB transmits data with CQI=12
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331767
VS.UsedCQI13
Number of times the NodeB transmits data with CQI=13
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331768
VS.UsedCQI14
Number of times the NodeB transmits data with CQI=14
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331769
VS.UsedCQI15
Number of times the NodeB transmits data with CQI=15
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
325
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331770
VS.UsedCQI16
Number of times the NodeB transmits data with CQI=16
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331771
VS.UsedCQI17
Number of times the NodeB transmits data with CQI=17
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331772
VS.UsedCQI18
Number of times the NodeB transmits data with CQI=18
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331773
VS.UsedCQI19
Number of times the NodeB transmits data with CQI=19
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331774
VS.UsedCQI20
Number of times the NodeB transmits data with CQI=20
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
326
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331775
VS.UsedCQI21
Number of times the NodeB transmits data with CQI=21
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331776
VS.UsedCQI22
Number of times the NodeB transmits data with CQI=22
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331777
VS.UsedCQI23
Number of times the NodeB transmits data with CQI=23
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331778
VS.UsedCQI24
Number of times the NodeB transmits data with CQI=24
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331779
VS.UsedCQI25
Number of times the NodeB transmits data with CQI=25
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
327
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331780
VS.UsedCQI26
Number of times the NodeB transmits data with CQI=26
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331781
VS.UsedCQI27
Number of times the NodeB transmits data with CQI=27
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331782
VS.UsedCQI28
Number of times the NodeB transmits data with CQI=28
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331783
VS.UsedCQI29
Number of times the NodeB transmits data with CQI=29
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331784
VS.UsedCQI30
Number of times the NodeB transmits data with CQI=30
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
328
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331785
VS.UsedCQI31to39
Number of times the NodeB transmits data with CQI=[31, 39]
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331786
VS.MIMODualCQ I1.0
Number Of MIMO TYPEA CQI Report With CQI1 0
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331787
VS.MIMODualCQ I1.1
Number Of MIMO TYPEA CQI Report With CQI1 1
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331788
VS.MIMODualCQ I1.2
Number Of MIMO TYPEA CQI Report With CQI1 2
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331789
VS.MIMODualCQ I1.3
Number Of MIMO TYPEA CQI Report With CQI1 3
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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329
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331790
VS.MIMODualCQ I1.4
Number Of MIMO TYPEA CQI Report With CQI1 4
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331791
VS.MIMODualCQ I1.5
Number Of MIMO TYPEA CQI Report With CQI1 5
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331792
VS.MIMODualCQ I1.6
Number Of MIMO TYPEA CQI Report With CQI1 6
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331793
VS.MIMODualCQ I1.7
Number Of MIMO TYPEA CQI Report With CQI1 7
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331794
VS.MIMODualCQ I1.8
Number Of MIMO TYPEA CQI Report With CQI1 8
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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330
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331795
VS.MIMODualCQ I1.9
Number Of MIMO TYPEA CQI Report With CQI1 9
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331796
VS.MIMODualCQ I1.10
Number Of MIMO TYPEA CQI Report With CQI1 10
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331797
VS.MIMODualCQ I1.11
Number Of MIMO TYPEA CQI Report With CQI1 11
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331798
VS.MIMODualCQ I1.12
Number Of MIMO TYPEA CQI Report With CQI1 12
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331799
VS.MIMODualCQ I1.13
Number Of MIMO TYPEA CQI Report With CQI1 13
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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331
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331800
VS.MIMODualCQ I1.14
Number Of MIMO TYPEA CQI Report With CQI1 14
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331801
VS.MIMODualCQ I2.0
Number Of MIMO TYPEA CQI Report With CQI2 0
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331802
VS.MIMODualCQ I2.1
Number Of MIMO TYPEA CQI Report With CQI2 1
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331803
VS.MIMODualCQ I2.2
Number Of MIMO TYPEA CQI Report With CQI2 2
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331804
VS.MIMODualCQ I2.3
Number Of MIMO TYPEA CQI Report With CQI2 3
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
332
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331805
VS.MIMODualCQ I2.4
Number Of MIMO TYPEA CQI Report With CQI2 4
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331806
VS.MIMODualCQ I2.5
Number Of MIMO TYPEA CQI Report With CQI12 5
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331807
VS.MIMODualCQ I2.6
Number Of MIMO TYPEA CQI Report With CQI2 6
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331808
VS.MIMODualCQ I2.7
Number Of MIMO TYPEA CQI Report With CQI2 7
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331809
VS.MIMODualCQ I2.8
Number Of MIMO TYPEA CQI Report With CQI2 8
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
333
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331810
VS.MIMODualCQ I2.9
Number Of MIMO TYPEA CQI Report With CQI2 9
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331811
VS.MIMODualCQ I2.10
Number Of MIMO TYPEA CQI Report With CQI2 10
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331812
VS.MIMODualCQ I2.11
Number Of MIMO TYPEA CQI Report With CQI2 11
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331813
VS.MIMODualCQ I2.12
Number Of MIMO TYPEA CQI Report With CQI2 12
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331814
VS.MIMODualCQ I2.13
Number Of MIMO TYPEA CQI Report With CQI2 13
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
334
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331815
VS.MIMODualCQ I2.14
Number Of MIMO TYPEA CQI Report With CQI2 14
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331822
VS.APCPhase0CQ I.MEAN
Average CQI Of Phase 0 Based On APC Algorithm
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331823
VS.APCCQI.MEA N
Average CQI Of All Phase Based On APC Algorithm
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50341722
VS.DataCQI.MEA N
Average CQI Reported by All UEs That Have Data to Transmit
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50331722
VS.HSDPA. 16QAMCfg.ActedNum
Total number of times all the users in a cell use 16QAM mode
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
335
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331723
VS.HSDPA.QPSK Cfg.ActedNum
Total number of times users use the QPSK mode
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331724
VS.HSDPA.All.Sch eduledNum
Total number of times all the users are scheduled in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331709
VS.HSDPA. 64QAMCfg.ActedNum
Total number of times all the users in a cell use the 64QAM mode
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50331710
VS.HSDPA. 64QAMCfg.Schedu ledNum
Total number of times all the users in 64QAM mode are scheduled in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50331711
VS.MIMOCfg.ActedNum
Total number of times all the MIMOenabled users use two transport blocks in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
336
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331712
VS.MIMOCfg.Sche duledNum
Total number of times all the MIMOenabled users are scheduled in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50331717
VS.HSDPA.MIMO 64QAMCfg.ActedNum
Number of times that all the users configured in 64QAM+MIMO mode in a cell employ 64QAM during the measurement period
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331718
VS.HSDPA.MIMO 64QAMCfg.Schedu ledNum
Number of times that all the users configured in 64QAM+MIMO mode in a cell are scheduled during the measurement period
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331719
VS.HSDPA.DCCfg. AnchorCarrierActedNum
Number of times that all the users configured in DC mode in a cell are scheduled by AnchorCarrier during the measurement period
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331720
VS.HSDPA.DCCfg. SupCarrierActedNum
Total number of times DC-HSDPAenabled users are scheduled by the supplementary carrier
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
337
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331721
VS.HSDPA.DCCfg. DualCarrierActedNum
Total number of times DC-HSDPAenabled users are scheduled by the anchor and supplementary carriers at the same time
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50341658
VS.UserTtiRatio.M ean
Ratio of the time when at least one HSDPA UE camps on the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341659
VS.DataTtiRatio.M ean
Ratio of the time when at least one HSDPA user has data to transmit in the queue buffer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341693
VS.HSDPA.Inactiv eDataTtiRatio.Mea n
Average ratio of the time when at least one HSDPA user has data to transmit in the buffer but no HSDPA user transmits data at the physical layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
338
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341739
VS.HSDPA.ScheIn activeDataTtiRatio. Mean
Average ratio of the time when some HSDPA users are queued in the scheduling candidate set but do not transmit data
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331839
VS.HSDPA.DataTt iNum.TRB
Number of TTIs in which TRB data is to be transmitted in the HSDPA user queue in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331840
VS.HSDPA.Inactiv eDataTtiNum.TRB
Number of TTIs in which at least one HSDPA user in a cell has TRB data to transmit in the queue buffer but no HSDPA user transmits TRB data at the physical layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331745
VS.HSDPA.DataTt iNum.User
Total number of user-level TTIs within which there is data to transmit in HSDPA user queue buffers
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341694
VS.HSDPA. 2ScchCodeRatio
The time ratio of only using two HS-SCCH codes for cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
339
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341695
VS.HSDPA. 3ScchCodeRatio
The time ratio of only using three HSSCCH codes for cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50341696
VS.HSDPA. 4ScchCodeRatio
The time ratio of only using four HS-SCCH codes for cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50341690
VS.PdschCodeAvai l.Mean
Average number of available HSPDSCH codes in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50341691
VS.PdschCodeAvai l.Max
Maximum number of available HSPDSCH codes in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50341688
VS.PdschCodeUsed .Mean
Average number of used HS-PDSCH codes in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
340
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341689
VS.PdschCodeUsed .Max
Maximum number of used HS-PDSCH codes in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50341692
VS.PdschCodeUsed .Min
Minimum number of used HS-PDSCH codes in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50341648
VS.ScchCodeUtil. Mean
Average usage of HS-SCCH code resources in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341649
VS.ScchCodeUtil. Max
Maximum usage of HS-SCCH code resources in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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341
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341650
VS.ScchCodeUtil. Min
Minimum usage of HS-SCCH code resources in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341654
VS.ScchCodeUtil. Mean.User
Average usage of HS-SCCH code resources when HSDPA users camp on the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341655
VS.ScchCodeUtil. Mean.Data
Average usage of HS-SCCH code resources when at least one HSDPA user has data to transmit in the queue buffer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341651
VS.PdschCodeUtil. Mean
Average usage of HS-PDSCH code resources in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
342
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341652
VS.PdschCodeUtil. Max
Maximum usage of HS-PDSCH code resources in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341653
VS.PdschCodeUtil. Min
Minimum usage of HS-PDSCH code resources in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341656
VS.PdschCodeUtil. Mean.User
Average usage of HS-PDSCH code resources when HSDPA users camp on the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341657
VS.PdschCodeUtil. Mean.Data
Average usage of HS-PDSCH code resources when at least one HSDPA user has data to transmit in the queue buffer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
343
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341675
VS.ScchPwrRatio. Mean
Average transmit power over the HSSCCH in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341676
VS.ScchPwrRatio. Max
Maximum transmit power over the HSSCCH in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341677
VS.ScchPwrRatio. Min
Minimum transmit power over the HSSCCH in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341681
VS.ScchPwrRatio. User
Average transmit power over the HSSCCH when HSDPA users camp on the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50341683
VS.ScchPwrRatio. UserData
Average transmit power over the HSSCCH when at least one HSDPA user has data to transmit in the queue buffer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341678
VS.PdschPwrRatio .Mean
Average transmit power over the HSPDSCH in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341679
VS.PdschPwrRatio .Max
Maximum transmit power over the HSPDSCH in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341680
VS.PdschPwrRatio .Min
Minimum transmit power over the HSPDSCH in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50341682
VS.PdschPwrRatio .User
Average transmit power over the HSPDSCH when HSDPA users camp on the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341684
VS.PdschPwrRatio .Data
Average transmit power over the HSPDSCH when at least one HSDPA user has data to transmit in the queue buffer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341697
VS.HSDPAPwrRat io.Mean.FreeUser
Average usage of free users Hsdpa Power
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50341698
VS.HSDPAPwrRat io.Max.FreeUser
Maximum usage of free users Hsdpa Power
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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Counter ID
Counter Name
Counter Description
Original Release
50341703
VS.AvaiHSDPAPw rRatio.Mean
Mean ratio of availble HSDPA Power Ratio
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 01
50341704
VS.AvaiHSDPAPw rRatio.Max
Maximum ratio of availble HSDPA Power Ratio
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 01
50341705
VS.AvaiHSDPAPw rRatio.Min
Minimum ratio of availble HSDPA Power Ratio
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 01
50341706
VS.HSDPAPwrRat io.PLMN0
Mean Ratio of PLMN0 used HSDPA Power
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 01
50341707
VS.HSDPAPwrRat io.PLMN1
Mean Ratio of PLMN1 used HSDPA Power
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 01
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Counter ID
Counter Name
Counter Description
Original Release
50341708
VS.HSDPAPwrRat io.PLMN2
Mean Ratio of PLMN2 used HSDPA Power
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 01
50341709
VS.HSDPAPwrRat io.PLMN3
Mean Ratio of PLMN3 used HSDPA Power
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 01
50341710
VS.HSDPAPwrRat io.SharedOperator0
Average HSDPA power ratio for operator 0 in a cell of an MOCN network
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50341711
VS.HSDPAPwrRat io.SharedOperator1
Average HSDPA power ratio for operator 1 in a cell of an MOCN network
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50341712
VS.HSDPAPwrRat io.SharedOperator2
Average HSDPA power ratio for operator 2 in a cell of an MOCN network
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
50341713
VS.HSDPAPwrRat io.SharedOperator3
Average HSDPA power ratio for operator 3 in a cell of an MOCN network
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50341714
VS.HSDPAPwrRat io.Mean.ResG0
Average permillage of transmit power for HSDPA users in resource group 0 to the maximum cell transmit power
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341715
VS.HSDPAPwrRat io.Mean.ResG1
Average permillage of transmit power for HSDPA users in resource group 1 to the maximum cell transmit power
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341716
VS.HSDPAPwrRat io.Mean.ResG2
Average permillage of transmit power for HSDPA users in resource group 2 to the maximum cell transmit power
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341717
VS.HSDPAPwrRat io.Mean.ResG3
Average permillage of transmit power for HSDPA users in resource group 3 to the maximum cell transmit power
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
50341660
VS.RabNum.Mean
Average number of HSDPA RABs in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341661
VS.RabNum.Max
Maximum number of HSDPA RABs in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341662
VS.RabNum.Min
Minimum number of HSDPA RABs in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341666
VS.RabNumAve.U ser
Average number of HSDPA RABs when HSDPA users camp on the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50341663
VS.DataRabNum. Mean
Average number of HSDPA RABs have data to transmit in the queue buffer in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341664
VS.DataRabNum. Max
Maximum number of HSDPA RABs have data to transmit in the queue buffer in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341665
VS.DataRabNum. Min
Minimum number of HSDPA RABs have data to transmit in the queue buffer in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341667
VS.RabNumAve.U serData
Average number of HSDPA RABs have data to transmit in the queue buffer when at least one HSDPA user has data to transmit in the queue buffer in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50341668
VS.DataOutput.Me an
Average cell throughput at the MAC-hs/MAC-ehs layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341669
VS.DataOutput.Ma x
Maximum cell throughput at the MAC-hs/MAC-ehs layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341670
VS.DataOutput.Mi n
Minimum cell throughput at the MAC-hs/MAC-ehs layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341671
VS.DataOutput.Us er
Average cell throughput when HSDPA users camp on the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50341672
VS.DataOutput.Us erData
Average cell throughput when at least one HSDPA user has data to transmit in the queue buffer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341673
VS.DataOutput.Ra b
Average throughput of each RAB when HSDPA users camp on the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341674
VS.DataOutput.Ra bData
Average throughput of each RAB when at least one HSDPA user has data to transmit in the queue buffer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341699
VS.DataOutput.Me an.FreeUser
Average throughput of free users at the MAC-hs/MAC-ehs layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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Counter ID
Counter Name
Counter Description
Original Release
50341700
VS.DataOutput.Ma x.FreeUser
Maximum throughput of free users at the MAC-hs/ MAC-ehs layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50341701
VS.DataOutput.Mi n.FreeUser
Minimum throughput of free users at the MAC-hs/ MAC-ehs layer
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331838
VS.HSDPA.DataO utput.TRB
HSDSCH TRB traffic volume in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331746
VS.HSDPA.DataO utput.Traffic
Traffic volume of the MAC-hs/MAC-ehs PDUs successfully received in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332170
VS.DataOutput.DC HSDPA.Traffic
MAC-ehs traffic volume of DCHSDPA/DCHSDPA+MIMO users
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332168
VS.DataOutput.DB HSDPA.Traffic
MAC-ehs traffic volume of DBHSDPA/DBHSDPA+MIMO users
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332169
VS.DataOutput. 4CHSDPA.Traffic
MAC-ehs traffic volume of 4CHSDPA/3CHSDPA/4C-HSDPA +MIMO/3CHSDPA+MIMO users
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341685
VS.DataDiscardRa tio.Mean
Average ratio of discarded HSDPA data due to timer expiry
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341686
VS.DataDiscardRa tio.Max
Maximum ratio of discarded HSDPA data due to timer expiry
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50341687
VS.DataDiscardRa tio.Min
Minimum ratio of discarded HSDPA data due to timer expiry
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331713
VS.SCPICH.AvgPo werRate
Ratio of the actual transmit power of the SCPICH to the power of the SCPICH configured by the RNC
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50331714
VS.SCPICH.PwrO n.Duration
Power-enabled duration of the SCPICH in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50341702
VS.HSDPA.DCCfg. SupCarrierDeact.T imeRatio
The Ratio Of Dc Deact
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50341740
VS.HSDPA.DpchM axPwrRestr.ActRatio
Maximum DPCH power restriction algorithm validity probability
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter Relationship Counter
Sub Counter
VS.AckTotal
VS.AckFirst VS.AckRetrans.1 VS.AckRetrans.2 VS.AckRetrans.3 VS.AckRetrans.4 VS.AckRetrans.5 VS.AckRetrans.6 VS.AckRetrans.7 VS.AckRetrans.8 VS.AckRetrans.9 VS.AckRetrans.10
VS.HSDPA.DataTtiNum.TRB
VS.HSDPA.InactiveDataTtiNum.TRB
VS.RabNum.Mean
VS.DataRabNum.Mean
VS.RabNum.Max
VS.DataRabNum.Max
VS.RabNum.Min
VS.DataRabNum.Min
Number of HARQ-Related Messages Received in a Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331654
VS.AckTotal
Total number of ACKs received
BTS3900 WCDMA, BTS3900
U
50331655
VS.NackTotal
Total number of NACKs received
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331656
VS.DtxTotal
Total number of TTIs when the NodeB can not translate the acknowledgeme nt information from the UE
BTS3900 WCDMA, BTS3900
U
50331657
VS.AckFirst
Number of ACKs received after 1st transmission
BTS3900 WCDMA, BTS3900
U
50331658
VS.AckRetrans. 1
Number of ACKs received after 1st retransmission
BTS3900 WCDMA, BTS3900
U
50331659
VS.AckRetrans. 2
Number of ACKs received after 2nd retransmission
BTS3900 WCDMA, BTS3900
U
50331660
VS.AckRetrans. 3
Number of ACKs received after 3rd retransmission
BTS3900 WCDMA, BTS3900
U
50331661
VS.AckRetrans. 4
Number of ACKs received after 4th retransmission
BTS3900 WCDMA, BTS3900
U
50331662
VS.AckRetrans. 5
Number of ACKs received after 5th retransmission
BTS3900 WCDMA, BTS3900
U
50331663
VS.AckRetrans. 6
Number of ACKs received after 6th retransmission
BTS3900 WCDMA, BTS3900
U
50331664
VS.AckRetrans. 7
Number of ACKs received after 7th retransmission
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331665
VS.AckRetrans. 8
Number of ACKs received after 8th retransmission
BTS3900 WCDMA, BTS3900
U
50331666
VS.AckRetrans. 9
Number of ACKs received after 9th retransmission
BTS3900 WCDMA, BTS3900
U
50331667
VS.AckRetrans. 10
Number of ACKs received after 10th retransmission
BTS3900 WCDMA, BTS3900
U
50331668
VS.AckRemain
Number of times the NodeB does not receive the ACK from the UE after the last retransmission
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the number of HARQ-related messages received in a cell. The Acknowledgment (ACK), Negative Acknowledgment (NACK), and Discontinuous Transmission (DTX) statistics are used to analyze the overall HSDPA running status. The following table describes the meanings of each counter.
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Counter Name
Description
VS.AckTotal
Number of ACK messages received during the measurement period.
VS.NackTotal
Number of NACK messages received during the measurement period.
VS.DtxTotal
This counter measures the total number of TTIs when the NodeB can not translate the acknowledgement information from the UE after transmitting data to the UE within a measurement period.
VS.AckFirst
Number of ACK messages received after the first data transmission.
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Counter Name
Description
VS.AckRetrans.1
VS.AckRetrans.Num refers to the number of ACK messages received after the first data retransmission.
VS.AckRetrans.2
VS.AckRetrans.Num refers to the number of ACK messages received after the second data retransmission.
VS.AckRetrans.3
VS.AckRetrans.Num refers to the number of ACK messages received after the third data retransmission.
VS.AckRetrans.4
VS.AckRetrans.Num refers to the number of ACK messages received after the 4th data retransmission.
VS.AckRetrans.5
VS.AckRetrans.Num refers to the number of ACK messages received after the 5th data retransmission.
VS.AckRetrans.6
VS.AckRetrans.Num refers to the number of ACK messages received after the 6th data retransmission.
VS.AckRetrans.7
VS.AckRetrans.Num refers to the number of ACK messages received after the 7th data retransmission.
VS.AckRetrans.8
VS.AckRetrans.Num refers to the number of ACK messages received after the 8th data retransmission.
VS.AckRetrans.9
VS.AckRetrans.Num refers to the number of ACK messages received after the 9th data retransmission.
VS.AckRetrans.10
VS.AckRetrans.Num refers to the number of ACK messages received after the 10th data retransmission.
VS.AckRemain
Number of data blocks whose maximum number of retransmissions is reached but no ACK message is received. The maximum number of retransmissions depends on the data configuration.
Measurement Points The NodeB measures the preceding counters when demodulating the HARQ-ACK information carried on the HS-DPCCH from the UE.The NACK or DTX messages are received after the data at the physical layer fails to be transmitted. For the ACK messages, the NodeB takes Issue 12 (2014-05-30)
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statistics about the messages according to the number of data transmissions. The number of transmissions is an integer from 1 to MaxRetransNum+1. For DC-HSDPA users, these counters are measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.AckTotal
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061009 LTE: None
VS.NackTotal
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
VS.DtxTotal
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckFirst
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
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Counter Name
Feature ID
VS.AckRetrans.1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckRetrans.2
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckRetrans.3
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckRetrans.4
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckRetrans.5
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckRetrans.6
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
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Counter Name
Feature ID
VS.AckRetrans.7
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckRetrans.8
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckRetrans.9
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckRetrans.10
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
VS.AckRemain
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
Multi-mode: None GSM: None UMTS: WRFD-01061009 LTE: None
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF)
HARQ Distribution for MIMO Users in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331816
VS.MIMODUA LSTREAM1.D TX
Number Of MIMO Anchor Stream DTX
BTS3900 WCDMA, BTS3900
U
50331817
VS.MIMODUA LSTREAM2.D TX
Number Of MIMO SupStream DTX
BTS3900 WCDMA, BTS3900
U
50331818
VS.MIMODUA LSTREAM1.A CK
Number Of MIMO Anchor Stream ACK
BTS3900 WCDMA, BTS3900
U
50331819
VS.MIMODUA LSTREAM2.A CK
Number Of MIMO SupStream ACK
BTS3900 WCDMA, BTS3900
U
50331820
VS.MIMODUA LSTREAM1.N ACK
Number Of MIMO Anchor Stream NACK
BTS3900 WCDMA, BTS3900
U
50331821
VS.MIMODUA LSTREAM2.N ACK
Number Of MIMO SupStream NACK
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the HARQ distribution for MIMO users on the primary and secondary streams in a cell. The statistics about the ACK, NACK, and DTX message sent from MIMO users are used to analyze the overall running status of MIMO users.
Measurement Points The NodeB measures the preceding counters when demodulating the HARQ-ACK information carried on the HS-DPCCH from the MIMO UE.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.MIMODUALSTREAM 1.DTX
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODUALSTREAM 2.DTX
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODUALSTREAM 1.ACK
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODUALSTREAM 2.ACK
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODUALSTREAM 1.NACK
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODUALSTREAM 2.NACK
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None
Number of CQIs Received in a Cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331669
VS.CQI.0
Number of reports with CQI0
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331670
VS.CQI.1
Number of reports with CQI1
BTS3900 WCDMA, BTS3900
U
50331671
VS.CQI.2
Number of reports with CQI2
BTS3900 WCDMA, BTS3900
U
50331672
VS.CQI.3
Number of reports with CQI3
BTS3900 WCDMA, BTS3900
U
50331673
VS.CQI.4
Number of reports with CQI4
BTS3900 WCDMA, BTS3900
U
50331674
VS.CQI.5
Number of reports with CQI5
BTS3900 WCDMA, BTS3900
U
50331675
VS.CQI.6
Number of reports with CQI6
BTS3900 WCDMA, BTS3900
U
50331676
VS.CQI.7
Number of reports with CQI7
BTS3900 WCDMA, BTS3900
U
50331677
VS.CQI.8
Number of reports with CQI8
BTS3900 WCDMA, BTS3900
U
50331678
VS.CQI.9
Number of reports with CQI9
BTS3900 WCDMA, BTS3900
U
50331679
VS.CQI.10
Number of reports with CQI10
BTS3900 WCDMA, BTS3900
U
50331680
VS.CQI.11
Number of reports with CQI11
BTS3900 WCDMA, BTS3900
U
50331681
VS.CQI.12
Number of reports with CQI12
BTS3900 WCDMA, BTS3900
U
50331682
VS.CQI.13
Number of reports with CQI13
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331683
VS.CQI.14
Number of reports with CQI14
BTS3900 WCDMA, BTS3900
U
50331684
VS.CQI.15
Number of reports with CQI15
BTS3900 WCDMA, BTS3900
U
50331685
VS.CQI.16
Number of reports with CQI16
BTS3900 WCDMA, BTS3900
U
50331686
VS.CQI.17
Number of reports with CQI17
BTS3900 WCDMA, BTS3900
U
50331687
VS.CQI.18
Number of reports with CQI18
BTS3900 WCDMA, BTS3900
U
50331688
VS.CQI.19
Number of reports with CQI19
BTS3900 WCDMA, BTS3900
U
50331689
VS.CQI.20
Number of reports with CQI20
BTS3900 WCDMA, BTS3900
U
50331690
VS.CQI.21
Number of reports with CQI21
BTS3900 WCDMA, BTS3900
U
50331691
VS.CQI.22
Number of reports with CQI22
BTS3900 WCDMA, BTS3900
U
50331692
VS.CQI.23
Number of reports with CQI23
BTS3900 WCDMA, BTS3900
U
50331693
VS.CQI.24
Number of reports with CQI24
BTS3900 WCDMA, BTS3900
U
50331694
VS.CQI.25
Number of reports with CQI25
BTS3900 WCDMA, BTS3900
U
50331695
VS.CQI.26
Number of reports with CQI26
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331696
VS.CQI.27
Number of reports with CQI27
BTS3900 WCDMA, BTS3900
U
50331697
VS.CQI.28
Number of reports with CQI28
BTS3900 WCDMA, BTS3900
U
50331698
VS.CQI.29
Number of reports with CQI29
BTS3900 WCDMA, BTS3900
U
50331699
VS.CQI.30
Number of reports with CQI30
BTS3900 WCDMA, BTS3900
U
50331725
VS.CQI.31
Number of Cqi31
BTS3900 WCDMA
U
50331726
VS.CQI.32
Number of Cqi32
BTS3900 WCDMA
U
50331727
VS.CQI.33
Number of Cqi33
BTS3900 WCDMA
U
50331728
VS.CQI.34
Number of Cqi34
BTS3900 WCDMA
U
50331729
VS.CQI.35
Number of Cqi35
BTS3900 WCDMA
U
Description The preceding counters indicate the overall distribution of the channel quality. For each Channel Quality Indicators (CQI) value, the NodeB counts the number of CQIs received in a cell during a measurement period.The values of VS.CQI.0 to VS.CQI.30 correspond to the values of CQI0 to CQI30 reported by a UE. The counter 50331725 VS.CQI.31 will be deleted in later version. In current version, the value of this counter is 0. This counter is not recommended. The counter 50331726 VS.CQI.32 will be deleted in later version. In current version, the value of this counter is 0. This counter is not recommended. The counter 50331727 VS.CQI.33 will be deleted in later version. In current version, the value of this counter is 0. This counter is not recommended. The counter 50331728 VS.CQI.34 will be deleted in later version. In current version, the value of this counter is 0. This counter is not recommended. The counter 50331729 VS.CQI.35 will be deleted in later version. In current version, the value of this counter is 0. This counter is not recommended. Issue 12 (2014-05-30)
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Measurement Points The NodeB takes statistics about the preceding counters when demodulating the CQI information of the UE carried on the HS-DPCCH. For DC-HSDPA users, these counters are measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.CQI.0
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.1
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.2
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.3
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.4
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.5
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None Issue 12 (2014-05-30)
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Counter Name
Feature ID
VS.CQI.6
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.7
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.8
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.9
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.10
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.11
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.12
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.13
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
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Counter Name
Feature ID
VS.CQI.14
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.15
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.16
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.17
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.18
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.19
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.20
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.21
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
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Counter Name
Feature ID
VS.CQI.22
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.23
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.24
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.25
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.26
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.27
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.28
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.29
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
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Counter Name
Feature ID
VS.CQI.30
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.31
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.32
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.33
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.34
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None VS.CQI.35
Multi-mode: None GSM: None UMTS: WRFD-01061004
HSDPA Power Control
LTE: None
Number of Used CQIs in a Cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331754
VS.UsedCQI0
Number of times the NodeB transmits data with CQI=0
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331755
VS.UsedCQI1
Number of times the NodeB transmits data with CQI=1
BTS3900 WCDMA, BTS3900
U
50331756
VS.UsedCQI2
Number of times the NodeB transmits data with CQI=2
BTS3900 WCDMA, BTS3900
U
50331757
VS.UsedCQI3
Number of times the NodeB transmits data with CQI=3
BTS3900 WCDMA, BTS3900
U
50331758
VS.UsedCQI4
Number of times the NodeB transmits data with CQI=4
BTS3900 WCDMA, BTS3900
U
50331759
VS.UsedCQI5
Number of times the NodeB transmits data with CQI=5
BTS3900 WCDMA, BTS3900
U
50331760
VS.UsedCQI6
Number of times the NodeB transmits data with CQI=6
BTS3900 WCDMA, BTS3900
U
50331761
VS.UsedCQI7
Number of times the NodeB transmits data with CQI=7
BTS3900 WCDMA, BTS3900
U
50331762
VS.UsedCQI8
Number of times the NodeB transmits data with CQI=8
BTS3900 WCDMA, BTS3900
U
50331763
VS.UsedCQI9
Number of times the NodeB transmits data with CQI=9
BTS3900 WCDMA, BTS3900
U
50331764
VS.UsedCQI10
Number of times the NodeB transmits data with CQI=10
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331765
VS.UsedCQI11
Number of times the NodeB transmits data with CQI=11
BTS3900 WCDMA, BTS3900
U
50331766
VS.UsedCQI12
Number of times the NodeB transmits data with CQI=12
BTS3900 WCDMA, BTS3900
U
50331767
VS.UsedCQI13
Number of times the NodeB transmits data with CQI=13
BTS3900 WCDMA, BTS3900
U
50331768
VS.UsedCQI14
Number of times the NodeB transmits data with CQI=14
BTS3900 WCDMA, BTS3900
U
50331769
VS.UsedCQI15
Number of times the NodeB transmits data with CQI=15
BTS3900 WCDMA, BTS3900
U
50331770
VS.UsedCQI16
Number of times the NodeB transmits data with CQI=16
BTS3900 WCDMA, BTS3900
U
50331771
VS.UsedCQI17
Number of times the NodeB transmits data with CQI=17
BTS3900 WCDMA, BTS3900
U
50331772
VS.UsedCQI18
Number of times the NodeB transmits data with CQI=18
BTS3900 WCDMA, BTS3900
U
50331773
VS.UsedCQI19
Number of times the NodeB transmits data with CQI=19
BTS3900 WCDMA, BTS3900
U
50331774
VS.UsedCQI20
Number of times the NodeB transmits data with CQI=20
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331775
VS.UsedCQI21
Number of times the NodeB transmits data with CQI=21
BTS3900 WCDMA, BTS3900
U
50331776
VS.UsedCQI22
Number of times the NodeB transmits data with CQI=22
BTS3900 WCDMA, BTS3900
U
50331777
VS.UsedCQI23
Number of times the NodeB transmits data with CQI=23
BTS3900 WCDMA, BTS3900
U
50331778
VS.UsedCQI24
Number of times the NodeB transmits data with CQI=24
BTS3900 WCDMA, BTS3900
U
50331779
VS.UsedCQI25
Number of times the NodeB transmits data with CQI=25
BTS3900 WCDMA, BTS3900
U
50331780
VS.UsedCQI26
Number of times the NodeB transmits data with CQI=26
BTS3900 WCDMA, BTS3900
U
50331781
VS.UsedCQI27
Number of times the NodeB transmits data with CQI=27
BTS3900 WCDMA, BTS3900
U
50331782
VS.UsedCQI28
Number of times the NodeB transmits data with CQI=28
BTS3900 WCDMA, BTS3900
U
50331783
VS.UsedCQI29
Number of times the NodeB transmits data with CQI=29
BTS3900 WCDMA, BTS3900
U
50331784
VS.UsedCQI30
Number of times the NodeB transmits data with CQI=30
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331785
VS.UsedCQI31 to39
Number of times the NodeB transmits data with CQI=[31, 39]
BTS3900 WCDMA, BTS3900
U
Description These counters measure the CQI values ranging from 0 to 30 and [31,39] used by the NodeB to transmit TBs within a measurement period, indicating the overall distribution of the used CQIs. These counters measure the channel quality indicator (CQI) used for HSDPA scheduling, not the CQI reported by a UE. VS.UsedCQI31to39 is specific to 16QAM or 64QAM UEs.
Measurement Points The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling is complete. The preceding counters do not measure the CQIs sent by the MIMO UEs.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.UsedCQI0
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
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Counter Name
Feature ID
VS.UsedCQI1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI2
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI3
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI4
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
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Counter Name
Feature ID
VS.UsedCQI5
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI6
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI7
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI8
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
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Counter Name
Feature ID
VS.UsedCQI9
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI10
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI11
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI12
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
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Counter Name
Feature ID
VS.UsedCQI13
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI14
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI15
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI16
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
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Counter Name
Feature ID
VS.UsedCQI17
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI18
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI19
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI20
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
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Counter Name
Feature ID
VS.UsedCQI21
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI22
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI23
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI24
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
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Counter Name
Feature ID
VS.UsedCQI25
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI26
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI27
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI28
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
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Counter Name
Feature ID
VS.UsedCQI29
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI30
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
VS.UsedCQI31to39
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-01061018 WRFD-01061019 LTE: None
HSDPA Introduction Package Time and HS-PDSCH Codes Multiplex HSDPA Dynamic Power Allocation
MIMO Dual CQI Distribution In a Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331786
VS.MIMODual CQI1.0
Number Of MIMO TYPEA CQI Report With CQI1 0
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331787
VS.MIMODual CQI1.1
Number Of MIMO TYPEA CQI Report With CQI1 1
BTS3900 WCDMA, BTS3900
U
50331788
VS.MIMODual CQI1.2
Number Of MIMO TYPEA CQI Report With CQI1 2
BTS3900 WCDMA, BTS3900
U
50331789
VS.MIMODual CQI1.3
Number Of MIMO TYPEA CQI Report With CQI1 3
BTS3900 WCDMA, BTS3900
U
50331790
VS.MIMODual CQI1.4
Number Of MIMO TYPEA CQI Report With CQI1 4
BTS3900 WCDMA, BTS3900
U
50331791
VS.MIMODual CQI1.5
Number Of MIMO TYPEA CQI Report With CQI1 5
BTS3900 WCDMA, BTS3900
U
50331792
VS.MIMODual CQI1.6
Number Of MIMO TYPEA CQI Report With CQI1 6
BTS3900 WCDMA, BTS3900
U
50331793
VS.MIMODual CQI1.7
Number Of MIMO TYPEA CQI Report With CQI1 7
BTS3900 WCDMA, BTS3900
U
50331794
VS.MIMODual CQI1.8
Number Of MIMO TYPEA CQI Report With CQI1 8
BTS3900 WCDMA, BTS3900
U
50331795
VS.MIMODual CQI1.9
Number Of MIMO TYPEA CQI Report With CQI1 9
BTS3900 WCDMA, BTS3900
U
50331796
VS.MIMODual CQI1.10
Number Of MIMO TYPEA CQI Report With CQI1 10
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331797
VS.MIMODual CQI1.11
Number Of MIMO TYPEA CQI Report With CQI1 11
BTS3900 WCDMA, BTS3900
U
50331798
VS.MIMODual CQI1.12
Number Of MIMO TYPEA CQI Report With CQI1 12
BTS3900 WCDMA, BTS3900
U
50331799
VS.MIMODual CQI1.13
Number Of MIMO TYPEA CQI Report With CQI1 13
BTS3900 WCDMA, BTS3900
U
50331800
VS.MIMODual CQI1.14
Number Of MIMO TYPEA CQI Report With CQI1 14
BTS3900 WCDMA, BTS3900
U
50331801
VS.MIMODual CQI2.0
Number Of MIMO TYPEA CQI Report With CQI2 0
BTS3900 WCDMA, BTS3900
U
50331802
VS.MIMODual CQI2.1
Number Of MIMO TYPEA CQI Report With CQI2 1
BTS3900 WCDMA, BTS3900
U
50331803
VS.MIMODual CQI2.2
Number Of MIMO TYPEA CQI Report With CQI2 2
BTS3900 WCDMA, BTS3900
U
50331804
VS.MIMODual CQI2.3
Number Of MIMO TYPEA CQI Report With CQI2 3
BTS3900 WCDMA, BTS3900
U
50331805
VS.MIMODual CQI2.4
Number Of MIMO TYPEA CQI Report With CQI2 4
BTS3900 WCDMA, BTS3900
U
50331806
VS.MIMODual CQI2.5
Number Of MIMO TYPEA CQI Report With CQI12 5
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331807
VS.MIMODual CQI2.6
Number Of MIMO TYPEA CQI Report With CQI2 6
BTS3900 WCDMA, BTS3900
U
50331808
VS.MIMODual CQI2.7
Number Of MIMO TYPEA CQI Report With CQI2 7
BTS3900 WCDMA, BTS3900
U
50331809
VS.MIMODual CQI2.8
Number Of MIMO TYPEA CQI Report With CQI2 8
BTS3900 WCDMA, BTS3900
U
50331810
VS.MIMODual CQI2.9
Number Of MIMO TYPEA CQI Report With CQI2 9
BTS3900 WCDMA, BTS3900
U
50331811
VS.MIMODual CQI2.10
Number Of MIMO TYPEA CQI Report With CQI2 10
BTS3900 WCDMA, BTS3900
U
50331812
VS.MIMODual CQI2.11
Number Of MIMO TYPEA CQI Report With CQI2 11
BTS3900 WCDMA, BTS3900
U
50331813
VS.MIMODual CQI2.12
Number Of MIMO TYPEA CQI Report With CQI2 12
BTS3900 WCDMA, BTS3900
U
50331814
VS.MIMODual CQI2.13
Number Of MIMO TYPEA CQI Report With CQI2 13
BTS3900 WCDMA, BTS3900
U
50331815
VS.MIMODual CQI2.14
Number Of MIMO TYPEA CQI Report With CQI2 14
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the distribution of dual CQIs reported by MIMO users in a cell, evaluating the channel conditions for MIMO users. Issue 12 (2014-05-30)
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Measurement Points The NodeB takes statistics about the preceding counters when demodulating the CQI information of the UE carried on the HS-DPCCH. VS.MIMODualCQI1.0 to VS.MIMODualCQI1.14 indicate the distribution of CQI1 in TypeA CQI reports from MIMO users; VS.MIMODualCQI2.0 to VS.MIMODualCQI2.14 indicate the distribution of CQI2 in TypeA CQI reports from MIMO users.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.MIMODualCQI1.0
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.1
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.2
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.3
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.4
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None
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Counter Name
Feature ID
VS.MIMODualCQI1.5
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.6
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.7
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.8
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.9
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.10
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.11
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.12
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None
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Counter Name
Feature ID
VS.MIMODualCQI1.13
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI1.14
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.0
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.1
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.2
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.3
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.4
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.5
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None
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Counter Name
Feature ID
VS.MIMODualCQI2.6
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.7
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.8
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.9
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.10
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.11
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.12
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None VS.MIMODualCQI2.13
Multi-mode: None GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None
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Counter Name
Feature ID
VS.MIMODualCQI2.14
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None
Average CQI Of Phase 0 Based On APC Algorithm in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331822
VS.APCPhase0 CQI.MEAN
Average CQI Of Phase 0 Based On APC Algorithm
BTS3900 WCDMA
U
Description The preceding counter indicates the average value of reported CQIs corresponding to phase 0 in all phase shift periods when the automatic phase control (APC) algorithm is used in a cell, evaluating the channel quality of users with data transmission in the cell when the VAM algorithm does not take effect. The value has been amplified by 1000 times. For example, the value 29100 stands for the CQI value 29.1. The counter 50331822 VS.APCPhase0CQI.MEAN will be deleted and replaced by 50341722 VS.DataCQI.MEAN in later versions. In current version, both the counters take effect but VS.APCPhase0CQI.MEAN is not recommended.
Measurement Points Within the measurement period, the NodeB counts the sum of reported CQI values corresponding to Phase 0 in a cell when the automatic phase control (APC) algorithm takes effect. Assume that this value is A. The NodeB counts the total number of reported CQI samples corresponding to Phase 0 within the measurement period. Assume that this value is B. Then, VS.APCPhase0CQI.MEAN = A/B.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.APCPhase0CQI.MEAN
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010700
Performance Improvement of MIMO and HSDPA Cocarrier
WRFD-030011 LTE: None
MIMO Prime
Average CQI Of All Phase Based On APC Algorithm in cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331823
VS.APCCQI.M EAN
Average CQI Of All Phase Based On APC Algorithm
BTS3900 WCDMA
U
Description The preceding counter indicates the average value of CQIs reported by all users with data transmission in a cell. The value has been amplified by 1000 times. For example, the value 29100 stands for the CQI value 29.1. The counter 50331823 VS.APCCQI.MEAN will be deleted and replaced by 50341722 VS.DataCQI.MEAN in later versions. In current version, both the counters take effect but VS.APCCQI.MEAN is not recommended.
Measurement Points Within the measurement period, the NodeB counts the sum of CQI values reported by all users that have data to transmit in a cell. Assume that this value is A. The NodeB counts the total number of reported CQI samples within the measurement period. Assume that this value is B. Then, VS.APCCQI.MEAN = A/B.
Formula None
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Unit None
Related Features Counter Name
Feature ID
VS.APCCQI.MEAN
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010700
Performance Improvement of MIMO and HSDPA Cocarrier
WRFD-030011 LTE: None
MIMO Prime
Average CQI Reported by All UEs That Have Data to Transmit. Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341722
VS.DataCQI.M EAN
Average CQI Reported by All UEs That Have Data to Transmit
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average value of CQIs reported by all users with data transmission in a cell. The value has been amplified by 1000 times. For example, the value 29100 stands for the CQI value 29.1.
Measurement Points The accumulated CQI values reported by UEs that have data to transmit is A, and the number of CQI samples reported by UEs that have data to transmit is B. The formula for calculating this counter is: VS.DataCQI.MEAN = A/B.
Formula None Issue 12 (2014-05-30)
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Unit per mill
Related Features Counter Name
Feature ID
VS.DataCQI.MEAN
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-030011
MIMO Prime
WRFD-010700
Performance Improvement of MIMO and HSDPA Cocarrier
LTE: None
Statistics on Modulation Schemes for Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331722
VS.HSDPA. 16QAMCfg.Act edNum
Total number of times all the users in a cell use 16QAM mode
BTS3900 WCDMA, BTS3900
U
50331723
VS.HSDPA.QP SKCfg.ActedN um
Total number of times users use the QPSK mode
BTS3900 WCDMA, BTS3900
U
50331724
VS.HSDPA.All .ScheduledNum
Total number of times all the users are scheduled in a cell
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.HSDPA.16QAMCfg.ActedNum
This counter measures the total number of times all the users in a cell use 16QAM within a measurement period.
VS.HSDPA.QPSKCfg.ActedNum
This counter measures the total number of times all the users in a cell use QPSK within a measurement period.
VS.HSDPA.All.ScheduledNum
This counter measures the total number of times all the users in a cell are scheduled within a measurement period.
Measurement Points The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling is complete. For MIMO users, if two transport blocks are used, the VS.HSDPA.All.ScheduledNum counter is incremented by 2; if a single transport block is used, the VS.HSDPA.All.ScheduledNum counter is incremented by 1. For MIMO users, if two transport blocks are used, the VS.HSDPA.16QAMCfg.ActedNum and VS.HSDPA.QPSKCfg.ActedNum counters are measured on each transport block separately. For DC-HSDPA users, the preceding counters are measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSDPA. 16QAMCfg.ActedNum
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-010629 LTE: None
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Feature Name
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
HSDPA Introduction Package DL 16QAM Modulation
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Counter Name
Feature ID
VS.HSDPA.QPSKCfg.ActedNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 WRFD-01061017
QPSK Modulation
LTE: None VS.HSDPA.All.ScheduledNum
HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-01061009 WRFD-010610 LTE: None
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF) HSDPA Introduction Package
Statistics on 64QAM Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331709
VS.HSDPA. 64QAMCfg.Act edNum
Total number of times all the users in a cell use the 64QAM mode
BTS3900 WCDMA, BTS3900
U
50331710
VS.HSDPA. 64QAMCfg.Sc heduledNum
Total number of times all the users in 64QAM mode are scheduled in a cell
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.HSDPA.64QAMCfg.ActedNum
This counter measures the total number of times all the users in a cell use 64QAM within a measurement period.
VS.HSDPA.64QAMCfg.ScheduledNum
This counter measures the total number of times all the users in 64QAM mode are scheduled in a cell within a measurement period.
Measurement Points The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling is complete. For MIMO+64QAM users, if two transport blocks are used, the VS.HSDPA. 64QAMCfg.ScheduledNum counter is incremented by 2; if a single transport block is used, the VS.HSDPA.64QAMCfg.ScheduledNum counter is incremented by 1. For MIMO users, if two transport blocks are used, the VS.HSDPA.64QAMCfg.ActedNum counter is measured on each transport block separately. For DC-HSDPA users, the preceding counters are measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSDPA. 64QAMCfg.ActedNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010683 WRFD-010685
Downlink 64 QAM Downlink Enhanced L2
LTE: None VS.HSDPA. 64QAMCfg.ScheduledNum
Multi-mode: None GSM: None UMTS: WRFD-010683 WRFD-010685
Downlink 64 QAM Downlink Enhanced L2
LTE: None
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Statistics on 2x2 MIMO Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331711
VS.MIMOCfg. ActedNum
Total number of times all the MIMO-enabled users use two transport blocks in a cell
BTS3900 WCDMA, BTS3900
U
50331712
VS.MIMOCfg. ScheduledNum
Total number of times all the MIMO-enabled users are scheduled in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the usage of two transport blocks for MIMO-enabled users in a cell.
Measurement Points The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling is complete.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.MIMOCfg.ActedNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684 WRFD-010685
2 x 2 MIMO Downlink Enhanced L2
LTE: None Issue 12 (2014-05-30)
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Counter Name
Feature ID
VS.MIMOCfg.ScheduledNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684
2 x 2 MIMO
WRFD-010685
Downlink Enhanced L2
LTE: None
Statistics on 64QAM+MIMO Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331717
VS.HSDPA.MI MO64QAMCfg .ActedNum
Number of times that all the users configured in 64QAM +MIMO mode in a cell employ 64QAM during the measurement period
BTS3900 WCDMA, BTS3900
U
50331718
VS.HSDPA.MI MO64QAMCfg .ScheduledNum
Number of times that all the users configured in 64QAM +MIMO mode in a cell are scheduled during the measurement period
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the usage of 64QAM for 64QAM+MIMO users in a cell.
Measurement Points The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling is complete. If two transport blocks are used, the Issue 12 (2014-05-30)
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VS.HSDPA.MIMO64QAMCfg.ScheduledNum counter is incremented by 2; if a single transport block is used, the VS.HSDPA.MIMO64QAMCfg.ScheduledNum counter is incremented by 1. For users with two transport blocks, the VS.HSDPA.MIMO64QAMCfg.ActedNum counter is measured on each transport block separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSDPA.MIMO64QAM Cfg.ActedNum
Multi-mode: None GSM: None UMTS: WRFD-010693 WRFD-010689 WRFD-010610 LTE: None
VS.HSDPA.MIMO64QAM Cfg.ScheduledNum
Feature Name
DL 64QAM+MIMO HSPA+ Downlink 42 Mbit/s per User HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-010689 WRFD-010693 LTE: None
HSDPA Introduction Package HSPA+ Downlink 42 Mbit/s per User DL 64QAM+MIMO
Statistics on DC Users in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331719
VS.HSDPA.DC Cfg.AnchorCarrierActedNum
Number of times that all the users configured in DC mode in a cell are scheduled by AnchorCarrier during the measurement period
BTS3900 WCDMA, BTS3900
U
50331720
VS.HSDPA.DC Cfg.SupCarrierActedNum
Total number of times DCHSDPAenabled users are scheduled by the supplementary carrier
BTS3900 WCDMA, BTS3900
U
50331721
VS.HSDPA.DC Cfg.DualCarrier ActedNum
Total number of times DCHSDPAenabled users are scheduled by the anchor and supplementary carriers at the same time
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.HSDPA.DCCfg.AnchorCarrierActedNum
This counter measures the number of times the users whose anchor carrier is the carrier of a DC-HSDPA cell are scheduled by the anchor carrier during a measurement period.
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Counter Name
Description
VS.HSDPA.DCCfg.SupCarrierActedNum
This counter measures the number of times the users whose supplementary carrier is the carrier of a DC-HSDPA cell are scheduled by the supplementary carrier during a measurement period.
VS.HSDPA.DCCfg.DualCarrierActedNum
This counter measures the number of times the users whose anchor carrier is the carrier of a DC-HSDPA cell are scheduled by the anchor and supplementary carriers at the same time during a measurement period.
Measurement Points The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling is complete. When a user is scheduled by the anchor carrier, the VS.HSDPA.DCCfg.AnchorCarrierActedNum counter is incremented by 1 regardless of whether the user is scheduled by the supplementary carrier. If a user is scheduled by the anchor and supplementary carriers at the same time, the VS.HSDPA.DCCfg.AnchorCarrierActedNum counter is only incremented by 1. If a user is scheduled by the supplementary carrier, the VS.HSDPA.DCCfg.SupCarrierActedNum counter is incremented by 1 regardless of whether the user is scheduled by the anchor carrier. If a user is scheduled by the anchor and supplementary carriers at the same time, the VS.HSDPA.DCCfg.SupCarrierActedNum counter is only incremented by 1.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSDPA.DCCfg.AnchorCarrierActedNum
Multi-mode: None GSM: None UMTS: WRFD-010610 WRFD-010689 WRFD-010696 LTE: None
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Feature Name
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
HSDPA Introduction Package HSPA+ Downlink 42 Mbit/s per User DC-HSDPA
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Counter Name
Feature ID
VS.HSDPA.DCCfg.SupCarrierActedNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
WRFD-010689
HSPA+ Downlink 42 Mbit/s per User
WRFD-010696 LTE: None
VS.HSDPA.DCCfg.DualCarrierActedNum
DC-HSDPA
Multi-mode: None GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
WRFD-010689
HSPA+ Downlink 42 Mbit/s per User
WRFD-010696 LTE: None
DC-HSDPA
Time Ratio for HSDPA Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341658
VS.UserTtiRati o.Mean
Ratio of the time when at least one HSDPA UE camps on the cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter provides the ratio of the time when at least one HSDPA UE camps on a cell to the total time of the measurement period.
Measurement Points During a measurement period, if at least one HSDPA UE camps on a cell in one Transmission Time Interval (TTI), the NodeB counts the number of all such TTIs in the measurement period. Assume that this number is A and the total number of TTIs in the measurement period is B. Then, VS.UserTtiRatio.Mean = A/B. A DC-HSDPA user is regarded as an HSDPA user in each Issue 12 (2014-05-30)
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anchor carrier and supplementary carrier. For DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.UserTtiRatio.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Time Ratio for HSDPA User with Data to be Transmitted in the Queue Buffer in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341659
VS.DataTtiRati o.Mean
Ratio of the time when at least one HSDPA user has data to transmit in the queue buffer
BTS3900 WCDMA, BTS3900
U
Description The preceding counter measures the ratio of the time when at least one HSDPA user in a cell has data to transmit in the queue buffer to the total time within a measurement period.
Measurement Points During a measurement period, if at least one HSDPA user in a cell has data to transmit in the queue buffer in a TTI, the NodeB counts the number of all such TTIs. Assume that the number is A, and the total number of TTIs within the measurement period is B. Then, Issue 12 (2014-05-30)
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VS.DataTtiRatio.Mean = A/B. For DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.The counter is measured at point C in the following figure: Figure 2-1
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.DataTtiRatio.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Time Ratio for HSDPA Users Having Data in the Queue Buffer but Having No Data Transmission in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341693
VS.HSDPA.Ina ctiveDataTtiRat io.Mean
Average ratio of the time when at least one HSDPA user has data to transmit in the buffer but no HSDPA user transmits data at the physical layer
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average ratio of the time when at least one HSDPA user has data to transmit in the queue buffer but no HSDPA user transmits data at the physical layer.
Measurement Points During a measurement period, if at least one HSDPA user in a cell has data to transmit in the queue buffer but no HSDPA user transmits data at the physical layer within a TTI, the NodeB counts the number of all such TTIs in the measurement period. Assume that the number is A, and the total number of TTIs in the measurement period is B. Then, VS.HSDPA.InactiveDataTtiRatio.Mean = A/B.For DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.The counter is measured at points D and E in the following figure:
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Figure 2-2
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.HSDPA.InactiveDataTti Ratio.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Average Time Ratio for HSDPA User Queues in the Scheduling Candidate Set but Having No Data Transmission Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341739
VS.HSDPA.Sc heInactiveData TtiRatio.Mean
Average ratio of the time when some HSDPA users are queued in the scheduling candidate set but do not transmit data
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average time ratio for HSDPA user queues in the scheduling candidate set but having no data transmission.
Measurement Points During a measurement period, if an HSDPA user queue enters the scheduling candidate set but does not transmit data at the physical layer in one Transmission Time Interval (TTI), the NodeB counts the number of all such TTIs. Assume that this number is A and the total number of TTIs in the measurement period is B. Then, VS.HSDPA.ScheInactiveDataTtiRatio.Mean = A/B.For DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.The counter is measured at point E in the following figure:
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Figure 2-3
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.HSDPA.ScheInactiveDa taTtiRatio.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Number of TTIs in Which TRB Data Is to be Transmitted in the HSDPA User Queue in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331839
VS.HSDPA.Dat aTtiNum.TRB
Number of TTIs in which TRB data is to be transmitted in the HSDPA user queue in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the number of TTIs in which the TRB data is to be transmitted in at least one HSDPA user queue in a cell.
Measurement Points The NodeB calculates the number of TTIs in which at least one HSDPA user in a cell has the TRB data to transmit in the queue buffer within a measurement period. For DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately. The counter is measured at point A in the following figure:
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Figure 2-4
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSDPA.DataTtiNum.T RB
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
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Number of TTIs for HSDPA Users in a Cell Having TRB Data to Transmit in the Queue Buffer but Having No Data Transmission at the Physical Layer Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331840
VS.HSDPA.Ina ctiveDataTtiNu m.TRB
Number of TTIs in which at least one HSDPA user in a cell has TRB data to transmit in the queue buffer but no HSDPA user transmits TRB data at the physical layer
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the number of TTIs for at least one HSDPA user in a cell having the TRB data to transmit in the queue buffer but having no data transmission at the physical layer.
Measurement Points The NodeB calculates the total number of TTIs in which at least one HSDPA user in a cell has the TRB data to transmit in the queue buffer but no HSDPA user transmits the TRB data at the physical layer within a TTI. For DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.The counter is measured at point A in the following figure:
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Figure 2-5
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSDPA.InactiveDataTti Num.TRB
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
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Total number of user-level TTIs within which there is data to transmit in HSDPA user queue buffers Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331745
VS.HSDPA.Dat aTtiNum.User
Total number of user-level TTIs within which there is data to transmit in HSDPA user queue buffers
BTS3900 WCDMA, BTS3900
U
Description This counter measures the total number of user-level TTIs within which there is data to transmit in HSDPA user queue buffers within a scheduling period. This counter can be measured repeatedly if more than one HSDPA user queue buffer has data to transmit in a TTI. A DCHSDPA user is regarded as one HSDPA user in the primary carrier and one HSDPA user in the secondary carrier, and this counter is measured in the two carriers.
Measurement Points This counter measures the total number of user-level TTIs within which there is data to transmit in HSDPA user queue buffers within a scheduling period. This counter will be measured repeatedly if more than one HSDPA user queue buffer has data to transmit in a TTI. This counter is measured in the serving cell. For DC-HSDPA, DB-HSDPA, 4C-HSDPA, or 3C-HSDPA users, this counter is measured in the anchor carrier and supplementary carrier separately.
Formula None
Unit None
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Related Features Counter Name
Feature ID
VS.HSDPA.DataTtiNum.Us er
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Time Ratio Used for HS-SCCH Channel Codes in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341694
VS.HSDPA. 2ScchCodeRati o
The time ratio of only using two HS-SCCH codes for cell
BTS3900 WCDMA, BTS3900
U
50341695
VS.HSDPA. 3ScchCodeRati o
The time ratio of only using three HS-SCCH codes for cell
BTS3900 WCDMA, BTS3900
U
50341696
VS.HSDPA. 4ScchCodeRati o
The time ratio of only using four HS-SCCH codes for cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the ratio of time when different HS-SCCH codes are used for a cell.
Measurement Points Take the VS.HSDPA.2ScchCodeRatio counter as an example. During a measurement period, the NodeB calculates the number of TTIs in which only two HS-SCCH codes are used for the cell. Assume that the number is A, and the number of TTIs in which one or more HS-SCCH codes are used in the measurement period is B. Then, VS.HSDPA.2ScchCodeRatio = A/B.
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Unit per mill
Related Features Counter Name
Feature ID
VS.HSDPA. 2ScchCodeRatio
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None VS.HSDPA. 3ScchCodeRatio
Multi-mode: None GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None VS.HSDPA. 4ScchCodeRatio
Multi-mode: None GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Available HS-PDSCH Codes in a Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341690
VS.PdschCode Avail.Mean
Average number of available HSPDSCH codes in a cell
BTS3900 WCDMA, BTS3900
U
50341691
VS.PdschCode Avail.Max
Maximum number of available HSPDSCH codes in a cell
BTS3900 WCDMA, BTS3900
U
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Description The preceding counters indicate the average and maximum number of available HS-PDSCH codes in a cell during a measurement period.
Measurement Points During a measurement period, the NodeB counts the number of available HS-PDSCH codes in all TTIs in the cell. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.PdschCodeAvail.Mean = A/B. The NodeB samples VS.PdschCodeAvail.Mean every 5s and takes the maximum value within the measurement period as VS.PdschCodeAvail.Max.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.PdschCodeAvail.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 LTE: None VS.PdschCodeAvail.Max
HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
HSDPA Introduction Package
Used HS-PDSCH Codes in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341688
VS.PdschCode Used.Mean
Average number of used HS-PDSCH codes in a cell
BTS3900 WCDMA, BTS3900
U
50341689
VS.PdschCode Used.Max
Maximum number of used HS-PDSCH codes in a cell
BTS3900 WCDMA, BTS3900
U
50341692
VS.PdschCode Used.Min
Minimum number of used HS-PDSCH codes in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average, maximum, and minimum number of used HSPDSCH codes in a cell during a measurement period.
Measurement Points During a measurement period, the NodeB counts the number of used HS-PDSCH codes in all TTIs in the cell. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.PdschCodeUsed.Mean = A/B. The NodeB samples VS.PdschCodeUsed.Mean every 5s and takes the maximum value within the measurement period as VS.PdschCodeUsed.Max and the minimum value within the measurement period as VS.PdschCodeUsed.Min.
Formula None
Unit None
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Related Features Counter Name
Feature ID
VS.PdschCodeUsed.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None VS.PdschCodeUsed.Max
Multi-mode: None GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None VS.PdschCodeUsed.Min
Multi-mode: None GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Usage of HS-SCCH Code Resources in a Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341648
VS.ScchCodeU til.Mean
Average usage of HS-SCCH code resources in a cell
BTS3900 WCDMA, BTS3900
U
50341649
VS.ScchCodeU til.Max
Maximum usage of HSSCCH code resources in a cell
BTS3900 WCDMA, BTS3900
U
50341650
VS.ScchCodeU til.Min
Minimum usage of HS-SCCH code resources in a cell
BTS3900 WCDMA, BTS3900
U
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Description The preceding counters provide the average, maximum, and minimum usage of the HS-SCCH code resources during a measurement period. These counters are used to analyze the allocation appropriateness of the HS-SCCH code resources. If the code usage is high, the code resources are insufficient for the current traffic. Therefore, more code resources are required. If the code usage is low, the code resources are excessive. Therefore, some of the code resources can be allocated to R99 services.
Measurement Points Assume that the number of HS-SCCH codes used in all TTIs is A and the number of available HS-SCCH codes in all TTIs is B. Then, VS.ScchCodeUtil.Mean = A/B. The NodeB samples VS.ScchCodeUtil.Mean every 5s and then takes the maximum value within the measurement period as VS.ScchCodeUtil.Max and the minimum value within the measurement period as VS.ScchCodeUtil.Min.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.ScchCodeUtil.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061001 WRFD-01061018 WRFD-01061005 WRFD-010631 LTE: None
15 Codes per Cell Time and HS-PDSCH Codes Multiplex HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation Dynamic Code Allocation Based on Node B
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Counter Name
Feature ID
VS.ScchCodeUtil.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061001 WRFD-01061018 WRFD-01061005
15 Codes per Cell Time and HS-PDSCH Codes Multiplex HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation
WRFD-010631 LTE: None
Dynamic Code Allocation Based on Node B
VS.ScchCodeUtil.Min
Multi-mode: None GSM: None UMTS: WRFD-01061001 WRFD-01061018 WRFD-01061005
15 Codes per Cell Time and HS-PDSCH Codes Multiplex HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation
WRFD-010631 LTE: None
Dynamic Code Allocation Based on Node B
Usage of HS-SCCH Code Resources When at Least One HSDPA User Camps on the Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341654
VS.ScchCodeU til.Mean.User
Average usage of HS-SCCH code resources when HSDPA users camp on the cell
BTS3900 WCDMA, BTS3900
U
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Description The preceding counter indicates the average usage of HS-SCCH code resources when at least one HSDPA user camps on the cell during a measurement period.
Measurement Points Assume that the total number of used HS-SCCH codes in all TTIs when at least one HSDPA user camps on the cell within a measurement period is A, and the total number of available HSSCCH codes in all TTIs when at least one HSDPA user camps on the cell is B. Then, VS.ScchCodeUtil.Mean.User = A/B.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.ScchCodeUtil.Mean.Use r
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061005 WRFD-010631 WRFD-01061001 WRFD-01061018 LTE: None
HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation Dynamic Code Allocation Based on Node B 15 Codes per Cell Time and HS-PDSCH Codes Multiplex
Usage of HS-SCCH Code Resources When at Least One HSDPA User Has Data to Transmit in the Queue Buffer
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341655
VS.ScchCodeU til.Mean.Data
Average usage of HS-SCCH code resources when at least one HSDPA user has data to transmit in the queue buffer
BTS3900 WCDMA, BTS3900
U
Description This counter indicates the average usage of HS-SCCH code resources when at least one HSDPA user has data to transmit in the queue buffer within a measurement period.
Measurement Points Assume that the total number of used HS-SCCH codes in all TTIs when at least one HSDPA user has data to transmit in the queue buffer within the measurement period is A, and the total number of available HS-SCCH codes in all TTIs when at least one HSDPA user has data to transmit in the queue buffer is B. Then, VS.ScchCodeUtil.Mean.Data = A/B.
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.ScchCodeUtil.Mean.Data
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061005 WRFD-010631 WRFD-01061001 WRFD-01061018 LTE: None
HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation Dynamic Code Allocation Based on Node B 15 Codes per Cell Time and HS-PDSCH Codes Multiplex
Usage of HS-PDSCH Code Resources in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341651
VS.PdschCode Util.Mean
Average usage of HS-PDSCH code resources in a cell
BTS3900 WCDMA, BTS3900
U
50341652
VS.PdschCode Util.Max
Maximum usage of HSPDSCH code resources in a cell
BTS3900 WCDMA, BTS3900
U
50341653
VS.PdschCode Util.Min
Minimum usage of HS-PDSCH code resources in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counters provide the average, maximum, and minimum usage of HS-PDSCH code resources in a cell during a measurement period respectively. These counters are used to analyze the allocation appropriateness of the HS-PDSCH code resources. If the code usage is high, the code resources are insufficient for the current traffic. Therefore, more code resources Issue 12 (2014-05-30)
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are required. If the code usage is low, the code resources are excessive. Therefore, some of the code resources can be allocated to R99 services.
Measurement Points Assume that the number of HS-PDSCH codes used in all TTIs is A and the number of available HS-PDSCH codes in all TTIs is B. Then, VS.PdschCodeUtil.Mean = A/B. The NodeB calculates VS.PdschCodeUtil.Mean every 5s and then takes the maximum value within the measurement period as VS.PdschCodeUtil.Max and the minimum value within the measurement period as VS.PdschCodeUtil.Min.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.PdschCodeUtil.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061005 WRFD-010631 WRFD-01061001 WRFD-01061018 LTE: None
HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation Dynamic Code Allocation Based on Node B 15 Codes per Cell Time and HS-PDSCH Codes Multiplex
VS.PdschCodeUtil.Max
Multi-mode: None GSM: None UMTS: WRFD-01061005 WRFD-010631 WRFD-01061001 WRFD-01061018 LTE: None
HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation Dynamic Code Allocation Based on Node B 15 Codes per Cell Time and HS-PDSCH Codes Multiplex
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Counter Name
Feature ID
VS.PdschCodeUtil.Min
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061005 WRFD-010631 WRFD-01061001 WRFD-01061018 LTE: None
HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation Dynamic Code Allocation Based on Node B 15 Codes per Cell Time and HS-PDSCH Codes Multiplex
Usage of HS-PDSCH Code Resources When at Least One HSDPA User Camps on the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341656
VS.PdschCode Util.Mean.User
Average usage of HS-PDSCH code resources when HSDPA users camp on the cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average usage of HS-PDSCH code resources when at least one HSDPA user camps on the cell within a measurement period.
Measurement Points Assume that the total number of used HS-PDSCH codes in all TTIs when at least one HSDPA user camps on the cell within the measurement period is A, and the total number of available HS-PDSCH codes in all TTIs when at least one HSDPA user camps on the cell is B. Then, VS.PdschCodeUtil.Mean.User = A/B.
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Unit per mill
Related Features Counter Name
Feature ID
VS.PdschCodeUtil.Mean.Us er
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061001 WRFD-01061018 WRFD-01061005
15 Codes per Cell Time and HS-PDSCH Codes Multiplex HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation
WRFD-010631 LTE: None
Dynamic Code Allocation Based on Node B
Usage of HS-PDSCH Code Resources When at Least One HSDPA User Has Data to Transmit in the Queue Buffer Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341657
VS.PdschCode Util.Mean.Data
Average usage of HS-PDSCH code resources when at least one HSDPA user has data to transmit in the queue buffer
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average usage of HS-PDSCH code resources when at least one HSDPA user has data to transmit in the queue buffer within a measurement period.
Measurement Points Assume that the total number of used HS-PDSCH codes in all TTIs when at least one HSDPA user has data to transmit in the queue buffer within the measurement period is A, and the total Issue 12 (2014-05-30)
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number of available HS-PDSCH codes in all TTIs when at least one HSDPA user has data to transmit in the queue buffer is B. Then, VS.PdschCodeUtil.Mean.Data = A/B.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.PdschCodeUtil.Mean.Da ta
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061005 WRFD-010631 WRFD-01061001 WRFD-01061018 LTE: None
HSDPA Static Code Allocation and RNCControlled Dynamic Code Allocation Dynamic Code Allocation Based on Node B 15 Codes per Cell Time and HS-PDSCH Codes Multiplex
Transmit Power over the HS-SCCH in a Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341675
VS.ScchPwrRat io.Mean
Average transmit power over the HSSCCH in a cell
BTS3900 WCDMA, BTS3900
U
50341676
VS.ScchPwrRat io.Max
Maximum transmit power over the HSSCCH in a cell
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341677
VS.ScchPwrRat io.Min
Minimum transmit power over the HSSCCH in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average, maximum, and minimum ratios of the transmit power of all the HS-SCCHs in a cell during a measurement period respectively. Each value is expressed as the ratio of the respective transmit power to the maximum cell transmit power.
Measurement Points During the measurement period, the NodeB calculates the total ratio of the transmit power of all the HS-SCCHs to the maximum cell transmit power in all TTIs in the cell. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.ScchPwrRatio.Mean = A/B. The NodeB calculates VS.ScchPwrRatio.Mean every 5s and then takes the maximum value within the measurement period as VS.ScchPwrRatio.Max and the minimum value within the measurement period as VS.ScchPwrRatio.Min.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.ScchPwrRatio.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None
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Counter Name
Feature ID
VS.ScchPwrRatio.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None VS.ScchPwrRatio.Min
HSDPA Power Control HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None
HSDPA Power Control HSDPA Dynamic Power Allocation
Transmit Power over the HS-SCCH When at Least One HSDPA User Camps on the Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341681
VS.ScchPwrRat io.User
Average transmit power over the HSSCCH when HSDPA users camp on the cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average transmit power over the HS-SCCH when at least one HSDPA user camps on the cell. The value is expressed as the ratio of the transmit power to the maximum cell transmit power.
Measurement Points During the measurement period, the NodeB calculates the total ratio of the transmit power over the HS-SCCHs to the maximum cell transmit power in all TTIs when at least one HSDPA user camps on the cell. Assume that this value is A and the number of TTIs when at least one HSDPA user camps on the cell is B. Then, VS.ScchPwrRatio.User = A/B.
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Formula 1000*[VS.ScchPwrRatio.Mean]/[VS.UserTtiRatio.Mean]
Unit per mill
Related Features Counter Name
Feature ID
VS.ScchPwrRatio.User
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None
HSDPA Power Control HSDPA Dynamic Power Allocation
Transmit Power over the HS-SCCH When at Least One HSDPA User Has Data to Transmit in the Queue Buffer Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341683
VS.ScchPwrRat io.UserData
Average transmit power over the HSSCCH when at least one HSDPA user has data to transmit in the queue buffer
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average transmit power over the HS-SCCH when at least one HSDPA user has data to transmit in the queue buffer within a measurement period. The value is expressed as the ratio of the transmit power to the maximum cell transmit power.
Measurement Points Within the measurement period, the NodeB calculates the total ratio of the transmit power over the HS-SCCHs in all TTIs when at least one HSDPA user has data to transmit in the queue Issue 12 (2014-05-30)
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buffer. Assume that this value is A and the number of TTIs when at least one HSDPA user has data to transmit in the queue buffer is B. Then, VS.ScchPwrRatio.UserData = A/B.
Formula 1000*[VS.ScchPwrRatio.Mean]/[VS.DataTtiRatio.Mean]
Unit per mill
Related Features Counter Name
Feature ID
VS.ScchPwrRatio.UserData
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None
HSDPA Power Control HSDPA Dynamic Power Allocation
Transmit Power over the HS-PDSCH in a Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341678
VS.PdschPwrR atio.Mean
Average transmit power over the HSPDSCH in a cell
BTS3900 WCDMA, BTS3900
U
50341679
VS.PdschPwrR atio.Max
Maximum transmit power over the HSPDSCH in a cell
BTS3900 WCDMA, BTS3900
U
50341680
VS.PdschPwrR atio.Min
Minimum transmit power over the HSPDSCH in a cell
BTS3900 WCDMA, BTS3900
U
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Description The preceding counters indicate the average, maximum, and minimum ratios of the transmit power over all the HS-PDSCHs in a cell during a measurement period respectively. Each value is expressed as the ratio of the respective transmit power to the maximum cell transmit power.
Measurement Points During the measurement period, the NodeB calculates the total ratio of the transmit power over all the HS-PDSCHs to the maximum cell transmit power in all TTIs in the cell. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.PdschPwrRatio.Mean = A/B. The NodeB calculates VS.PdschPwrRatio.Mean every 5s and then takes the maximum value within the measurement period as VS.PdschPwrRatio.Max and the minimum value within the measurement period as VS.PdschPwrRatio.Min.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.PdschPwrRatio.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None VS.PdschPwrRatio.Max
HSDPA Power Control HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None
VS.PdschPwrRatio.Min
HSDPA Power Control HSDPA Dynamic Power Allocation
Multi-mode: None GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None
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Transmit Power over the HS-PDSCH When at Least One HSDPA User Camps on the Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341682
VS.PdschPwrR atio.User
Average transmit power over the HSPDSCH when HSDPA users camp on the cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average transmit power over the HS-PDSCH when at least one HSDPA user camps on the cell within a measurement period. The value is expressed as the ratio of the transmit power to the maximum cell transmit power.
Measurement Points Within the measurement period, the NodeB calculates the total ratio of the transmit power over the HS-PDSCHs to the maximum cell transmit power in all TTIs when at least one HSDPA user camps on the cell. Assume that this value is A and the number of TTIs when at least one HSDPA user camps on the cell is B. Then, VS.PdschPwrRatio.User = A/B.
Formula 1000*[VS.PdschPwrRatio.Mean]/[VS.UserTtiRatio.Mean]
Unit per mill
Related Features Counter Name
Feature ID
VS.PdschPwrRatio.User
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None
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Transmit Power over the HS-PDSCH When at Least One HSDPA User Has Data to Transmit in the Queue Buffer Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341684
VS.PdschPwrR atio.Data
Average transmit power over the HSPDSCH when at least one HSDPA user has data to transmit in the queue buffer
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average transmit power over the HS-PDSCH when at least one HSDPA user has data to transmit in the queue buffer within a measurement period. The value is expressed as the ratio of the transmit power to the maximum cell transmit power.
Measurement Points Within the measurement period, the NodeB calculates the total ratio of the transmit power over the HS-PDSCHs to the maximum cell transmit power in all TTIs when at least one HSDPA user has data to transmit in the queue buffer. Assume that this value is A and the number of TTIs when at least one HSDPA user has data to transmit in the queue buffer is B. Then, VS.PdschPwrRatio.Data = A/B.
Formula 1000*[VS.PdschPwrRatio.Mean]/[VS.DataTtiRatio.Mean]
Unit per mill
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Related Features Counter Name
Feature ID
VS.PdschPwrRatio.Data
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061004 WRFD-01061019 LTE: None
HSDPA Power Control HSDPA Dynamic Power Allocation
Power Usage of HSDPA Free Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341697
VS.HSDPAPwr Ratio.Mean.Fre eUser
Average usage of free users Hsdpa Power
BTS3900 WCDMA, BTS3900
U
50341698
VS.HSDPAPwr Ratio.Max.Free User
Maximum usage of free users Hsdpa Power
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average and maximum power usage of HSDPA free users within a measurement period. The values are expressed as the ratios of the HSDPA power to the maximum cell transmit power.
Measurement Points Within the measurement period, the NodeB calculates the total ratio of the power for all HSDPA free users to the maximum cell transmit power in all TTIs. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.HSDPAPwrRatio.Mean.FreeUser = A/B. The NodeB calculates VS.HSDPAPwrRatio.Mean.FreeUser every 5s and then takes the maximum value within the measurement period as VS.HSDPAPwrRatio.Max.FreeUser.
Formula None
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Unit per mill
Related Features Counter Name
Feature ID
VS.HSDPAPwrRatio.Mean. FreeUser
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None VS.HSDPAPwrRatio.Max.F reeUser
Multi-mode: None GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Available HSDPA Power in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341703
VS.AvaiHSDP APwrRatio.Mea n
Mean ratio of availble HSDPA Power Ratio
BTS3900 WCDMA, BTS3900
U
50341704
VS.AvaiHSDP APwrRatio.Ma x
Maximum ratio of availble HSDPA Power Ratio
BTS3900 WCDMA, BTS3900
U
50341705
VS.AvaiHSDP APwrRatio.Min
Minimum ratio of availble HSDPA Power Ratio
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average, maximum, and minimum available HSDPA power within a measurement period. The values are expressed as the ratios of the available HSDPA power to the maximum cell transmit power. Issue 12 (2014-05-30)
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Measurement Points Within the measurement period, the NodeB calculates the total ratio of the available HSDPA power to the maximum cell transmit power in all TTIs. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.AvaiHSDPAPwrRatio.Mean = A/B. The NodeB calculates VS.AvaiHSDPAPwrRatio.Mean every 5s and then takes the maximum value within the measurement period as VS.AvaiHSDPAPwrRatio.Max and the minimum value within the measurement period as VS.AvaiHSDPAPwrRatio.Min.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.AvaiHSDPAPwrRatio. Mean
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
VS.AvaiHSDPAPwrRatio. Max
HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
VS.AvaiHSDPAPwrRatio. Min
Feature Name
HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
HSDPA Introduction Package
Average HSDPA Power Ratio for Each Operator in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341706
VS.HSDPAPwr Ratio.PLMN0
Mean Ratio of PLMN0 used HSDPA Power
BTS3900 WCDMA, BTS3900
U
50341707
VS.HSDPAPwr Ratio.PLMN1
Mean Ratio of PLMN1 used HSDPA Power
BTS3900 WCDMA, BTS3900
U
50341708
VS.HSDPAPwr Ratio.PLMN2
Mean Ratio of PLMN2 used HSDPA Power
BTS3900 WCDMA, BTS3900
U
50341709
VS.HSDPAPwr Ratio.PLMN3
Mean Ratio of PLMN3 used HSDPA Power
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average HSDPA power ratios for operators within a measurement period. The values are expressed as the ratios of the HSDPA power to the maximum cell transmit power.
Measurement Points Take VS.HSDPAPwrRatio.PLMN0 as an example. Within the measurement period, the NodeB calculates the total ratio of the transmit power over the HS-SCCHs and HS-PDSCHs to the maximum cell transmit power in all TTIs. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.HSDPAPwrRatio.PLMN0 = A/B.
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.HSDPAPwrRatio.PLM N0
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None VS.HSDPAPwrRatio.PLM N1
Multi-mode: None GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None VS.HSDPAPwrRatio.PLM N2
Multi-mode: None GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None VS.HSDPAPwrRatio.PLM N3
Multi-mode: None GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Average HSDPA Power for Each Operator in a Cell in an MOCN Network Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341710
VS.HSDPAPwr Ratio.SharedOp erator0
Average HSDPA power ratio for operator 0 in a cell of an MOCN network
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341711
VS.HSDPAPwr Ratio.SharedOp erator1
Average HSDPA power ratio for operator 1 in a cell of an MOCN network
BTS3900 WCDMA, BTS3900
U
50341712
VS.HSDPAPwr Ratio.SharedOp erator2
Average HSDPA power ratio for operator 2 in a cell of an MOCN network
BTS3900 WCDMA, BTS3900
U
50341713
VS.HSDPAPwr Ratio.SharedOp erator3
Average HSDPA power ratio for operator 3 in a cell of an MOCN network
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average HSDPA power ratios for operators in an MOCN network during a measurement period. The values are expressed as the ratios of the HSDPA power to the maximum cell transmit power.
Measurement Points Take VS.HSDPAPwrRatio.SharedOperator0 as an example. Within the measurement period, the NodeB calculates the total ratio of the transmit power over the HS-SCCHs and HS-PDSCHs to the maximum cell transmit power in all TTIs. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.HSDPAPwrRatio.SharedOperator0 = A/B.
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.HSDPAPwrRatio.SharedOperator0
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021311
MOCN Introduction Package
LTE: None VS.HSDPAPwrRatio.SharedOperator1
Multi-mode: None GSM: None UMTS: WRFD-021311
MOCN Introduction Package
LTE: None VS.HSDPAPwrRatio.SharedOperator2
Multi-mode: None GSM: None UMTS: WRFD-021311
MOCN Introduction Package
LTE: None VS.HSDPAPwrRatio.SharedOperator3
Multi-mode: None GSM: None UMTS: WRFD-021311
MOCN Introduction Package
LTE: None
Average permillage of transmit power for HSDPA users in each resource group to the maximum cell transmit power Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341714
VS.HSDPAPwr Ratio.Mean.Res G0
Average permillage of transmit power for HSDPA users in resource group 0 to the maximum cell transmit power
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341715
VS.HSDPAPwr Ratio.Mean.Res G1
Average permillage of transmit power for HSDPA users in resource group 1 to the maximum cell transmit power
BTS3900 WCDMA, BTS3900
U
50341716
VS.HSDPAPwr Ratio.Mean.Res G2
Average permillage of transmit power for HSDPA users in resource group 2 to the maximum cell transmit power
BTS3900 WCDMA, BTS3900
U
50341717
VS.HSDPAPwr Ratio.Mean.Res G3
Average permillage of transmit power for HSDPA users in resource group 3 to the maximum cell transmit power
BTS3900 WCDMA, BTS3900
U
Description These counters measures the average permillage of transmit power for HSDPA users in each resource group to the maximum cell transmit power.
Measurement Points The permillage of transmit power for HS-SCCH and HS-PDSCH users in resource group to the maximum cell transmit power is sampled within each transmission time interval (TTI). At the end of the measurement period, the accumulated permillage is A, and the number of TTIs is B. The formula for calculating this counter is: VS.HSDPAPwrRatio.Mean.ResG=A/B.
Formula None
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Related Features Counter Name
Feature ID
VS.HSDPAPwrRatio.Mean. ResG0
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-150233
Differentiated Service Based on Resource Reservation
LTE: None VS.HSDPAPwrRatio.Mean. ResG1
Multi-mode: None GSM: None UMTS: WRFD-150233
Differentiated Service Based on Resource Reservation
LTE: None VS.HSDPAPwrRatio.Mean. ResG2
Multi-mode: None GSM: None UMTS: WRFD-150233
Differentiated Service Based on Resource Reservation
LTE: None VS.HSDPAPwrRatio.Mean. ResG3
Multi-mode: None GSM: None UMTS: WRFD-150233
Differentiated Service Based on Resource Reservation
LTE: None
Number of HSDPA RABs in a Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341660
VS.RabNum.M ean
Average number of HSDPA RABs in a cell
BTS3900 WCDMA, BTS3900
U
50341661
VS.RabNum.M ax
Maximum number of HSDPA RABs in a cell
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341662
VS.RabNum.M in
Minimum number of HSDPA RABs in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average, maximum, and minimum number of HSDPA radio access bearers (RABs) in a cell within each TTI during a measurement period.
Measurement Points The NodeB calculates the total number of RABs for all HSDPA users in all TTIs during a measurement period. Assume that this number is A and the number of TTIs within the measurement period is B. Then, VS.RabNum.Mean = A/B. The NodeB calculates VS.RabNum.Mean every 5s and then takes the maximum value within the measurement period as VS.RabNum.Max and the minimum value within the measurement period as VS.RabNum.Min. The RAB for a DC-HSDPA user is regarded as the RAB for an HSDPA user in each anchor carrier and supplementary carrier. For the RABs of DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.RabNum.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 LTE: None VS.RabNum.Max
HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
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Counter Name
Feature ID
VS.RabNum.Min
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Number of HSDPA RABs When at Least One HSDPA User Camps on the Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341666
VS.RabNumAv e.User
Average number of HSDPA RABs when HSDPA users camp on the cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average number of HSDPA RABs when at least one HSDPA user camps on the cell in each TTI during a measurement period.
Measurement Points Assume that the total number of HSDPA RABs in all TTIs within the measurement period is A, and the number of TTIs when at least one HSDPA user camps on the cell is B. Then, VS.RabNumAve.User = A/B. The RAB for a DC-HSDPA user is regarded as the RAB for an HSDPA user in each anchor carrier and supplementary carrier. For the RABs of DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula 1000*[VS.RabNum.Mean]/[VS.UserTtiRatio.Mean]
Unit None
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Related Features Counter Name
Feature ID
VS.RabNumAve.User
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
Number of RABs with HSDPA Data to Be Transmitted in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341663
VS.DataRabNu m.Mean
Average number of HSDPA RABs have data to transmit in the queue buffer in a cell
BTS3900 WCDMA, BTS3900
U
50341664
VS.DataRabNu m.Max
Maximum number of HSDPA RABs have data to transmit in the queue buffer in a cell
BTS3900 WCDMA, BTS3900
U
50341665
VS.DataRabNu m.Min
Minimum number of HSDPA RABs have data to transmit in the queue buffer in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average, maximum, and minimum number of RABs with HSDPA data to be transmitted in the queue buffer of a cell within each TTI during a measurement period. Issue 12 (2014-05-30)
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Measurement Points Within the measurement period, the NodeB calculates the total number of RABs with HSDPA data to be transmitted in the queue buffer in all TTIs. Assume that this value is A and the number of TTIs within the measurement period is B. Then, VS.DataRabNum.Mean = A/B. The NodeB calculates VS.DataRabNum.Mean every 5s and then takes the maximum value within the measurement period as VS.DataRabNum.Max and the minimum value within the measurement period as VS.DataRabNum.Min. The RAB for a DC-HSDPA user is regarded as the RAB for an HSDPA user in each anchor carrier and supplementary carrier. For the RABs of DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.DataRabNum.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610 LTE: None VS.DataRabNum.Max
HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
VS.DataRabNum.Min
HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
HSDPA Introduction Package
Number of RABs with HSDPA Data to Be Transmitted in the Queue Buffer When at Least One HSDPA User Has Data to Transmit in the Queue Buffer in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341667
VS.RabNumAv e.UserData
Average number of HSDPA RABs have data to transmit in the queue buffer when at least one HSDPA user has data to transmit in the queue buffer in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average number of RABs with HSDPA data to be transmitted in the queue buffer when at least one HSDPA user has data to transmit in the queue buffer in a cell.
Measurement Points Within the measurement period, the NodeB calculates the total number of RABs with HSDPA data to be transmitted in the queue buffer in all TTIs. Assume that this value is A and the number of TTIs when at least one HSDPA user has data to transmit in the queue buffer is B. Then, VS.RabNumAve.UserData = A/B. The RAB for a DC-HSDPA user is regarded as the RAB for an HSDPA user in each anchor carrier and supplementary carrier. For the RABs of DC-HSDPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula 1000*[VS.DataRabNum.Mean]/[VS.DataTtiRatio.Mean]
Unit None
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Related Features Counter Name
Feature ID
VS.RabNumAve.UserData
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010610
HSDPA Introduction Package
LTE: None
HSDPA MAC-hs/MAC-ehs Throughput in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341668
VS.DataOutput. Mean
Average cell throughput at the MAC-hs/ MAC-ehs layer
BTS3900 WCDMA, BTS3900
U
50341669
VS.DataOutput. Max
Maximum cell throughput at the MAC-hs/ MAC-ehs layer
BTS3900 WCDMA, BTS3900
U
50341670
VS.DataOutput. Min
Minimum cell throughput at the MAC-hs/ MAC-ehs layer
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average, maximum, and minimum values of cell throughput at the MAC-hs/MAC-ehs layer in a cell within a measurement period.
Measurement Points Within a measurement period, the NodeB calculates the total volume of the acknowledged scheduled data in all TTIs. Assume that this value is A and the total length of the measurement period is B. Then, VS.DataOutput.Mean = A/B. The NodeB samples the VS.DataOutput.Mean counter every 5s and then takes the maximum value within the measurement period as VS.DataOutput.Max and the minimum value within the measurement period as VS.DataOutput.Min. For DC-HSDPA users, these counters are measured in the anchor carrier and the supplementary carrier separately. Issue 12 (2014-05-30)
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Formula None
Unit bit/s
Related Features Counter Name
Feature ID
VS.DataOutput.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None VS.DataOutput.Max
Multi-mode: None GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None VS.DataOutput.Min
Multi-mode: None GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
HSDPA Cell Throughput at the MAC-hs/MAC-ehs Layer When at Least One HSDPA User Camps on a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341671
VS.DataOutput. User
Average cell throughput when HSDPA users camp on the cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average cell throughput at the MAC-hs/MAC-ehs layer when at least one HSDPA user camps on the cell within a measurement period. Issue 12 (2014-05-30)
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Measurement Points Within the measurement period, the NodeB calculates the total volume of the acknowledged scheduled data in all TTIs. Assume that this value is A and the total length of time when at least one HSDPA user camps on the cell is B. Then, VS.DataOutput.User = A/B. For DC-HSDPA users, the throughput is measured in the anchor carrier and the supplementary carrier separately.
Formula 1000*[VS.DataOutput.Mean]/[VS.UserTtiRatio.Mean]
Unit bit/s
Related Features Counter Name
Feature ID
VS.DataOutput.User
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
HSDPA Cell Throughput at the MAC-hs/MAC-ehs Layer When at Least One HSDPA User Has Data to Transmit in the Queue Buffer Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341672
VS.DataOutput. UserData
Average cell throughput when at least one HSDPA user has data to transmit in the queue buffer
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average cell throughput at the MAC-hs/MAC-ehs layer when at least one HSDPA user has data to transmit in the queue buffer within a measurement period. Issue 12 (2014-05-30)
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Measurement Points Within the measurement period, the NodeB calculates the total volume of the acknowledged scheduled data in all TTIs. Assume that this value is A and the total length of time when at least one HSDPA user has data to transmit in the queue buffer is B. Then, VS.DataOutput.UserData = A/B. For DC-HSDPA users, the throughput is measured in the anchor carrier and the supplementary carrier separately.
Formula 1000*[VS.DataOutput.Mean]/[VS.DataTtiRatio.Mean]
Unit bit/s
Related Features Counter Name
Feature ID
VS.DataOutput.UserData
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
Throughput over Each RAB at the MAC-hs/MAC-ehs Layer When at Least One HSDPA User Camps on the Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341673
VS.DataOutput. Rab
Average throughput of each RAB when HSDPA users camp on the cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average throughput over each RAB at the MAC-hs/MACehs layer when at least one HSDPA user camps on the cell within a measurement period.
Measurement Points Within the measurement period, the NodeB calculates the average cell throughput at the MAChs/MAC-ehs layer when at least one HSDPA user camps on the cell. Assume that this value is Issue 12 (2014-05-30)
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A and the average number of HSDPA RABs when at least one HSDPA user camps on the cell is B. Then, VS.DataOutput.Rab = A/B. For DC-HSDPA users, the throughput is measured in the anchor carrier and the supplementary carrier separately.
Formula [VS.DataOutput.User]/[VS.RabNumAve.User]
Unit bit/s
Related Features Counter Name
Feature ID
VS.DataOutput.Rab
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
Throughput over Each RAB at the MAC-hs/MAC-ehs Layer When at Least One HSDPA User Has Data to Transmit in the Queue Buffer Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341674
VS.DataOutput. RabData
Average throughput of each RAB when at least one HSDPA user has data to transmit in the queue buffer
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the average throughput over each RAB at the MAC-hs/MACehs layer when at least one HSDPA user has data to transmit in the queue buffer within a measurement period.
Measurement Points Within the measurement period, the NodeB calculates the average cell throughput at the MAChs/MAC-ehs layer when at least one HSDPA user has data to transmit in the queue buffer. Issue 12 (2014-05-30)
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Assume that this value is A and the average number of HSDPA RABs when at least one HSDPA user has data to transmit in the queue buffer is B. Then, VS.DataOutput.RabData = A/B. For DC-HSDPA users, the throughput is measured in the anchor carrier and the supplementary carrier separately.
Formula [VS.DataOutput.UserData]/[VS.RabNumAve.UserData]
Unit bit/s
Related Features Counter Name
Feature ID
VS.DataOutput.RabData
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
Throughput of HSDPA Free Users at the MAC-hs/MAC-ehs Layer in a Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341699
VS.DataOutput. Mean.FreeUser
Average throughput of free users at the MAC-hs/MACehs layer
BTS3900 WCDMA, BTS3900
U
50341700
VS.DataOutput. Max.FreeUser
Maximum throughput of free users at the MAC-hs/MACehs layer
BTS3900 WCDMA, BTS3900
U
50341701
VS.DataOutput. Min.FreeUser
Minimum throughput of free users at the MAC-hs/MACehs layer
BTS3900 WCDMA, BTS3900
U
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Description The preceding counters indicate the average, maximum, and minimum values of throughput of HSDPA free users at the MAC-hs/MAC-ehs layer in a cell within a measurement period respectively.
Measurement Points Within the measurement period, the NodeB calculates the total volume of the acknowledged scheduled data for HSDPA free users in all TTIs. Assume that this value is A and the total length of the measurement period is B. Then, VS.DataOutput.Mean.FreeUser = A/B. The NodeB samples the VS.DataOutput.Mean.FreeUser counter every 5s and then takes the maximum value within the measurement period as VS.DataOutput.Max.FreeUser and the minimum value within the measurement period as VS.DataOutput.Min.FreeUser. For DC-HSDPA users, these counters are measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit bit/s
Related Features Counter Name
Feature ID
VS.DataOutput.Mean.FreeUser
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
VS.DataOutput.Max.FreeUser
HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
VS.DataOutput.Min.FreeUser
Feature Name
HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010610 LTE: None
HSDPA Introduction Package
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331838
VS.HSDPA.Dat aOutput.TRB
HSDSCH TRB traffic volume in a cell
BTS3900 WCDMA, BTS3900
U
Description During a measurement period, the preceding counter indicates the total HS-DSCH TRB traffic volume for which the ACK messages are sent to the NodeB within a TTI in a cell, including MAC-hs/MAC-ehs headers.
Measurement Points The NodeB takes statistics on the preceding counter when demodulating the HARQ-ACK information of the UE carried on the HS-DPCCH. For DC-HSDPA users, this counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit bit
Related Features Counter Name
Feature ID
VS.HSDPA.DataOutput.TR B
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
Traffic volume of the MAC-hs/MAC-ehs PDUs successfully received in a cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331746
VS.HSDPA.Dat aOutput.Traffic
Traffic volume of the MAC-hs/ MAC-ehs PDUs successfully received in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the total traffic volume of the MAC-hs/MAC-ehs PDUs with ACKs from all users in a TTI within a scheduling period. A DC-HSDPA user is regarded as one HSDPA user in the primary carrier and one HSDPA user in the secondary carrier, and this counter is measured in the two carriers.
Measurement Points The NodeB calculates the traffic volume of MAC-hs/MAC-ehs PDUs with ACKs from all HSDPA users within a scheduling period. This counter is measured in the serving cell. For DCHSDPA, DB-HSDPA, 4C-HSDPA, or 3C-HSDPA users, this counter is measured in the anchor carrier and supplementary carrier separately.
Formula None
Unit bit
Related Features Counter Name
Feature ID
VS.HSDPA.DataOutput.Tra ffic
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010611
HSDPA Enhanced Package
LTE: None
MAC-ehs traffic volume of DC-HSDPA/DC-HSDPA+MIMO users
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332170
VS.DataOutput. DCHSDPA.Tra ffic
MAC-ehs traffic volume of DC-HSDPA/ DC-HSDPA +MIMO users
BTS3900 WCDMA, BTS3900
U
Description This counter measures the MAC-ehs traffic volume of DC-HSDPA/DC-HSDPA+MIMO users.
Measurement Points The traffic volume of MAC-ehs PDUs received from DC-HSDPA/DC-HSDPA+MIMO users with ACKs is sampled in the anchor carrier and supplementary carrier separately within each TTI. At the end of a measurement period, the accumulated value is used as the value of this counter.
Formula None
Unit kbit
Related Features Counter Name
Feature ID
VS.DataOutput.DCHSDPA. Traffic
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-150208 WRFD-010699 LTE: None
Flexible Dual Carrier HSDPA DC-HSDPA+MIMO
MAC-ehs traffic volume of DB-HSDPA/DB-HSDPA+MIMO users
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332168
VS.DataOutput. DBHSDPA.Tra ffic
MAC-ehs traffic volume of DB-HSDPA/ DB-HSDPA +MIMO users
BTS3900 WCDMA, BTS3900
U
Description This counter measures the MAC-ehs traffic volume of DB-HSDPA/DB-HSDPA+MIMO users.
Measurement Points The traffic volume of MAC-ehs PDUs received from DB-HSDPA/DB-HSDPA+MIMO users with ACKs is sampled in the anchor carrier and supplementary carrier separately within each TTI. At the end of a measurement period, the accumulated value is used as the value of this counter.
Formula None
Unit kbit
Related Features Counter Name
Feature ID
VS.DataOutput.DBHSDPA. Traffic
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-150209
DB-HSDPA
LTE: None
MAC-ehs traffic volume of 4C-HSDPA/3C-HSDPA/4C-HSDPA+MIMO/3CHSDPA+MIMO users
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332169
VS.DataOutput. 4CHSDPA.Traf fic
MAC-ehs traffic volume of 4C-HSDPA/ 3C-HSDPA/ 4C-HSDPA +MIMO/3CHSDPA +MIMO users
BTS3900 WCDMA, BTS3900
U
Description This counter measures the MAC-ehs traffic volume of 4C-HSDPA/3C-HSDPA/4C-HSDPA +MIMO/3C-HSDPA+MIMO users.
Measurement Points The traffic volume of MAC-ehs PDUs received from 4C-HSDPA/3C-HSDPA/4C-HSDPA +MIMO/3C-HSDPA+MIMO users with ACKs is sampled in the anchor carrier and supplementary carrier separately within each TTI. At the end of a measurement period, the accumulated value is used as the value of this counter.
Formula None
Unit kbit
Related Features Counter Name
Feature ID
VS.DataOutput. 4CHSDPA.Traffic
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-150250
3C-HSDPA
WRFD-150207
4C-HSDPA
WRFD-150223
MC-HSDPA+MIMO
LTE: None
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341685
VS.DataDiscard Ratio.Mean
Average ratio of discarded HSDPA data due to timer expiry
BTS3900 WCDMA, BTS3900
U
50341686
VS.DataDiscard Ratio.Max
Maximum ratio of discarded HSDPA data due to timer expiry
BTS3900 WCDMA, BTS3900
U
50341687
VS.DataDiscard Ratio.Min
Minimum ratio of discarded HSDPA data due to timer expiry
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average, maximum, and minimum ratios of the volume of HSDPA data discarded due to timer expiry to the total volume of HSDPA data received at the cell during a measurement period.
Measurement Points During the measurement period, the NodeB calculates the volume of the HSDPA data that is discarded due to timer expiry in the cell. Assume that this value is A. The NodeB also calculates the total volume of the HSDPA data received at the cell during the measurement period. Assume that this value is B. Then, VS.DataDiscardRatio.Mean = A/B. The NodeB calculates VS.DataDiscardRatio.Mean every 5s and then takes the maximum value within the measurement period as VS.DataDiscardRatio.Max and the minimum value within the measurement period as VS.DataDiscardRatio.Min.
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.DataDiscardRatio.Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061009 WRFD-010610 LTE: None
VS.DataDiscardRatio.Max
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF) HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-01061009 WRFD-010610 LTE: None
VS.DataDiscardRatio.Min
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF) HSDPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-01061009 WRFD-010610 LTE: None
HSDPA H-ARQ & Scheduling (MAX C/I, RR and PF) HSDPA Introduction Package
Ratio of the Actual Transmit Power over the SCPICH to the SCPICH Power Configured on the RNC
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331713
VS.SCPICH.Av gPowerRate
Ratio of the actual transmit power of the SCPICH to the power of the SCPICH configured by the RNC
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the ratio of the actual transmit power over the SCPICH to the SCPICH power configured on the RNC. If HSDPA users and MIMO users exist in the current cell, the NodeB dynamically adjusts the transmit power over the SCPICH to make the cell performance optimal.
Measurement Points The NodeB samples the ratio of the actual transmit power over the SCPICH to the SCPICH power configured on the RNC every 5s. The value of this counter is the sum of these sampling results divided by the number of samplings at the end of a measurement period.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.SCPICH.AvgPowerRate
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331714
VS.SCPICH.P wrOn.Duration
Power-enabled duration of the SCPICH in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the power-enabled duration of the SCPICH in a cell. When an MIMO user accesses the cell, the SCPICH power is enabled.
Measurement Points Within a measurement period, the NodeB checks whether the SCPICH power is enabled during each MAC-hs/MAC-ehs scheduling period. If the SCPICH power is enabled, the counter value is accumulated.
Formula None
Unit ms
Related Features Counter Name
Feature ID
VS.SCPICH.PwrOn.Duration
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010684
2 x 2 MIMO
LTE: None
Time Ratio of Existent Deactivated DC Users in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341702
VS.HSDPA.DC Cfg.SupCarrier Deact.TimeRati o
The Ratio Of Dc Deact
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the ratio of the traffic-based deactivation time of the secondarycarrier cell to the activation time of the primary-carrier cell for DC-HSDPA,DC-HSDPA +MIMO,DB-HSDPA and DB-HSDPA+MIMO users within a measurement period.
Measurement Points Within the measurement period, the NodeB calculates the total time during which the secondarycarrier cell for the DC-HSDPA,DB-HSDPA,DB-HSDPA+MIMO and DC-HSDPA+MIMO users is deactivated because of decrease in throughput. Assume that this value is A. The NodeB calculates the total time during which the DC-HSDPA,DB-HSDPA,DB-HSDPA+MIMO and DC-HSDPA+MIMO users are active (the active time for a user starting from the establishment of a PS service and ending at the release of cell connection). Assume that this value is B. Then, VS.HSDPA.DCCfg.SupCarrierDeact.TimeRatio = A/B.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.HSDPA.DCCfg.SupCarr ierDeact.TimeRatio
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-150209 WRFD-010713 WRFD-010699 LTE: None
DB-HSDPA Traffic-Based Activation and Deactivation of the Supplementary Carrier In Multi-carrier DC-HSDPA+MIMO
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Maximum DPCH power restriction algorithm validity probability Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341740
VS.HSDPA.Dp chMaxPwrRestr .ActRatio
Maximum DPCH power restriction algorithm validity probability
BTS3900 WCDMA, BTS3900
U
Description This counter measures the ratio of the duration of the maximum DPCH transmit power decrease to the online duration of all HSDPA users after the maximum DPCH power restriction algorithm is activated. Note: This algorithm is applicable only to HSDPA users that perform non-voice services and carry only 3.4 kbit/s signaling radio bearers (SRBs) over the DPCH.
Measurement Points At the end of a measurement period, for all HSDPA users supported by this algorithm, the accumulated duration of the maximum DPCH transmit power decrease is A, and the accumulated user online duration is B. The formula for calculating this counter is: VS.HSDPA.DpchMaxPwrRestr.ActRatio = A/B.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.HSDPA.DpchMaxPwrR estr.ActRatio
Multi-mode: None GSM: None UMTS: WRFD-150235 LTE: None
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Feature Name
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DPCH Maximum Power Restriction
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2.1.2 Traffic Measurements per Local Cell (TRAFFIC.LOCELL) Overview According to the usage of CEs in each cell, the measurement of NodeB baseband resources in cells indicates the consumption of baseband resources on the NodeB side.
Counters
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Counter ID
Counter Name
Counter Description
Original Release
50332548
VS.ULCE.Mean.De dicated
Average Dedicated Uplink CE
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332549
VS.DLCE.Mean.De dicated
Average Dedicated Downlink CE
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332550
VS.ULCE.Mean.Sh ared
Average Shared Uplink CE
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50332554
VS.DLCE.Mean.Sh ared
Average Shared Downlink CE
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50342548
VS.ULCE.Max.De dicated
Maximum Dedicated Uplink CE
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50342549
VS.DLCE.Max.De dicated
Maximum Dedicated Downlink CE
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50342550
VS.ULCE.Max.Sha red
Maximum Shared Uplink CE
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50342554
VS.DLCE.Max.Sha red
Maximum Shared Downlink CE
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Counter Relationship None
Number of Dedicated Uplink CEs Consumed in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332548
VS.ULCE.Mea n.Dedicated
Average Dedicated Uplink CE
BTS3900 WCDMA, BTS3900
U
50342548
VS.ULCE.Max. Dedicated
Maximum Dedicated Uplink CE
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.ULCE.Mean.Dedicated
This counter measures the average number of dedicated uplink CEs consumed in a cell within a measurement period. This counter is only used for operators with RAN sharing.
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Counter Name
Description
VS.ULCE.Max.Dedicated
This counter measures the maximum number of dedicated uplink CEs consumed in a cell within a measurement period. This counter is only used for operators with RAN sharing.
Measurement Points The number of dedicated uplink CEs is sampled every five seconds. At the end of a measurement period, the number of dedicated uplink CEs is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of dedicated uplink CEs consumed in a cell.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.ULCE.Mean.Dedicated
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021304 LTE: None VS.ULCE.Max.Dedicated
RAN Sharing Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-021304 LTE: None
RAN Sharing Introduction Package
Number of Dedicated Downlink CEs Consumed in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332549
VS.DLCE.Mea n.Dedicated
Average Dedicated Downlink CE
BTS3900 WCDMA, BTS3900
U
50342549
VS.DLCE.Max. Dedicated
Maximum Dedicated Downlink CE
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter. Counter Name
Description
VS.DLCE.Mean.Dedicated
This counter measures the average number of dedicated downlink CEs consumed in a cell within a measurement period. This counter is only used for operators with RAN sharing.
VS.DLCE.Max.Dedicated
This counter measures the maximum number of dedicated downlink CEs consumed in a cell within a measurement period. This counter is only used for operators with RAN sharing.
Measurement Points The number of dedicated downlink CEs is sampled every five seconds. At the end of a measurement period, the number of dedicated downlink CEs is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of dedicated downlink CEs consumed in a cell.
Formula None
Unit None
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Related Features Counter Name
Feature ID
Feature Name
VS.DLCE.Mean.Dedicated
Multi-mode: None GSM: None UMTS: WRFD-021304
RAN Sharing Introduction Package
LTE: None VS.DLCE.Max.Dedicated
Multi-mode: None GSM: None UMTS: WRFD-021304
RAN Sharing Introduction Package
LTE: None
Number of Shared Uplink CEs Consumed in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332550
VS.ULCE.Mea n.Shared
Average Shared Uplink CE
BTS3900 WCDMA, BTS3900
U
50342550
VS.ULCE.Max. Shared
Maximum Shared Uplink CE
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.ULCE.Mean.Shared
This counter measures the average number of shared uplink CEs consumed in a cell within a measurement period.
VS.ULCE.Max.Shared
This counter measures the maximum number of shared uplink CEs consumed in a cell within a measurement period.
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Measurement Points The number of shared uplink CEs is sampled every five seconds. At the end of a measurement period, the number of shared uplink CEs is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of shared uplink CEs consumed in a cell.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.ULCE.Mean.Shared
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021304
RAN Sharing Introduction Package
LTE: None VS.ULCE.Max.Shared
Multi-mode: None GSM: None UMTS: WRFD-021304
RAN Sharing Introduction Package
LTE: None
Number of Downlink Shared CEs Consumed in a Cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332554
VS.DLCE.Mea n.Shared
Average Shared Downlink CE
BTS3900 WCDMA, BTS3900
U
50342554
VS.DLCE.Max. Shared
Maximum Shared Downlink CE
BTS3900 WCDMA, BTS3900
U
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Description The following table describes the meanings of each counter. Counter Name
Description
VS.DLCE.Mean.Shared
This counter measures the average number of shared downlink CEs consumed in a cell within a measurement period.
VS.DLCE.Max.Shared
This counter measures the maximum number of shared downlink CEs consumed in a cell within a measurement period.
Measurement Points The number of shared downlink CEs is sampled every five seconds. At the end of a measurement period, the number of shared downlink CEs is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of shared downlink CEs consumed in a cell.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.DLCE.Mean.Shared
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021304 LTE: None VS.DLCE.Max.Shared
RAN Sharing Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-021304 LTE: None
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RAN Sharing Introduction Package
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2.1.3 HSUPA Measurements per Local Cell (HSUPA.LOCELL) Overview The measurement of the HSUPA local cell indicates the running status and performance of the HSUPA cell on a NodeB.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50331850
VS.HSUPA.LoadOutput.0
Number of Cell Ul Load Between 0db to 0.5db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331851
VS.HSUPA.LoadOutput.1
Number of Cell Ul Load Between 0.5db to 1db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331852
VS.HSUPA.LoadOutput.2
Number of Cell Ul Load Between 1.0db to 1.5db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331853
VS.HSUPA.LoadOutput.3
Number of Cell Ul Load Between 1.5db to 2db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331854
VS.HSUPA.LoadOutput.4
Number of Cell Ul Load Between 2.0db to 2.5db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331855
VS.HSUPA.LoadOutput.5
Number of Cell Ul Load Between 2.5db to 3.0db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331856
VS.HSUPA.LoadOutput.6
Number of Cell Ul Load Between 3.0db to 3.5db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331857
VS.HSUPA.LoadOutput.7
Number of Cell Ul Load Between 3.5db to 4db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331858
VS.HSUPA.LoadOutput.8
Number of Cell Ul Load Between 4db to 5db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331859
VS.HSUPA.LoadOutput.9
Number of Cell Ul Load Between 5db to 6db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331860
VS.HSUPA.LoadOutput.10
Number of Cell Ul Load Between 6db to 7db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331861
VS.HSUPA.LoadOutput.11
Number of Cell Ul Load Between 7db to 8db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331862
VS.HSUPA.LoadOutput.12
Number of Cell Ul Load Between 8db to 9db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331863
VS.HSUPA.LoadOutput.13
Number of Cell Ul Load Between 9db to 10db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331864
VS.HSUPA.LoadOutput.14
Number of Cell Ul Load Between 10db to 11db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331865
VS.HSUPA.LoadOutput.15
Number of Cell Ul Load Between 11db to 12db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331866
VS.HSUPA.LoadOutput.16
Number of Cell Ul Load Between 12db to 13db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331867
VS.HSUPA.LoadOutput.17
Number of Cell Ul Load Between 13db to 14db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331868
VS.HSUPA.LoadOutput.18
Number of Cell Ul Load Between 14db to 15db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331869
VS.HSUPA.LoadOutput.19
Number of Cell Ul Load Between 15db to 16db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331870
VS.HSUPA.LoadOutput.20
Number of Cell Ul Load Between 16db to 18db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331871
VS.HSUPA.LoadOutput.21
Number of Cell Ul Load Between 18db to 20db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331872
VS.HSUPA.LoadOutput.22
Number of Cell Ul Load Between 20db to 22db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331873
VS.HSUPA.LoadOutput.23
Number of Cell Ul Load Between 22db to 26db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331874
VS.HSUPA.LoadOutput.24
Number of Cell Ul Load Between 26db to 30db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331875
VS.HSUPA.LoadOutput.25
Number of Cell Ul Load above 30db
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331876
VS.HSUPA.OverLoadNum
Number of times the uplink is overloaded in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50341864
VS.HSUPA.AGCH CodeCollision.Mea n
Average ratio of EAGCH code collisions in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331904
VS.HSUPA.AGCH CodeCollision.Max
Maximum ratio of EAGCH code collisions in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50341865
VS.HSUPA.AGCH CodeUtil.Mean
average number of AGCH usage ratio
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50331903
VS.HSUPA.AGCH CodeUtil.Max
Max value of AGCH usage ratio
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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Counter ID
Counter Name
Counter Description
Original Release
50341850
VS.HSUPA.DataUs erNum.Mean
Average number of HSUPA users that transmit data in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341851
VS.HSUPA.DataUs erNum.Max
Maximum number of HSUPA users that transmit data in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341852
VS.HSUPA.Schedu leUserNum.Mean
Average number of scheduled HSUPA users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341853
VS.HSUPA.Schedu leUserNum.Max
Maximum number of scheduled HSUPA users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50341854
VS.HSUPA.MaxP wrLmtUserRatio
Ratio of the number of HSUPA users with limited UPH to the total number of HSUPA users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341855
VS.HSUPA.LeftPwrLmtUserRatio
Ratio of the number of HSUPA users with limited uplink load to the total number of HSUPA users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331877
VS.HSUPA.UnHap pyUserNum
Number of Unhappy HSUPA users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50341849
VS.HSUPA.UnHap pyUserNumRatio
Ratio of the number of Unhappy HSUPA users to the total number of HSUPA users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50332385
VS.HSUPA.TurboI C.Number
Average number of users with Turbo IC enabled in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341870
VS.HSUPA.TTI2m sUserNumber.0
Average number of 2 ms TTI HSUPA users at a rate of below 150 kbit/s in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341871
VS.HSUPA.TTI2m sUserNumber.1
Average number of 2 ms TTI HSUPA users at a rate in the range of [150 kbit/s, 700 kbit/s) in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341872
VS.HSUPA.TTI2m sUserNumber.2
Average number of 2 ms TTI HSUPA users at a rate in the range of [700 kbit/s, 1500 kbit/s) in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341873
VS.HSUPA.TTI2m sUserNumber.3
Average number of 2 ms TTI HSUPA users at a rate in the range of [1500 kbit/s, 3000 kbit/s) in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
50341874
VS.HSUPA.TTI2m sUserNumber.4
Average number of 2 ms TTI HSUPA users at a rate in the range of [3000 kbit/s, 4000 kbit/s) in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341875
VS.HSUPA.TTI2m sUserNumber.5
Average number of 2 ms TTI HSUPA users at a rate in the range of [4000 kbit/s, 12000 kbit/s) in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341868
VS.HSUPA.TDMU serNum.Mean
Average number of valid time-division scheduling users in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50331878
VS.HSUPA.UserTtiNum
Number of TTIs in which at least one HSUPA user exists in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331879
VS.HSUPA.DataTtiNum
Number of TTIs in which HSUPA users transmit data in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50331908
VS.HSUPA.DataTt iNum.TRB
Number of TTIs in which HSUPA users transmit TRB data in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332379
VS.HSUPA. 2msPDU.TTI.Num
Number of TTIs in which HSUPA 2 ms Mac-e/Mac-i TRBs are received in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332380
VS.HSUPA. 10msPDU.TTI.Nu m
Number of TTIs in which HSUPA 10 ms Mac-e/Mac-i TRBs are received in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331925
VS.HSUPA.DataTt iNum.ROTMor3
Number of TTIs in which HSUPA users have data to transmit under the 3 dB or above uplink Uu load in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50331926
VS.HSUPA.DataTt iNum.ROTMor6
Number of TTIs in which HSUPA users have data to transmit under the 6 dB or above uplink Uu load in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
50331927
VS.HSUPA.DataTt iNum.ROTMor7
Number of TTIs in which HSUPA users have data to transmit under the 7 dB or above uplink Uu load in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50331928
VS.HSUPA.DataTt iNum.ROTMor9
Number of TTIs in which HSUPA users have data to transmit under the 9 dB or above uplink Uu load in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50331929
VS.HSUPA.DataTt iNum.ROTMor10
Number of TTIs in which HSUPA users have data to transmit under the 10 dB or above uplink Uu load in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50331930
VS.HSUPA.DataTt iNum.ROTMor13
Number of TTIs in which HSUPA users have data to transmit under the 13 dB or above uplink Uu load in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50331931
VS.HSUPA.DataTt iNum.ROTMor20
Number of TTIs in which HSUPA users have data to transmit under the 20 dB or above uplink Uu load in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
50331885
VS.HSUPA.ACKT otal
Number of transmitted ACKs
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331886
VS.HSUPA.NACK Total
Number of transmitted NACKs
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331887
VS.HSUPA.DTXT otal
Number of transmitted DTXs
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331888
VS.HSUPA.PDUN um
Number of successfully received MAC-e PDUs from the UE in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331889
VS.HSUPA.RetransPDUNum
Number of MAC-e PDUs to be retransmitted by the UE in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332551
VS.HSUPA.Thrup ut
Total traffic volume of HSUPA users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332378
VS.HSUPA.Traffic. TRB
HSUPA Mac-d TRB data volume in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332386
VS.HSUPA. 2msTTI.Traffic
Traffic of Mac-e/ Mac-i PDUs received from 2 ms TTI HSUPA users in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332387
VS.HSUPA. 10msTTI.Traffic
Traffic of Mac-e/ Mac-i PDUs received from 10 ms TTI HSUPA users in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341876
VS.HSUPA.Thrup ut.ROTMor3
Cell throughput of HSUPA users under the 3 dB or above uplink Uu load
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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3900 Series Base Station Performance Counter Reference
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2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341877
VS.HSUPA.Thrup ut.ROTMor6
Cell throughput of HSUPA users under the 6 dB or above uplink Uu load
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341878
VS.HSUPA.Thrup ut.ROTMor7
Cell throughput of HSUPA users under the 7 dB or above uplink Uu load
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341879
VS.HSUPA.Thrup ut.ROTMor9
Cell throughput of HSUPA users under the 9 dB or above uplink Uu load
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341880
VS.HSUPA.Thrup ut.ROTMor10
Cell throughput of HSUPA users under the 10 dB or above uplink Uu load
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341881
VS.HSUPA.Thrup ut.ROTMor13
Cell throughput of HSUPA users under the 13 dB or above uplink Uu load
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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3900 Series Base Station Performance Counter Reference
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2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341882
VS.HSUPA.Thrup ut.ROTMor20
Cell throughput of HSUPA users under the 20 dB or above uplink Uu load
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341883
VS.HSUPA.Thrup ut.ROTAll
Cell throughput of HSUPA users under all uplink Uu loads
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342552
VS.HSUPA.MeanB itRate
Average throughput of HSUPA users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50342553
VS.HSUPA.MeanB itRate.WithData
Average throughput of HSUPA users in a cell when data is transmitted
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50331892
VS.HSUPA.Ic.Mea nEff
Average Efficiency of Interference Cancellation (IC) in a Cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
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3900 Series Base Station Performance Counter Reference
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2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341858
VS.HSUPA.Ic.Max Eff
Maximum Efficiency of Interference Cancellation (IC) in a Cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50331907
VS.CellFirstStageI cEff.Mean
Average Efficiency of Stage 1 Interference Cancellation (IC) in a Cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50341867
VS.CellFirstStageI cEff.Max
Maximum Efficiency of Stage 1 Interference Cancellation (IC) in a Cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50341856
VS.HSUPA.FDE.U tilizeTimePermillage
Proportion of the time when HSUPA users use the FDE mode in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50341857
VS.HSUPA. 16QAM.UtilizeTimePermillage
Proportion of the time when HSUPA users uses the 16QAM mode in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
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3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341859
VS.HSUPA.Boostin g.UtilizeTimeRatio
Ratio of the utilize time of boosting in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50341866
VS.HSUPA.AntiInt erfSch.ActRatio
The antiintereference scheduling algrithm active ratio
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50341869
VS.HSUPA.TDMS ch.ActRatio
Time-division scheduling algorithm validity probability in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship
Issue 12 (2014-05-30)
Counter
Sub Counter
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor3
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor6
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor7
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor9
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor10
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor13
VS.HSUPA.Thruput.ROTAll
VS.HSUPA.Thruput.ROTMor20
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Cell Load on the Air Interface Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331850
VS.HSUPA.Lo adOutput.0
Number of Cell Ul Load Between 0db to 0.5db
BTS3900 WCDMA, BTS3900
U
50331851
VS.HSUPA.Lo adOutput.1
Number of Cell Ul Load Between 0.5db to 1db
BTS3900 WCDMA, BTS3900
U
50331852
VS.HSUPA.Lo adOutput.2
Number of Cell Ul Load Between 1.0db to 1.5db
BTS3900 WCDMA, BTS3900
U
50331853
VS.HSUPA.Lo adOutput.3
Number of Cell Ul Load Between 1.5db to 2db
BTS3900 WCDMA, BTS3900
U
50331854
VS.HSUPA.Lo adOutput.4
Number of Cell Ul Load Between 2.0db to 2.5db
BTS3900 WCDMA, BTS3900
U
50331855
VS.HSUPA.Lo adOutput.5
Number of Cell Ul Load Between 2.5db to 3.0db
BTS3900 WCDMA, BTS3900
U
50331856
VS.HSUPA.Lo adOutput.6
Number of Cell Ul Load Between 3.0db to 3.5db
BTS3900 WCDMA, BTS3900
U
50331857
VS.HSUPA.Lo adOutput.7
Number of Cell Ul Load Between 3.5db to 4db
BTS3900 WCDMA, BTS3900
U
50331858
VS.HSUPA.Lo adOutput.8
Number of Cell Ul Load Between 4db to 5db
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331859
VS.HSUPA.Lo adOutput.9
Number of Cell Ul Load Between 5db to 6db
BTS3900 WCDMA, BTS3900
U
50331860
VS.HSUPA.Lo adOutput.10
Number of Cell Ul Load Between 6db to 7db
BTS3900 WCDMA, BTS3900
U
50331861
VS.HSUPA.Lo adOutput.11
Number of Cell Ul Load Between 7db to 8db
BTS3900 WCDMA, BTS3900
U
50331862
VS.HSUPA.Lo adOutput.12
Number of Cell Ul Load Between 8db to 9db
BTS3900 WCDMA, BTS3900
U
50331863
VS.HSUPA.Lo adOutput.13
Number of Cell Ul Load Between 9db to 10db
BTS3900 WCDMA, BTS3900
U
50331864
VS.HSUPA.Lo adOutput.14
Number of Cell Ul Load Between 10db to 11db
BTS3900 WCDMA, BTS3900
U
50331865
VS.HSUPA.Lo adOutput.15
Number of Cell Ul Load Between 11db to 12db
BTS3900 WCDMA, BTS3900
U
50331866
VS.HSUPA.Lo adOutput.16
Number of Cell Ul Load Between 12db to 13db
BTS3900 WCDMA, BTS3900
U
50331867
VS.HSUPA.Lo adOutput.17
Number of Cell Ul Load Between 13db to 14db
BTS3900 WCDMA, BTS3900
U
50331868
VS.HSUPA.Lo adOutput.18
Number of Cell Ul Load Between 14db to 15db
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331869
VS.HSUPA.Lo adOutput.19
Number of Cell Ul Load Between 15db to 16db
BTS3900 WCDMA, BTS3900
U
50331870
VS.HSUPA.Lo adOutput.20
Number of Cell Ul Load Between 16db to 18db
BTS3900 WCDMA, BTS3900
U
50331871
VS.HSUPA.Lo adOutput.21
Number of Cell Ul Load Between 18db to 20db
BTS3900 WCDMA, BTS3900
U
50331872
VS.HSUPA.Lo adOutput.22
Number of Cell Ul Load Between 20db to 22db
BTS3900 WCDMA, BTS3900
U
50331873
VS.HSUPA.Lo adOutput.23
Number of Cell Ul Load Between 22db to 26db
BTS3900 WCDMA, BTS3900
U
50331874
VS.HSUPA.Lo adOutput.24
Number of Cell Ul Load Between 26db to 30db
BTS3900 WCDMA, BTS3900
U
50331875
VS.HSUPA.Lo adOutput.25
Number of Cell Ul Load above 30db
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the distribution of cell load (that is, the ratio of the actual RTWP in a cell to the reference RTWP) on the air interface during a measurement period.
Measurement Points The NodeB takes statistics on the preceding counters based on the calculated cell air-interface load when obtaining the actual RTWP in the cell.
Formula None Issue 12 (2014-05-30)
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Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.LoadOutput.0
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None VS.HSUPA.LoadOutput.1
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.2
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.3
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.4
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.5
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
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HSUPA Introduction Package
501
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Counter Name
Feature ID
VS.HSUPA.LoadOutput.6
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None VS.HSUPA.LoadOutput.7
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.8
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.9
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.10
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.11
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.12
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
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HSUPA Introduction Package
502
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Counter Name
Feature ID
VS.HSUPA.LoadOutput.13
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None VS.HSUPA.LoadOutput.14
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.15
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.16
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.17
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.18
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.19
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
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HSUPA Introduction Package
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Counter Name
Feature ID
VS.HSUPA.LoadOutput.20
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None VS.HSUPA.LoadOutput.21
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.22
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.23
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.24
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.LoadOutput.25
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
Number of Uplink Overloads in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331876
VS.HSUPA.Ov erLoadNum
Number of times the uplink is overloaded in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the number of times the uplink overload occurs in a cell over the air interface. Uplink cell overload over the air interface affects the HSUPA services.
Measurement Points Within a measurement period, the NodeB counts the total number of times the cell RTWP exceeds the target RTWP in all TTIs.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.OverLoadNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
E-AGCH Code Collision Ratio in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341864
VS.HSUPA.AG CHCodeCollisi on.Mean
Average ratio of E-AGCH code collisions in a cell
BTS3900 WCDMA, BTS3900
U
50331904
VS.HSUPA.AG CHCodeCollisi on.Max
Maximum ratio of E-AGCH code collisions in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the ratio of E-AGCH code collisions in a cell.
Measurement Points At the end of a measurement period, the calculated number of users that fail to send AGs due to occupied E-AGCH codes is recorded A, and the calculated number of users that successfully send AGs is recorded B. The ratio of E-AGCH code collisions is A/(A+B). This counter is sampled every five seconds. VS.HSUPA.AGCHCodeCollision.Mean measures the average of these sampling results within a measurement period. VS.HSUPA.AGCHCodeCollision.Max measures the maximum of these sampling results within a measurement period. Note that these counters involve only the users with the local cell as the serving cell, and the users that fail to send AGs within the previous measurement period and then reattempt to send AGs with the next measurement period are also included.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.HSUPA.AGCHCodeCol lision.Mean
Multi-mode: None GSM: None UMTS: WRFD-01061402 LTE: None
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Feature Name
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
Enhanced Fast UL Scheduling
506
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Counter Name
Feature ID
VS.HSUPA.AGCHCodeCol lision.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061402 LTE: None
Enhanced Fast UL Scheduling
Statistics on AGCH Utilization in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341865
VS.HSUPA.AG CHCodeUtil.M ean
average number of AGCH usage ratio
BTS3900 WCDMA, BTS3900
U
50331903
VS.HSUPA.AG CHCodeUtil.M ax
Max value of AGCH usage ratio
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the statistics on the E-AGCH utilization in a cell.
Measurement Points Within a measurement period, the NodeB counts the total number of used E-AGCHs in all scheduling periods. Assume that this value is A. The NodeB counts the total number of configured E-AGCHs in all scheduling periods of the measurement period. Assume that this value is B. Then, VS.HSUPA.AGCHCodeUtil.Mean = A/B. The NodeB samples the value of VS.HSUPA.AGCHCodeUtil.Mean in each sampling period (5s) and takes the maximum sampled value within the measurement period as VS.HSUPA.AGCHCodeUtil.Max.
Formula None
Unit per mill
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507
3900 Series Base Station Performance Counter Reference
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Related Features Counter Name
Feature ID
VS.HSUPA.AGCHCodeUtil .Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061402 LTE: None
VS.HSUPA.AGCHCodeUtil .Max
Enhanced Fast UL Scheduling
Multi-mode: None GSM: None UMTS: WRFD-01061402 LTE: None
Enhanced Fast UL Scheduling
Number of HSUPA Users with Data Transmission in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341850
VS.HSUPA.Dat aUserNum.Mea n
Average number of HSUPA users that transmit data in a cell
BTS3900 WCDMA, BTS3900
U
50341851
VS.HSUPA.Dat aUserNum.Max
Maximum number of HSUPA users that transmit data in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average and maximum number of HSUPA users with data transmission in each TTI during a measurement period in a cell.
Measurement Points During the measurement period, the NodeB counts the total number of HSUPA users with data transmission in all TTIs. This counter is counted once for HSUPA users with 2 ms TTI and five times for HSUPA users with 10 ms TTI. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.HSUPA.DataUserNum.Mean = A/B. The NodeB samples the value of VS.HSUPA.DataUserNum.Mean in each sampling period (5s) and takes Issue 12 (2014-05-30)
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the maximum sampled value within the measurement period as VS.HSUPA.DataUserNum.Max. For DC-HSUPA users, the preceding counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.DataUserNum. Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None VS.HSUPA.DataUserNum. Max
Multi-mode: None GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None
Number of Scheduled HSUPA Users in a Cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341852
VS.HSUPA.Sc heduleUserNu m.Mean
Average number of scheduled HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
50341853
VS.HSUPA.Sc heduleUserNu m.Max
Maximum number of scheduled HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
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Description The preceding counters indicate the average and maximum number of scheduled HSUPA users in each TTI during a measurement period in a cell. When an HSUPA user is scheduled, the NodeB sends the RG UP, RG DOWN, or AG grant to the HSUPA user.
Measurement Points During the measurement period, the NodeB counts the total number of scheduled HSUPA users in all TTIs. Assume that this value is A and the number of TTIs in the measurement period is B. Then, VS.HSUPA.ScheduleUserNum.Mean = A/B. The NodeB samples the value of VS.HSUPA.ScheduleUserNum.Mean in each sampling period (5s) and takes the maximum sampled value within the measurement period as VS.HSUPA.ScheduleUserNum.Max. For DCHSUPA users, the preceding counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.ScheduleUserN um.Mean
Multi-mode: None GSM: None UMTS: WRFD-010612 WRFD-01061402 LTE: None
VS.HSUPA.ScheduleUserN um.Max
Feature Name
HSUPA Introduction Package Enhanced Fast UL Scheduling
Multi-mode: None GSM: None UMTS: WRFD-010612 WRFD-01061402 LTE: None
HSUPA Introduction Package Enhanced Fast UL Scheduling
Proportion of Power-Limited HSUPA Users in a Cell Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341854
VS.HSUPA.Ma xPwrLmtUserR atio
Ratio of the number of HSUPA users with limited UPH to the total number of HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the ratio of the number of HSUPA users with limited UE Power Headroom (UPH) to the total number of HSUPA users in a cell. The power is limited when the rate requested by the UE to send buffered data is higher than the maximum permissible transmit rate indicated in the UPH field.
Measurement Points During the measurement period, the NodeB counts the total number of power-limited HSUPA users in all TTIs. Assume that this value is A and the total number of HSUPA users in all TTIs in the measurement period is B. Then, VS.HSUPA.MaxPwrLmtUserRatio = A/B. If the power of an HSUPA user is limited several times during the measurement period, the NodeB counts the user repeatedly. For DC-HSUPA users, the preceding counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.HSUPA.MaxPwrLmtUserRatio
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061203 WRFD-01061401 LTE: None
HSUPA Power Control HSUPA E-AGCH Power Control (Based on CQI or HS-SCCH)
Proportion of Load-Limited HSUPA Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341855
VS.HSUPA.Lef tPwrLmtUserR atio
Ratio of the number of HSUPA users with limited uplink load to the total number of HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the ratio of the number of HSUPA users whose requested rate fails to be reached because of limited load over the air interface to the total number of HSUPA users in a cell during a measurement period.
Measurement Points During a measurement period, the NodeB counts the total number of HSUPA users whose requested rate fails to be reached because of limited load over the air interface in all TTIs. Assume that this value is A and the total number of HSUPA users in all TTIs in the measurement period is B. Then, VS.HSUPA.LeftPwrLmtUserRatio = A/B. If the load of an HSUPA user is limited several times during the measurement period, the NodeB counts the user repeatedly. For DCHSUPA users, the preceding counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None Issue 12 (2014-05-30)
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Unit per mill
Related Features Counter Name
Feature ID
VS.HSUPA.LeftPwrLmtUserRatio
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061202 WRFD-01061402 LTE: None
HSUPA Admission Control Enhanced Fast UL Scheduling
Statistics on Unhappy HSUPA Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331877
VS.HSUPA.Un HappyUserNu m
Number of Unhappy HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the number of unhappy HSUPA users in a cell.
Measurement Points This counter is measured when the NodeB finds that the HAPPY bit value carried by the HSUPA user is unhappy in MAC-e scheduling. This counter is counted once for HSUPA users with 2 ms TTI and five times for HSUPA users with 10 ms TTI. For DC-HSUPA users, the preceding counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.HSUPA.UnHappyUserNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010639
96 HSUPA Users per Cell
WRFD-01061211
20 HSUPA Users per Cell
WRFD-010634
60 HSUPA Users per Cell
WRFD-010612
HSUPA Introduction Package
LTE: None
Ratio of Unhappy HSUPA Users to the Total HSUPA Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341849
VS.HSUPA.Un HappyUserNu mRatio
Ratio of the number of Unhappy HSUPA users to the total number of HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the ratio of the number of unhappy HSUPA users to the total number of HSUPA users in a cell during a measurement period.
Measurement Points During a measurement period, the NodeB counts the total number of unhappy HSUPA users in all TTIs. Assume that this value is A and the total number of HSUPA users in all TTIs in the measurement period is B. Then, VS.HSUPA.UnHappyUserNumRatio = A/B. If an HSUPA user reports the unhappy state several times during the measurement period, the NodeB counts the user repeatedly.
Formula None Issue 12 (2014-05-30)
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Unit per mill
Related Features Counter Name
Feature ID
VS.HSUPA.UnHappyUserNumRatio
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010639
96 HSUPA Users per Cell
WRFD-01061211
20 HSUPA Users per Cell
WRFD-010634
60 HSUPA Users per Cell
WRFD-010612
HSUPA Introduction Package
LTE: None
Average number of users with Turbo IC enabled in a cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332385
VS.HSUPA.Tur boIC.Number
Average number of users with Turbo IC enabled in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the average number of users with Turbo IC enabled within a measurement period in the HSUPA cell.
Measurement Points This counter is sampled every 10 ms and measures the number of users with Turbo IC enabled within a measurement period. The accumulated value is A, and the number of samples is B. The formula for calculating this counter is: VS.HSUPA.TurboIC.Number=A/B.
Formula None
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Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.TurboIC.Number
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-150206
Turbo IC
LTE: None
Average Number of 2 ms TTI HSUPA Users at Different Rates in a Cell Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341870
VS.HSUPA.TT I2msUserNumb er.0
Average number of 2 ms TTI HSUPA users at a rate of below 150 kbit/s in a cell
BTS3900 WCDMA, BTS3900
U
50341871
VS.HSUPA.TT I2msUserNumb er.1
Average number of 2 ms TTI HSUPA users at a rate in the range of [150 kbit/s,700 kbit/s) in a cell
BTS3900 WCDMA, BTS3900
U
50341872
VS.HSUPA.TT I2msUserNumb er.2
Average number of 2 ms TTI HSUPA users at a rate in the range of [700 kbit/s,1500 kbit/s) in a cell
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341873
VS.HSUPA.TT I2msUserNumb er.3
Average number of 2 ms TTI HSUPA users at a rate in the range of [1500 kbit/s, 3000 kbit/s) in a cell
BTS3900 WCDMA, BTS3900
U
50341874
VS.HSUPA.TT I2msUserNumb er.4
Average number of 2 ms TTI HSUPA users at a rate in the range of [3000 kbit/s, 4000 kbit/s) in a cell
BTS3900 WCDMA, BTS3900
U
50341875
VS.HSUPA.TT I2msUserNumb er.5
Average number of 2 ms TTI HSUPA users at a rate in the range of [4000 kbit/s, 12000 kbit/s) in a cell
BTS3900 WCDMA, BTS3900
U
Description These counters measure the average number of 2 ms TTI HSUPA users at different rates in a cell within a measurement period.
Measurement Points The number of 2 ms TTI HSUPA users at different Mac-e/i rates is sampled every 100 ms. At the end of a measurement period, the accumulated value is A, and the number of samples is B. The formula for calculating this counter is: VS.HSUPA.TTI2msUserNumber = A/B. For DCHSUPA users or users in handover scenarios, these counters are measured in each cell. Rate at the HSUPA Mac-e/i layer = Traffic of Mac-e/i TRBs correctly received from HSUPA users within a measurement period/Online duration for HSUPA users within the measurement period.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.HSUPA.TTI2msUserNumber.0
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-150206
Turbo IC
LTE: None VS.HSUPA.TTI2msUserNumber.1
Multi-mode: None GSM: None UMTS: WRFD-150206
Turbo IC
LTE: None VS.HSUPA.TTI2msUserNumber.2
Multi-mode: None GSM: None UMTS: WRFD-150206
Turbo IC
LTE: None VS.HSUPA.TTI2msUserNumber.3
Multi-mode: None GSM: None UMTS: WRFD-150206
Turbo IC
LTE: None VS.HSUPA.TTI2msUserNumber.4
Multi-mode: None GSM: None UMTS: WRFD-150206
Turbo IC
LTE: None VS.HSUPA.TTI2msUserNumber.5
Multi-mode: None GSM: None UMTS: WRFD-150206
Turbo IC
LTE: None
Average Number of Valid Time-Division Scheduling Users in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341868
VS.HSUPA.TD MUserNum.Me an
Average number of valid time-division scheduling users in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the average number of valid time-division scheduling users in a cell.When the time-division scheduling takes effect, the number of time-division scheduling users in the cell is not 0.
Measurement Points The number of valid HSUPA time-division scheduling users is sampled every five seconds. At the end of a measurement period, for example, 15 minutes, the sum of these sampling results is reported. The average number of valid time-division scheduling users is equal to the result of the sum of the sampling results divided by the sampling times.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.TDMUserNum. Mean
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-150222 LTE: None
HSUPA Time Division Scheduling
Number of TTIs with HSUPA Users in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331878
VS.HSUPA.Us erTtiNum
Number of TTIs in which at least one HSUPA user exists in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the number of TTIs when at least one HSUPA user exists in a cell during a measurement period.
Measurement Points This counter is measured when at least one HSUPA user exists in a TTI each time MAC-e scheduling is performed. For DC-HSUPA users, the preceding counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.UserTtiNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
Number of TTIs in Which at Least One HSUPA User Transmits Data in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331879
VS.HSUPA.Dat aTtiNum
Number of TTIs in which HSUPA users transmit data in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the number of TTIs in which at least one HSUPA user transmits data in a cell.
Measurement Points During a measurement period, there is data transmission within a TTI if at least one user transmits data in the TTI. This counter is counted once for HSUPA users with 2 ms TTI and five times for HSUPA users with 10 ms TTI. A DC-HSUPA user is regarded as an HSUPA user in each anchor carrier and supplementary carrier. For DC-HSUPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.DataTtiNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
Number of TTIs in Which at Least One HSUPA User Transmits the TRB Data in a Cell Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331908
VS.HSUPA.Dat aTtiNum.TRB
Number of TTIs in which HSUPA users transmit TRB data in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the number of TTIs in which at least one HSUPA user transmits the TRB data in a cell.
Measurement Points During a measurement period, there is data transmission within a TTI if at least one user transmits the TRB data in the TTI in an HSUPA serving cell. This counter is counted once for HSUPA users with 2 ms TTI and five times for HSUPA users with 10 ms TTI. A DC-HSUPA user is regarded as an HSUPA user in each anchor carrier and supplementary carrier. For DC-HSUPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.DataTtiNum.T RB
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
Number of TTIs in which HSUPA Mac-e/Mac-i TRBs are received in a cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332379
VS.HSUPA. 2msPDU.TTI.N um
Number of TTIs in which HSUPA 2 ms Mac-e/Mac-i TRBs are received in a cell
BTS3900 WCDMA, BTS3900
U
50332380
VS.HSUPA. 10msPDU.TTI. Num
Number of TTIs in which HSUPA 10 ms Mac-e/Mac-i TRBs are received in a cell
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter. Counter Name
Description
VS.HSUPA.2msPDU.TTI.Num
This counter measures the number of TTIs in which Mac-e/Mac-i TRBs are received from HSUPA 2 ms TTI users in the serving cell within a measurement period. A DC-HSUPA user is regarded as one HSUPA user in the primary carrier and one HSUPA user in the secondary carrier, and this counter is measured in the two carriers separately.
VS.HSUPA.10msPDU.TTI.Num
This counter measures the number of TTIs in which Mac-e/Mac-i TRBs are received from HSUPA 10 ms TTI users in the serving cell within a measurement period. A DC-HSUPA user is regarded as one HSUPA user in the primary carrier and one HSUPA user in the secondary carrier, and this counter is measured in the two carriers separately. This counter does not involve the number of HSUPA 10 ms Mac-e/Mac-i TRB PDUs received by the WBBPa.
Measurement Points The number of TTIs in which Mac-e/Mac-i TRBs are received from HSUPA 2 ms TTI users in the serving cell is accumulated within a measurement period, including the number of TTIs in Issue 12 (2014-05-30)
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which TRBs are retransmitted. If Mac-e/Mac-i TRBs are received from multiple users in a TTI, the VS.HSUPA.2msPDU.TTI.Num counter is repeatedly measured. The number of TTIs in which Mac-e/Mac-i TRBs are received from HSUPA 10 ms TTI users in the serving cell is accumulated within a measurement period, including the number of TTIs in which TRBs are retransmitted. If Mac-e/Mac-i TRBs are received from multiple users in a TTI, the VS.HSUPA.10msPDU.TTI.Num counter is repeatedly measured. For a DC-HSUPA user, the corresponding counter is measured in the primary and secondary carriers separately.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA. 2msPDU.TTI.Num
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA. 10msPDU.TTI.Num
Feature Name
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
Number of TTIs in Which HSUPA Users Have Data to Transmit under Different Uplink Uu Loads in a Cell
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Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331925
VS.HSUPA.Dat aTtiNum.ROT Mor3
Number of TTIs in which HSUPA users have data to transmit under the 3 dB or above uplink Uu load in a cell
BTS3900 WCDMA, BTS3900
U
50331926
VS.HSUPA.Dat aTtiNum.ROT Mor6
Number of TTIs in which HSUPA users have data to transmit under the 6 dB or above uplink Uu load in a cell
BTS3900 WCDMA, BTS3900
U
50331927
VS.HSUPA.Dat aTtiNum.ROT Mor7
Number of TTIs in which HSUPA users have data to transmit under the 7 dB or above uplink Uu load in a cell
BTS3900 WCDMA, BTS3900
U
50331928
VS.HSUPA.Dat aTtiNum.ROT Mor9
Number of TTIs in which HSUPA users have data to transmit under the 9 dB or above uplink Uu load in a cell
BTS3900 WCDMA, BTS3900
U
50331929
VS.HSUPA.Dat aTtiNum.ROT Mor10
Number of TTIs in which HSUPA users have data to transmit under the 10 dB or above uplink Uu load in a cell
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331930
VS.HSUPA.Dat aTtiNum.ROT Mor13
Number of TTIs in which HSUPA users have data to transmit under the 13 dB or above uplink Uu load in a cell
BTS3900 WCDMA, BTS3900
U
50331931
VS.HSUPA.Dat aTtiNum.ROT Mor20
Number of TTIs in which HSUPA users have data to transmit under the 20 dB or above uplink Uu load in a cell
BTS3900 WCDMA, BTS3900
U
Description These counters measure the number of TTIs in which HSUPA users have data to transmit under different uplink Uu loads in a cell. Uu interface load indicates the ratio of the current RTWP to the reference RTWP in a cell.
Measurement Points At the end of a measurement period, the number of TTIs in which HSUPA users have data to transmit under different uplink Uu loads is measured in a cell. If at least one user transmits data, there is data transmission within the TTI. For 2 ms TTI HSUPA users, this scenario is measured once. For 10 ms TTI HSUPA users, this scenario is measured five times. For DC-HSUPA users or users in handover scenarios, these counters are measured in each cell.
Formula None
Unit None
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Related Features Counter Name
Feature ID
VS.HSUPA.DataTtiNum.R OTMor3
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.DataTtiNum.R OTMor6
GSM: None LTE: None
GSM: None LTE: None
GSM: None LTE: None
GSM: None LTE: None
GSM: None LTE: None
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
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HSUPA Introduction Package
Multi-mode: None UMTS: WRFD-010612
VS.HSUPA.DataTtiNum.R OTMor20
HSUPA Introduction Package
Multi-mode: None UMTS: WRFD-010612
VS.HSUPA.DataTtiNum.R OTMor13
HSUPA Introduction Package
Multi-mode: None UMTS: WRFD-010612
VS.HSUPA.DataTtiNum.R OTMor10
HSUPA Introduction Package
Multi-mode: None UMTS: WRFD-010612
VS.HSUPA.DataTtiNum.R OTMor9
HSUPA Introduction Package
Multi-mode: None UMTS: WRFD-010612
VS.HSUPA.DataTtiNum.R OTMor7
Feature Name
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HSUPA Introduction Package
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HSUPA HARQ Distribution in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331885
VS.HSUPA.AC KTotal
Number of transmitted ACKs
BTS3900 WCDMA, BTS3900
U
50331886
VS.HSUPA.NA CKTotal
Number of transmitted NACKs
BTS3900 WCDMA, BTS3900
U
50331887
VS.HSUPA.DT XTotal
Number of transmitted DTXs
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the HSUPA HARQ distribution in a cell.
Measurement Points During a measurement period, the NodeB uses VS.HSUPA.ACKTotal to count the total number of HI messages containing ACK on the E-HICH, VS.HSUPA.NACKTotal to count the total number of HI messages containing NACK on the E-HICH, and VS.HSUPA.DTXTotal to count the total number of HSUPA users without data transmission in all TTIs. A DC-HSUPA user is regarded as an HSUPA user in each anchor carrier and supplementary carrier. For DC-HSUPA users, the counter is measured in the anchor carrier and the supplementary carrier separately.
Formula None
Unit None
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Related Features Counter Name
Feature ID
VS.HSUPA.ACKTotal
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None VS.HSUPA.NACKTotal
Multi-mode: None GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None VS.HSUPA.DTXTotal
Multi-mode: None GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None
HSUPA MAC-e PDU Statistics in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331888
VS.HSUPA.PD UNum
Number of successfully received MACe PDUs from the UE in a cell
BTS3900 WCDMA, BTS3900
U
50331889
VS.HSUPA.RetransPDUNum
Number of MAC-e PDUs to be retransmitted by the UE in a cell
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.HSUPA.PDUNum
Number of successfully received MAC-e PDUs from the UEs in a cell during a measurement period.
VS.HSUPA.RetransPDUNum
Number of MAC-e PDUs to be retransmitted by the UEs in a cell during a measurement period.
Measurement Points The NodeB measures the preceding counters based on the decoding results upon reception of the MAC-e PDUs from the UEs.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.PDUNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None VS.HSUPA.RetransPDUNum
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
HSUPA MAC Thruput in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332551
VS.HSUPA.Thr uput
Total traffic volume of HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the total traffic volume of the MAC-d PDUs successfully received from all HSUPA users in a cell within a measurement period.
Measurement Points The traffic volume of the MAC-d PDUs successfully received from all HSUPA users in a cell is sampled every 100 ms, and the accumulated value is reported. In softer handover scenarios, the throughput is averaged among cells.
Formula None
Unit kbit
Related Features Counter Name
Feature ID
VS.HSUPA.Thruput
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
HSUPA Mac-d TRB data volume in the cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332378
VS.HSUPA.Tra ffic.TRB
HSUPA Mac-d TRB data volume in the cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the traffic volume of HSUPA TRB PDUs in a cell. A DC-HSUPA user is regarded as one HSUPA user in the primary carrier and one HSUPA user in the secondary carrier, and this counter is measured in the two carriers separately.
Measurement Points The traffic volume of Mac-d TRB PDUs successfully received from HSUPA users in the serving cell is accumulated within a measurement period. For a DC-HSUPA user, the corresponding counter is measured in the primary and secondary carriers separately.
Formula None
Unit kbit
Related Features Counter Name
Feature ID
VS.HSUPA.Traffic.TRB
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
Traffic of Mac-e/Mac-i PDUs received from 2 ms TTI HSUPA users in a cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332386
VS.HSUPA. 2msTTI.Traffic
Traffic of Mace/Mac-i PDUs received from 2 ms TTI HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the total traffic of Mac-e/Mac-i PDUs correctly received from all 2 ms TTI HSUPA users.
Measurement Points The traffic of Mac-e/Mac-i PDUs correctly received from 2 ms TTI HSUPA users is sampled in each TTI within a measurement period. At the end of the measurement period, the sum of these sampling results is used as the value of this counter. This counter is measured in the serving cell. If SRB over EDCH is enabled, this counter is not incremented when a UE transmits only SRB data. For DC-HSUPA users, this counter is measured in primary carrier and secondary carrier separately.
Formula None
Unit kbit
Related Features Counter Name
Feature ID
VS.HSUPA.2msTTI.Traffic
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010614
HSUPA Phase 2
LTE: None
Traffic of Mac-e/Mac-i PDUs received from 10 ms TTI HSUPA users in a cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332387
VS.HSUPA. 10msTTI.Traffi c
Traffic of Mace/Mac-i PDUs received from 10 ms TTI HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the total traffic of Mac-e/Mac-i PDUs correctly received from all 10 ms TTI HSUPA users.
Measurement Points The traffic of Mac-e/Mac-i PDUs correctly received from 10 ms TTI HSUPA users is sampled in each TTI within a measurement period. At the end of the measurement period, the sum of these sampling results is used as the value of this counter. This counter is measured in the serving cell. If SRB over EDCH is enabled, this counter is not incremented when a UE transmits only SRB data. For DC-HSUPA users, this counter is measured in primary carrier and secondary carrier separately.
Formula None
Unit kbit
Related Features Counter Name
Feature ID
VS.HSUPA. 10msTTI.Traffic
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612 LTE: None
HSUPA Introduction Package
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Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341876
VS.HSUPA.Thr uput.ROTMor3
Cell throughput of HSUPA users under the 3 dB or above uplink Uu load
BTS3900 WCDMA, BTS3900
U
50341877
VS.HSUPA.Thr uput.ROTMor6
Cell throughput of HSUPA users under the 6 dB or above uplink Uu load
BTS3900 WCDMA, BTS3900
U
50341878
VS.HSUPA.Thr uput.ROTMor7
Cell throughput of HSUPA users under the 7 dB or above uplink Uu load
BTS3900 WCDMA, BTS3900
U
50341879
VS.HSUPA.Thr uput.ROTMor9
Cell throughput of HSUPA users under the 9 dB or above uplink Uu load
BTS3900 WCDMA, BTS3900
U
50341880
VS.HSUPA.Thr uput.ROTMor1 0
Cell throughput of HSUPA users under the 10 dB or above uplink Uu load
BTS3900 WCDMA, BTS3900
U
50341881
VS.HSUPA.Thr uput.ROTMor1 3
Cell throughput of HSUPA users under the 13 dB or above uplink Uu load
BTS3900 WCDMA, BTS3900
U
50341882
VS.HSUPA.Thr uput.ROTMor2 0
Cell throughput of HSUPA users under the 20 dB or above uplink Uu load
BTS3900 WCDMA, BTS3900
U
50341883
VS.HSUPA.Thr uput.ROTAll
Cell throughput of HSUPA users under all uplink Uu loads
BTS3900 WCDMA, BTS3900
U
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Description These counters measure the cell throughput of HSUPA users under different uplink Uu loads. Uu interface load indicates the ratio of the current RTWP to the reference RTWP in a cell.
Measurement Points At the end of a measurement period, the traffic of Mac-e/Mac-i TRBs successfully received from all HSUPA users under different uplink Uu loads is measured in a cell. For DC-HSUPA users or users in handover scenarios, these counters are measured according to the actual traffic in a cell.
Formula None
Unit kbit
Related Features Counter Name
Feature ID
VS.HSUPA.Thruput.ROTMor3
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
VS.HSUPA.Thruput.ROTMor6
GSM: None LTE: None
GSM: None LTE: None
HSUPA Introduction Package
Multi-mode: None GSM: None UMTS: WRFD-010612 LTE: None
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HSUPA Introduction Package
Multi-mode: None UMTS: WRFD-010612
VS.HSUPA.Thruput.ROTMor9
HSUPA Introduction Package
Multi-mode: None UMTS: WRFD-010612
VS.HSUPA.Thruput.ROTMor7
Feature Name
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Counter Name
Feature ID
VS.HSUPA.Thruput.ROTMor10
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None VS.HSUPA.Thruput.ROTMor13
Multi-mode: None GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None VS.HSUPA.Thruput.ROTMor20
Multi-mode: None GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None VS.HSUPA.Thruput.ROTAll
Multi-mode: None GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None
HSUPA MAC Average Throughput in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342552
VS.HSUPA.Me anBitRate
Average throughput of HSUPA users in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the average throughput of MAC-d data flows successfully received from all HSUPA users in a cell within a measurement period.
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Measurement Points Assume that the volume of MAC-d data flows successfully received from all HSUPA users in a cell within a measurement period is A and the length of the measurement period is B. The formula for calculating this counter is: VS.HSUPA.MeanBitRate = A/B. In softer handover scenarios, the throughput is averaged among cells. In soft handover scenarios, the throughput is measured on the basis of the actual traffic volume received in each cell.
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.HSUPA.MeanBitRate
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None
HSUPA MAC Throughput in a Cell During Data Transmission Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342553
VS.HSUPA.Me anBitRate.With Data
Average throughput of HSUPA users in a cell when data is transmitted
BTS3900 WCDMA, BTS3900
U
Description This counter measures the average throughput of MAC-d data flows successfully received from HSUPA users that transmit data in a cell within a measurement period.
Measurement Points Assume that the volume of MAC-d data flows successfully received from all HSUPA users that transmit data in a cell within a measurement period is A and the length of the time when data is Issue 12 (2014-05-30)
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transmitted is B. The formula for calculating this counter is: VS.HSUPA.MeanBitRate.WithData = A/B. In this formula, B is the number of samples when data is transmitted multiplies the sampling period, for example, 100 ms. If the traffic volume of received MAC-d PDUs is 0 within a sampling period, the sampling period is not considered. In softer handover scenarios, the throughput is averaged among cells. In soft handover scenarios, the throughput is measured on the basis of the actual traffic volume received in each cell.
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.HSUPA.MeanBitRate. WithData
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010612
HSUPA Introduction Package
LTE: None
Average/Maximum IC Efficiency in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331892
VS.HSUPA.Ic. MeanEff
Average Efficiency of Interference Cancellation (IC) in a Cell
BTS3900 WCDMA, BTS3900
U
50341858
VS.HSUPA.Ic. MaxEff
Maximum Efficiency of Interference Cancellation (IC) in a Cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the ratio of RTWP difference to RTWP before IC in a measurement period. RTWP difference means RTWP before IC minus RTWP after IC. These Issue 12 (2014-05-30)
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counters represent the total IC efficiency in a cell. The total IC includes stage 1 IC (control channel IC) and stage 2 IC (HSUPA IC).When the MTRU or RRU3801c is used for a cell, the statistics value is 0xffff, which is invalid.
Measurement Points Within the measurement period, the NodeB samples the IC efficiency in each sampling period (5s) and adds up the sampled values. Assume that the sum is A and the number of samples within the measurement period is B. Then, VS.HSUPA.Ic.MeanEff = A/B. The NodeB takes the maximum sampled value within the measurement period as VS.HSUPA.Ic.MaxEff.
Formula None
Unit %
Related Features Counter Name
Feature ID
VS.HSUPA.Ic.MeanEff
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010691 WRFD-010210 WRFD-140202 WRFD-150206 LTE: None
HSUPA UL Interference Cancellation Control Channel Parallel Interference Cancellation (CCPIC) Control Channel Parallel Interference Cancellation (CCPIC) (phase 2) Turbo IC
VS.HSUPA.Ic.MaxEff
Multi-mode: None GSM: None UMTS: WRFD-010691 WRFD-010210 WRFD-140202 WRFD-150206 LTE: None
HSUPA UL Interference Cancellation Control Channel Parallel Interference Cancellation (CCPIC) Control Channel Parallel Interference Cancellation (CCPIC) (phase 2) Turbo IC
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Average/Maximum IC Efficiency of Stage 1 in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331907
VS.CellFirstSta geIcEff.Mean
Average Efficiency of Stage 1 Interference Cancellation (IC) in a Cell
BTS3900 WCDMA
U
50341867
VS.CellFirstSta geIcEff.Max
Maximum Efficiency of Stage 1 Interference Cancellation (IC) in a Cell
BTS3900 WCDMA
U
Description The preceding counters indicate the ratio of RTWP difference to RTWP before IC in a measurement period. RTWP difference means RTWP before IC minus RTWP after stage 1 IC. These counters represent the efficiency of stage 1 IC in a cell. Stage 1 IC indicates the DPCCH IC.When the MTRU or RRU3801c is used for a cell, the statistics value is 0xffff, which is invalid. The counter 50331907 VS.CellFirstStageIcEff.Mean will be deleted and replaced by 50332061 VS.FirstStageIcEff.Mean in later versions. In current version, both the counters take effect but VS.CellFirstStageIcEff.Mean is not recommended. The counter 50341867 VS.CellFirstStageIcEff.Max will be deleted and replaced by 50342048 VS.FirstStageIcEff.Max in later versions. In current version, both the counters take effect but VS.CellFirstStageIcEff.Max is not recommended.
Measurement Points Within the measurement period, the NodeB samples the IC efficiency in each sampling period (5s) and adds up the sampled values. Assume that the sum is A and the number of samples within the measurement period is B. Then, VS.CellFirstStageIcEff.Mean = A/B. The NodeB takes the maximum sampled value within the measurement period as VS.CellFirstStageIcEff.Max.
Formula None Issue 12 (2014-05-30)
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Unit %
Related Features Counter Name
Feature ID
VS.CellFirstStageIcEff.Mea n
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-140202
Control Channel Parallel Interference Cancellation (CCPIC) (phase 2)
LTE: None
VS.CellFirstStageIcEff.Max
Multi-mode: None GSM: None UMTS: WRFD-140202
Control Channel Parallel Interference Cancellation (CCPIC) (phase 2)
LTE: None
Proportion of the Time When FDE is Used in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341856
VS.HSUPA.FD E.UtilizeTimePermillage
Proportion of the time when HSUPA users use the FDE mode in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the ratio of samples with HSUPA users using FDE to the total samples with HSUPA users in a cell during a measurement period.
Measurement Points During a measurement period, the NodeB counts the number of TTIs in which at least one HSUPA user uses FDE. Assume that this value is A. The NodeB counts the number of TTIs in which at least one HSUPA user camps on the cell during the measurement period. Assume that this value is B. Then, VS.HSUPA.FDE.UtilizeTimePermillage = A/B. Issue 12 (2014-05-30)
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Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.HSUPA.FDE.UtilizeTimePermillage
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010692
HSUPA FDE
LTE: None
Proportion of the Time When 16QAM is Used in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341857
VS.HSUPA. 16QAM.Utilize TimePermillage
Proportion of the time when HSUPA users uses the 16QAM mode in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the ratio of samples with HSUPA users using 16QAM to the total samples with HSUPA users in a cell during a measurement period.
Measurement Points During a measurement period, the NodeB counts the number of TTIs in which at least one HSUPA user uses 16QAM. Assume that this value is A. The NodeB counts the number of TTIs in which at least one HSUPA user camps on the cell during the measurement period. Assume that this value is B. Then, VS.HSUPA.16QAM.UtilizeTimePermillage = A/B.
Formula None Issue 12 (2014-05-30)
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Unit per mill
Related Features Counter Name
Feature ID
VS.HSUPA. 16QAM.UtilizeTimePermillage
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010694
UL 16QAM
LTE: None
Proportion of the Time When Boosting is Used in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341859
VS.HSUPA.Bo osting.UtilizeTimeRatio
Ratio of the utilize time of boosting in a cell
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the Boosting usage in a cell during a measurement period.
Measurement Points During a measurement period, the NodeB counts the number of TTIs in which at least one HSUPA user uses Boosting. Assume that this value is A. The NodeB counts the number of TTIs in which at least one HSUPA user camps on the cell during the measurement period. Assume that this value is B. Then, VS.HSUPA.Boosting.UtilizeTimeRatio = A/B.
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.HSUPA.Boosting.UtilizeTimeRatio
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010697
E-DPCCH Boosting
LTE: None
Possibility of the Active Anti-Interference Scheduling Algorithm in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341866
VS.HSUPA.An tiInterfSch.ActRatio
The antiintereference scheduling algrithm active ratio
BTS3900 WCDMA, BTS3900
U
Description The preceding counter indicates the possibility of the active anti-interference scheduling algorithm in a cell during a measurement period.
Measurement Points During a measurement period, the NodeB counts the number of TTIs in which the antiinterference scheduling algorithm is active. Assume that this value is A. The NodeB counts the number of TTIs in which the switch for anti-interference scheduling is turned on during the measurement period. Assume that this value is B. Then, VS.HSUPA.AntiInterfSch.ActRatio = A/B.
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
VS.HSUPA.AntiInterfSch.A ctRatio
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020136
Anti-Interference Scheduling for HSUPA
LTE: None
Time-Division Scheduling Algorithm Validity Probability in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341869
VS.HSUPA.TD MSch.ActRatio
Time-division scheduling algorithm validity probability in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the time-division scheduling algorithm validity probability in a cell.When the time-division scheduling takes effect, the number of time-division scheduling users in the cell is not 0.
Measurement Points The number of periods for valid HSUPA time-division scheduling is sampled every 5 seconds. At the end of a measurement period, for example, 15 minutes, the sum of these sampling results is reported. The time-division scheduling algorithm validity probability is equal to the result of the sum of the sampling results divided by the sampling times.
Formula None
Unit per mill
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Related Features Counter Name
Feature ID
Feature Name
VS.HSUPA.TDMSch.ActRatio
Multi-mode: None GSM: None UMTS: WRFD-150222 LTE: None
HSUPA Time Division Scheduling
2.1.4 CPC Measurements per Local Cell (CPC.LOCELL) Overview The measurement of the Continuous Packet Connectivity (CPC) cell indicates the running status and performance of the CPC cell on a NodeB.
Counters
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Counter ID
Counter Name
Counter Description
Original Release
50331748
VS.CPC.DTXCfg. UserNum
Number of UL_DTX users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50331749
VS.CPC.DTXAct.U serNum
User Numbers with the status of UL_DTX and actived Configuration
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
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Counter ID
Counter Name
Counter Description
Original Release
50331750
VS.CPC.DRXCfg. UserNum
Number of DL_DRX users in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50331751
VS.CPC.DRXAct. UserNum
User Numbers with the status of UL_DRX and actived Configuration
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50331752
VS.CPC.LesOpCfg .SceduledNum
Number of users in Less mode in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
50331753
VS.CPC.LesOpCfg .LesModeNum
Schedule Numbers to the user configured Less opration Mode and actually used less transferred
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R011C 00
Counter Relationship None
Number of UL_DTX Users in a Cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331748
VS.CPC.DTXC fg.UserNum
Number of UL_DTX users in a cell
BTS3900 WCDMA, BTS3900
U
50331749
VS.CPC.DTXA ct.UserNum
User Numbers with the status of UL_DTX and actived Configuration
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter. Counter Name
Description
VS.CPC.DTXCfg.UserNum
Number of UL_DTX users in a cell.
VS.CPC.DTXAct.UserNum
Number of active users in the status of UL_DTX.
Measurement Points During a measurement period, the NodeB counts the number of users configured in UL_DTX mode within each sampling period (5s). Assume that the sum of these numbers within the measurement period is A and the total number of sampling periods within the measurement period is B. Then, VS.CPC.DTXCfg.UserNum = A/B. During a measurement period, the NodeB counts the number of users that are configured in UL_DTX mode and also employ discontinuous transmission in the uplink within each sampling period (5s). Assume that the sum of these numbers within the measurement period is C and the total number of sampling periods within the measurement period is D. Then, VS.CPC.DTXAct.UserNum = C/D. The VS.CPC.DTXCfg.UserNum counter is measured at point E and the VS.CPC.DTXAct.UserNum counter is measured at point F in the following figure:
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Figure 2-6
Formula None
Unit None
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Related Features Counter Name
Feature ID
Feature Name
VS.CPC.DTXCfg.UserNum
Multi-mode: None GSM: None UMTS: WRFD-010686
CPC - DTX / DRX
LTE: None VS.CPC.DTXAct.UserNum
Multi-mode: None GSM: None UMTS: WRFD-010686
CPC - DTX / DRX
LTE: None
Number of DL_DRX Users in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331750
VS.CPC.DRXC fg.UserNum
Number of DL_DRX users in a cell
BTS3900 WCDMA, BTS3900
U
50331751
VS.CPC.DRXA ct.UserNum
User Numbers with the status of UL_DRX and actived Configuration
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter. Counter Name
Description
VS.CPC.DRXCfg.UserNum
Number of DL_DRX users in a cell.
VS.CPC.DRXAct.UserNum
Number of active users in the status of DL_DRX.
Measurement Points During a measurement period, the NodeB counts the number of users configured in DL_DRX mode within each sampling period (5s). Assume that the sum of these numbers within the Issue 12 (2014-05-30)
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measurement period is A and the total number of sampling periods within the measurement period is B. Then, VS.CPC.DRXCfg.UserNum = A/B. During a measurement period, the NodeB counts the number of users that are configured in DL_DRX mode and also employ discontinuous reception in the downlink within each sampling period (5s). Assume that the sum of these numbers within the measurement period is C and the total number of sampling periods within the measurement period is D. Then, VS.CPC.DRXAct.UserNum = C/D. The VS.CPC.DRXCfg.UserNum counter is measured at point E and the VS.CPC.DRXAct.UserNum counter is measured at point F in the following figure: Figure 2-7
Formula None
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Unit None
Related Features Counter Name
Feature ID
Feature Name
VS.CPC.DRXCfg.UserNum
Multi-mode: None GSM: None UMTS: WRFD-010686
CPC - DTX / DRX
LTE: None VS.CPC.DRXAct.UserNum
Multi-mode: None GSM: None UMTS: WRFD-010686
CPC - DTX / DRX
LTE: None
Number of Users in HS-SCCH-Less Mode in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331752
VS.CPC.LesOp Cfg.SceduledN um
Number of users in Less mode in a cell
BTS3900 WCDMA, BTS3900
U
50331753
VS.CPC.LesOp Cfg.LesModeN um
Schedule Numbers to the user configured Less opration Mode and actually used less transferred
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.CPC.LesOpCfg.SceduledNum
Total number of times all the users in HSSCCH-less mode in a cell are scheduled during a measurement period.
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Counter Name
Description
VS.CPC.LesOpCfg.LesModeNum
Total number of times all the users in HSSCCH-less mode in a cell are scheduled and perform the HS-SCCH-less operation during a measurement period.
Measurement Points The NodeB takes statistics about the preceding counters when MAC-hs/MAC-ehs scheduling is complete.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.CPC.LesOpCfg.SceduledNum
Multi-mode: None GSM: None UMTS: WRFD-010687 LTE: None
VS.CPC.LesOpCfg.LesModeNum
Feature Name
CPC - HS-SCCH less operation
Multi-mode: None GSM: None UMTS: WRFD-010687 LTE: None
CPC - HS-SCCH less operation
2.1.5 ERACH Measurements per Local Cell (ERACH.LOCELL) Overview ERACH related information report.
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Counters Counter ID
Counter Name
Counter Description
Original Release
50332250
VS.ERACH.Occup iedNum.Mean
Mean used Common E-DCH number in one cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332251
VS.ERACH.Occup iedNum.Max
Max used Common E-DCH number in one cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332410
VS.ERACH.Thrup ut
Throughput of ERACH users at the Mac-i layer in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332411
VS.ERACH.DataTtiNum
Number of TTIs in which E-RACH users have data to transmit in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None
Number of used common E-DCHs in a cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332250
VS.ERACH.Oc cupiedNum.Me an
Mean used Common EDCH number in one cell
BTS3900 WCDMA, BTS3900
U
50332251
VS.ERACH.Oc cupiedNum.Ma x
Max used Common EDCH number in one cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of used common E-DCHs in a cell.
Measurement Points The number of used common E-DCHs in a cell is sampled every five seconds. At the end of a measurement period, the average number of used common E-DCHs is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of used common E-DCHs in a cell.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.ERACH.OccupiedNum. Mean
Multi-mode: None GSM: None UMTS: WRFD-010701 LTE: None
Issue 12 (2014-05-30)
Feature Name
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
Uplink Enhanced CELL_FACH
556
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Counter Name
Feature ID
VS.ERACH.OccupiedNum. Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010701
Uplink Enhanced CELL_FACH
LTE: None
Throughput of E-RACH users at the Mac-i layer in a cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332410
VS.ERACH.Th ruput
Throughput of E-RACH users at the Mac-i layer in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the throughput of E-RACH users at the Mac-i layer within a measurement period in a cell.
Measurement Points This counter measures the total throughput of all E-RACH users at the Mac-i layer within a measurement period.
Formula None
Unit bit
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3900 Series Base Station Performance Counter Reference
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Related Features Counter Name
Feature ID
VS.ERACH.Thruput
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010701
Uplink Enhanced CELL_FACH
LTE: None
Number of TTIs in which E-RACH users have data to transmit in a cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332411
VS.ERACH.Da taTtiNum
Number of TTIs in which ERACH users have data to transmit in a cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of TTIs in which E-RACH users have data to transmit within a measurement period in a cell.
Measurement Points This counter measures the total number of TTIs in which E-RACH users have data to transmit within a measurement period in a cell. If multiple E-RACH users have data to transmit within a measurement period, this counter is incremented accordingly. For 2 ms TTI HSUPA users, this counter is measured once. For 10 ms TTI HSUPA users, this counter is measured five times.
Formula None
Unit None
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3900 Series Base Station Performance Counter Reference
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Related Features Counter Name
Feature ID
Feature Name
VS.ERACH.DataTtiNum
Multi-mode: None GSM: None UMTS: WRFD-010701 LTE: None
Uplink Enhanced CELL_FACH
2.1.6 SCCPCH Measurements per Local Cell (SCCPCH.LOCELL) Overview SCCPCH related information report.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332048
VS.FPNum.Receive d.FACH
Number of FACH FP frames correctly received in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332049
VS.FPNum.Discar ded.FACH
Number of FACH FP frames discarded in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332050
VS.FPNum.Receive d.PCH
Number of PCH FP frames correctly received in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332051
VS.FPNum.Discar ded.PCH
Number of PCH FP frames discarded in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
Counter Relationship None
Statistics on Received and Discarded FACH FP Frames in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332048
VS.FPNum.Rec eived.FACH
Number of FACH FP frames correctly received in a cell
BTS3900 WCDMA, BTS3900
U
50332049
VS.FPNum.Dis carded.FACH
Number of FACH FP frames discarded in a cell
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter. Issue 12 (2014-05-30)
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Counter Name
Description
VS.FPNum.Received.FACH
Number of FACH FP frames correctly received on the SCCPCH in a cell.
VS.FPNum.Discarded.FACH
Number of discarded FACH FP frames on the SCCPCH in a cell. These frames are discarded because of CRC errors, invalid parameters, too-early frame arrival, or toolate frame arrival.
Measurement Points VS.FPNum.Received.FACH is measured at point A. VS.FPNum.Discarded.FACH is measured at point B. See the following figure: Figure 2-8
Formula None
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Unit None
Related Features Counter Name
Feature ID
Feature Name
VS.FPNum.Received.FACH
Multi-mode: None GSM: None UMTS: WRFD-022000
Physical Channel Management
LTE: None VS.FPNum.Discarded.FAC H
Multi-mode: None GSM: None UMTS: WRFD-022000
Physical Channel Management
LTE: None
Statistics on Received and Discarded PCH FP Frames in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332050
VS.FPNum.Rec eived.PCH
Number of PCH FP frames correctly received in a cell
BTS3900 WCDMA, BTS3900
U
50332051
VS.FPNum.Dis carded.PCH
Number of PCH FP frames discarded in a cell
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.FPNum.Received.PCH
Number of PCH FP frames correctly received on the SCCPCH in a cell.
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Counter Name
Description
VS.FPNum.Discarded.PCH
Number of discarded PCH FP frames on the SCCPCH in a cell. These frames are discarded because of CRC errors, invalid parameters, too-early frame arrival, or toolate frame arrival.
Measurement Points VS.FPNum.Received.PCH is measured at point A. VS.FPNum.Discarded.PCH is measured at point B. See the following figure: Figure 2-9
Formula None
Unit None Issue 12 (2014-05-30)
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3900 Series Base Station Performance Counter Reference
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Related Features Counter Name
Feature ID
Feature Name
VS.FPNum.Received.PCH
Multi-mode: None GSM: None UMTS: WRFD-022000 LTE: None
VS.FPNum.Discarded.PCH
Physical Channel Management
Multi-mode: None GSM: None UMTS: WRFD-022000 LTE: None
Physical Channel Management
2.1.7 DCH Measurement per local cell (DCH.LOCELL) Overview DCH related information report.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332052
VS.FPNum.Discar ded.DCH
Number of downlink DCH FP frames discarded in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
50332053
VS.FPNum.Late.D CH
Number of downlink DCH FP frames late received in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332054
VS.FPNum.Receive d.DCH
Number of downlink DCH FP frames correctly received in a cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R013C 00
Counter Relationship None
Statistics on Received and Discarded Downlink DCH FP Frames in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332052
VS.FPNum.Dis carded.DCH
Number of downlink DCH FP frames discarded in a cell
BTS3900 WCDMA, BTS3900
U
50332053
VS.FPNum.Lat e.DCH
Number of downlink DCH FP frames late received in a cell
BTS3900 WCDMA, BTS3900
U
50332054
VS.FPNum.Rec eived.DCH
Number of downlink DCH FP frames correctly received in a cell
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.FPNum.Discarded.DCH
Number of discarded downlink DCH FP frames in a cell. These frames are discarded because of CRC errors, invalid parameters, too-early frame arrival, or too-late frame arrival.
VS.FPNum.Late.DCH
Number of downlink DCH FP frames received later than expected (after ToAWE but before LTOA) in a cell.
VS.FPNum.Received.DCH
Number of downlink DCH FP frames correctly received in a cell.
Measurement Points VS.FPNum.Discarded.DCH and VS.FPNum.Late.DCH are measured at point B. VS.FPNum.Received.DCH is measured at point A. See the following figure: Figure 2-10
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Formula None
Unit None
Related Features Counter Name
Feature ID
VS.FPNum.Discarded.DCH
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021000 LTE: None VS.FPNum.Late.DCH
Transport Channel Management
Multi-mode: None GSM: None UMTS: WRFD-021000 LTE: None
VS.FPNum.Received.DCH
Transport Channel Management
Multi-mode: None GSM: None UMTS: WRFD-021000 LTE: None
Transport Channel Management
2.1.8 Algorithm Measurement per local cell (ALGO.LOCELL) Overview Algorithm related information report.
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3900 Series Base Station Performance Counter Reference
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Counters Counter ID
Counter Name
Counter Description
Original Release
50332258
VS.PLVA.User
Numbers of plva user in one cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331917
VS.ValidAntRatio. Mean
Average ratio of the number of valid antennas to the number of configured antennas
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332061
VS.FirstStageIcEff. Mean
Average value of stage 1 interference cancellation efficiency
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342048
VS.FirstStageIcEff. Max
Maximum value of stage 1 interference cancellation efficiency
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None
User Number of PLVA in the local cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332258
VS.PLVA.User
Numbers of plva user in one cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of users enabled with AMR voice quality improvement based on PLVA in a cell.
Measurement Points This counter is sampled every five seconds. Assume that the total number of users enabled with AMR voice quality improvement based on PLVA in a cell is A, and the number of samples is B. VS.PLVA.UserNum = A/B.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.PLVA.User
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-140201 LTE: None
AMR Voice Quality Improvement Based on PLVA
Average Ratio of the Number of Valid Antennas to the Number of Configured Antennas
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331917
VS.ValidAntRa tio.Mean
Average ratio of the number of valid antennas to the number of configured antennas
BTS3900 WCDMA, BTS3900
U
Description This counter measures the average ratio of the number of valid antennas to the number of configured antennas. This counter will be measured regardless of whether Anti-imbalance in the Interference of the Different Antenna is enabled. In one of the following scenarios, the counter is not measured and is directly reported as 1000: Multiple RRUs share one cell, for example, in 0.5/0.5 configuration mode, distributed sector configuration mode (digital combination and split), and cell with independent demodulation of signals from multiple RRUs in one cell mode. 20 W RRU3801Cs are configured. Cells are created on the WBBPa board.
Measurement Points This counter is sampled every 5 seconds and measures the ratio of the number of valid antennas to the number of configured antennas. The accumulated value is A, and the number of samples is B. The formula for calculating the counter is as follows: VS.ValidAntRatio.Mean=A/B.
Formula None
Unit per mill
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3900 Series Base Station Performance Counter Reference
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Related Features Counter Name
Feature ID
Feature Name
VS.ValidAntRatio.Mean
Multi-mode: MRFD-210604
2-Way Antenna Receive Diversity
GSM: None UMTS: WRFD-010209
4-Antenna Receive Diversity
LTE: None
Average/Maximum Efficiency of Stage 1 Interference Cancellation (IC) in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332061
VS.FirstStageIc Eff.Mean
Average value of stage 1 interference cancellation efficiency
BTS3900 WCDMA, BTS3900
U
50342048
VS.FirstStageIc Eff.Max
Maximum value of stage 1 interference cancellation efficiency
BTS3900 WCDMA, BTS3900
U
Description This counter measures the ratio of the RTWP difference to the RTWP before interference cancellation (IC) within a measurement period, reflecting stage 1 IC efficiency. The stage 1 IC refers to the DPCCH IC. If the MTRU or RRU3801c is used, an invalid value 0xffff is displayed.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the accumulated IC efficiency is A, and the accumulated number of samples is B. The formula for calculating this counter is: VS.FirstStageIcEff.Mean = A/B. VS.FirstStageIcEff.Max measures the maximum IC efficiency.
Formula None Issue 12 (2014-05-30)
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Unit %
Related Features Counter Name
Feature ID
Feature Name
VS.FirstStageIcEff.Mean
Multi-mode: None GSM: None UMTS: WRFD-140202 LTE: None
VS.FirstStageIcEff.Max
Control Channel Parallel Interference Cancellation (CCPIC) (phase 2)
Multi-mode: None GSM: None UMTS: WRFD-140202 LTE: None
Control Channel Parallel Interference Cancellation (CCPIC) (phase 2)
2.1.9 Reserved Measurements per local cell (CELLRESERVE.LOCELL) Overview Measurements reserved for local cells.Reserved counter is used temporarily in patch versions and will be replaced with a new counter in later versions. For the detailed information about used reserved counters, see the "Used Reserved Counter List" of the corresponding version.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50331740
VS.CellReserve.Co unter1
Reserved 1 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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3900 Series Base Station Performance Counter Reference
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2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331741
VS.CellReserve.Co unter2
Reserved 2 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331742
VS.CellReserve.Co unter3
Reserved 3 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331743
VS.CellReserve.Co unter4
Reserved 4 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331744
VS.CellReserve.Co unter5
Reserved 5 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331909
VS.CellReserve.Co unter6
Reserved 6 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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3900 Series Base Station Performance Counter Reference
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2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50331910
VS.CellReserve.Co unter7
Reserved 7 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331911
VS.CellReserve.Co unter8
Reserved 8 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331912
VS.CellReserve.Co unter9
Reserved 9 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50331913
VS.CellReserve.Co unter10
Reserved 10 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332381
VS.CellReserve.Co unter11
Reserved 11 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332382
VS.CellReserve.Co unter12
Reserved 12 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332576
VS.CellReserve.Co unter13
Reserved 13 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332577
VS.CellReserve.Co unter14
Reserved 14 in the cell
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
Counter Relationship None
Reserved 1 in the cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331740
VS.CellReserve .Counter1
Reserved 1 in the cell
BTS3900 WCDMA, BTS3900
U
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Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter1
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 2 in the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331741
VS.CellReserve .Counter2
Reserved 2 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.CellReserve.Counter2
None.
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Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 3 in the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331742
VS.CellReserve .Counter3
Reserved 3 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter3
None.
Measurement Points None.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features None
Reserved 4 in the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331743
VS.CellReserve .Counter4
Reserved 4 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter4
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 5 in the cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331744
VS.CellReserve .Counter5
Reserved 5 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter5
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 6 in the cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331909
VS.CellReserve .Counter6
Reserved 6 in the cell
BTS3900 WCDMA, BTS3900
U
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Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter6
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 7 in the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331910
VS.CellReserve .Counter7
Reserved 7 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.CellReserve.Counter7
None.
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3900 Series Base Station Performance Counter Reference
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Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 8 in the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331911
VS.CellReserve .Counter8
Reserved 8 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter8
None.
Measurement Points None.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features None
Reserved 9 in the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331912
VS.CellReserve .Counter9
Reserved 9 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter9
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 10 in the cell
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50331913
VS.CellReserve .Counter10
Reserved 10 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter10
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 11 in the cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332381
VS.CellReserve .Counter11
Reserved 11 in the cell
BTS3900 WCDMA, BTS3900
U
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Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter11
None.
Measurement Points None
Formula None
Unit None
Related Features None
Reserved 12 in the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332382
VS.CellReserve .Counter12
Reserved 12 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.CellReserve.Counter12
None.
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Measurement Points None
Formula None
Unit None
Related Features None
Reserved 13 in the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332576
VS.CellReserve .Counter13
Reserved 13 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter13
None.
Measurement Points None.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features None
Reserved 14 in the cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332577
VS.CellReserve .Counter14
Reserved 14 in the cell
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.CellReserve.Counter14
None.
Measurement Points None.
Formula None
Unit None
Related Features None
2.1.10 Measurement of locell power (POWER.LOCELL) Overview Measurement of locell power. Issue 12 (2014-05-30)
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586
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332278
VS.DPCCH.R99.P OWER
DPCCH uplink power load of R99 services in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332279
VS.DPDCH.R99. POWER
DPDCH uplink power load of R99 services in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332280
VS.HSDPCCH.PO WER
HSDPCCH uplink power load of HSDPA services in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332281
VS.DPCCH. 10ms.POWER
DPCCH uplink power load of 10 ms TTI HSUPA services in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332282
VS.DPCCH. 2ms.POWER
DPCCH uplink power load of 2 ms TTI HSUPA services in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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587
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332283
VS.EDPCCH. 10ms.POWER
EDPCCH uplink power load of 10 ms TTI HSUPA services in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332284
VS.EDPCCH. 2ms.POWER
EDPCCH uplink power load of 2 ms TTI HSUPA services in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332285
VS.EDPDCH. 10ms.POWER
EDPDCH uplink power load of 10 ms TTI HSUPA services in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332286
VS.EDPDCH. 2ms.POWER
EDPDCH uplink power load of 2 ms TTI HSUPA services in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332055
VS.DlPwrRatio.SF 256
Average ratio of SF 256 downlink code channel transmit power to the maximum downlink transmit power in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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588
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332056
VS.DlPwrRatio.SF 128
Average ratio of SF 128 downlink code channel transmit power to the maximum downlink transmit power in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332057
VS.DlPwrRatio.SF 64
Average ratio of SF 64 downlink code channel transmit power to the maximum downlink transmit power in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332058
VS.DlPwrRatio.SF 32
Average ratio of SF 32 downlink code channel transmit power to the maximum downlink transmit power in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332059
VS.DlPwrRatio.SF 16
Average ratio of SF 16 downlink code channel transmit power to the maximum downlink transmit power in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332060
VS.DlPwrRatio.SF 8
Average ratio of SF 8 downlink code channel transmit power to the maximum downlink transmit power in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None Issue 12 (2014-05-30)
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589
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Uplink power loads of different services in a cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332278
VS.DPCCH.R9 9.POWER
DPCCH uplink power load of R99 services in a cell
BTS3900 WCDMA, BTS3900
U
50332279
VS.DPDCH.R9 9. POWER
DPDCH uplink power load of R99 services in a cell
BTS3900 WCDMA, BTS3900
U
50332280
VS.HSDPCCH. POWER
HSDPCCH uplink power load of HSDPA services in a cell
BTS3900 WCDMA, BTS3900
U
50332281
VS.DPCCH. 10ms.POWER
DPCCH uplink power load of 10 ms TTI HSUPA services in a cell
BTS3900 WCDMA, BTS3900
U
50332282
VS.DPCCH. 2ms.POWER
DPCCH uplink power load of 2 ms TTI HSUPA services in a cell
BTS3900 WCDMA, BTS3900
U
50332283
VS.EDPCCH. 10ms.POWER
EDPCCH uplink power load of 10 ms TTI HSUPA services in a cell
BTS3900 WCDMA, BTS3900
U
50332284
VS.EDPCCH. 2ms.POWER
EDPCCH uplink power load of 2 ms TTI HSUPA services in a cell
BTS3900 WCDMA, BTS3900
U
50332285
VS.EDPDCH. 10ms.POWER
EDPDCH uplink power load of 10 ms TTI HSUPA services in a cell
BTS3900 WCDMA, BTS3900
U
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590
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332286
VS.EDPDCH. 2ms.POWER
EDPDCH uplink power load of 2 ms TTI HSUPA services in a cell
BTS3900 WCDMA, BTS3900
U
Description These counter measures the uplink power loads of different services over control channels or data channels within a measurement period in a cell. The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.DPCCH.R99.POWER
This counter measures the ratio of DPCCH uplink power of R99 users to the total uplink power.
VS.DPDCH.R99. POWER
This counter measures the ratio of DPDCH uplink power of R99 users to the total uplink power.
VS.HSDPCCH.POWER
This counter measures the ratio of HSDPCCH uplink power of HSDPA users to the total uplink power, including only the CQI load, not ACK/NACK load.
VS.DPCCH.10ms.POWER
This counter measures the ratio of DPCCH uplink power of 10 ms TTI HSUPA users to the total uplink power.
VS.DPCCH.2ms.POWER
This counter measures the ratio of DPCCH uplink power of 2 ms TTI HSUPA users to the total uplink power.
VS.EDPCCH.10ms.POWER
This counter measures the ratio of EDPCCH uplink power of 10 ms TTI HSUPA users to the total uplink power.
VS.EDPCCH.2ms.POWER
This counter measures the ratio of EDPCCH uplink power of 2 ms TTI HSUPA users to the total uplink power.
VS.EDPDCH.10ms.POWER
This counter measures the ratio of EDPDCH uplink power of 10 ms TTI HSUPA users to the total uplink power.
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591
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter Name
Description
VS.EDPDCH.2ms.POWER
This counter measures the ratio of EDPDCH uplink power of 2 ms TTI HSUPA users to the total uplink power.
Measurement Points This counter is sampled every 100 ms and measures the uplink power loads of different services over control channels or data channels within a measurement period. The accumulated value is A, and the number of samples is B. At the end of the measurement period, the uplink power loads of different services over control channels or data channels are calculated by dividing A by B.
Formula None
Unit per mill
Related Features None
Average Ratio of DPCH and F-DPCH Transmit Power over Different SF Code Channels to the Maximum Downlink Transmit Power in a Cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332055
VS.DlPwrRatio .SF256
Average ratio of SF 256 downlink code channel transmit power to the maximum downlink transmit power in a cell
BTS3900 WCDMA, BTS3900
U
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592
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332056
VS.DlPwrRatio .SF128
Average ratio of SF 128 downlink code channel transmit power to the maximum downlink transmit power in a cell
BTS3900 WCDMA, BTS3900
U
50332057
VS.DlPwrRatio .SF64
Average ratio of SF 64 downlink code channel transmit power to the maximum downlink transmit power in a cell
BTS3900 WCDMA, BTS3900
U
50332058
VS.DlPwrRatio .SF32
Average ratio of SF 32 downlink code channel transmit power to the maximum downlink transmit power in a cell
BTS3900 WCDMA, BTS3900
U
50332059
VS.DlPwrRatio .SF16
Average ratio of SF 16 downlink code channel transmit power to the maximum downlink transmit power in a cell
BTS3900 WCDMA, BTS3900
U
50332060
VS.DlPwrRatio .SF8
Average ratio of SF 8 downlink code channel transmit power to the maximum downlink transmit power in a cell
BTS3900 WCDMA, BTS3900
U
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593
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Description These counters measure the average ratio of DPCH and F-DPCH transmit power over different SF code channels to the maximum downlink transmit power in a cell.
Measurement Points The average permillage of DPCH and F-DPCH transmit power over different SF downlink code channels to the maximum downlink transmit power in a cell is sampled every 200 ms. At the end of a measurement period, the accumulated permillage is A, and the number of samples is B. The formula for calculating this counter is A/B. If the cell is configured on the WBBPa board, the value of this counter is 0.
Formula None
Unit per mill
Related Features None
2.1.11 EFACH Measurements per Local Cell (EFACH.LOCELL) Overview E-FACH related information report.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332163
VS.EFACH.AckTti Num
Number of TTIs in Which the NodeB Receives ACKs from E-FACH Users in a Cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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594
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332164
VS.EFACH.NackT tiNum
Number of TTIs in Which the NodeB Receives NACKs from E-FACH Users in a Cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332165
VS.EFACH.DtxTti Num
Number of TTIs in Which the NodeB Does Not Receive ACKs or NACKs from E-FACH Users in a Cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332162
VS.EFACH.DataTtiNum
Number of TTIs in Which E-FACH Users Have Data to Transmit in a Cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332161
VS.EFACH.Thrup ut
E-FACH User Throughput at the MAC-ehs Layer in a Cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341718
VS.EFACH.ScchP wrRatio.Mean
Average HS-SCCH transmit power of all E-FACH users in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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595
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50341719
VS.EFACH.ScchP wrRatio.Max
Maximum HSSCCH transmit power of all E-FACH users in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341720
VS.EFACH.Pdsch PwrRatio.Mean
Average HS-PDSCH transmit power of all E-FACH users in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50341721
VS.EFACH.Pdsch PwrRatio.Max
Maximum HSPDSCH transmit power of all E-FACH users in a cell
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None
E-FACH HARQ Distributing in a Cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332163
VS.EFACH.Ac kTtiNum
Number of TTIs in Which the NodeB Receives ACKs from E-FACH Users in a Cell
BTS3900 WCDMA, BTS3900
U
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596
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332164
VS.EFACH.Na ckTtiNum
Number of TTIs in Which the NodeB Receives NACKs from EFACH Users in a Cell
BTS3900 WCDMA, BTS3900
U
50332165
VS.EFACH.Dt xTtiNum
Number of TTIs in Which the NodeB Does Not Receive ACKs or NACKs from EFACH Users in a Cell
BTS3900 WCDMA, BTS3900
U
Description These counters measure the number of TTIs in which the NodeB does not receive ACKs or NACKs and receives ACKs and NACKs from E-FACH users over the HS-DPCCH in a cell. The following table describes the meanings of each counter. Counter Name
Description
VS.EFACH.AckTtiNum
This counter measures the number of TTIs in which the NodeB receives ACKs from EFACH users over the HS-DPCCH in a cell.
VS.EFACH.NackTtiNum
This counter measures the number of TTIs in which the NodeB receives NACKs from EFACH users over the HS-DPCCH in a cell.
VS.EFACH.DtxTtiNum
This counter measures the number of TTIs in which the NodeB does not receive ACKs or NACKs from these E-FACH users over the HS-DPCCH in a cell.
Measurement Points The number of TTIs in which the NodeB does not receive ACKs or NACKs or receives ACKs or NACKs from E-FACH users over the HS-DPCCH is sampled every 2 ms. At the end of a measurement period, the sum of these sampling results is used as the value of the corresponding counter. The corresponding counter will be measured repeatedly if the NodeB does not receive ACKs or NACKs or receives ACKs or NACKs from more than one E-FACH user within a TTI. Issue 12 (2014-05-30)
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597
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.EFACH.AckTtiNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010701
Uplink Enhanced CELL_FACH
LTE: None VS.EFACH.NackTtiNum
Multi-mode: None GSM: None UMTS: WRFD-010701
Uplink Enhanced CELL_FACH
LTE: None VS.EFACH.DtxTtiNum
Multi-mode: None GSM: None UMTS: WRFD-010701
Uplink Enhanced CELL_FACH
LTE: None
Number of TTIs in Which E-FACH Users Have Data to Transmit in a Cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332162
VS.EFACH.Dat aTtiNum
Number of TTIs in Which EFACH Users Have Data to Transmit in a Cell
BTS3900 WCDMA, BTS3900
U
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598
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Description This counter measures the number of TTIs in which E-FACH users have data to transmit in a cell.This counter needs to be measured repeatedly if more than one E-FACH user have data to transmit within a TTI.
Measurement Points The number of TTIs in which E-FACH users have data to transmit is sampled every 2 ms. At the end of a measurement period, the sum of these sampling results is used as the value of this counter.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.EFACH.DataTtiNum
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010701
Uplink Enhanced CELL_FACH
LTE: None
E-FACH User Throughput at the MAC-ehs Layer in a Cell Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332161
VS.EFACH.Thr uput
E-FACH User Throughput at the MAC-ehs Layer in a Cell
BTS3900 WCDMA, BTS3900
U
Description This counter measures the E-FACH user throughput at the MAC-ehs layer in a cell. Issue 12 (2014-05-30)
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599
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Measurement Points The scheduling traffic volume of E-FACH users in a cell are accumulated within a measurement period. The scheduling traffic volume includes the ACK scheduling traffic volume when EFACH users have HS-DPCCH feedbacks and the traffic volume of initial transmission when EFACH users have no HS-DPCCH feedbacks.
Formula None
Unit bit
Related Features Counter Name
Feature ID
VS.EFACH.Thruput
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010701
Uplink Enhanced CELL_FACH
LTE: None
Average HS-SCCH transmit power of all E-FACH users in a cell Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341718
VS.EFACH.Scc hPwrRatio.Mea n
Average HSSCCH transmit power of all EFACH users in a cell
BTS3900 WCDMA, BTS3900
U
50341719
VS.EFACH.Scc hPwrRatio.Max
Maximum HSSCCH transmit power of all EFACH users in a cell
BTS3900 WCDMA, BTS3900
U
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600
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Description These counters measures the average and maximum HS-SCCH transmit power of all E-FACH users in a cell.
Measurement Points The permillage of HS-SCCH transmit power for all E-FACH users to the maximum cell transmit power is sampled every 2 ms. At the end of a measurement period, the accumulated permillage is A, and the number of TTIs is B. The formula for calculating VS.EFACH.ScchPwrRatio.Mean is: VS.EFACH.ScchPwrRatio.Mean = A/B. This counter is sampled every five seconds. At the end of a measurement period, the maximum sampling results is used as the value of VS.EFACH.ScchPwrRatio.Max.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.EFACH.ScchPwrRatio. Mean
Multi-mode: None GSM: None UMTS: WRFD-010701 LTE: None
VS.EFACH.ScchPwrRatio. Max
Feature Name
Uplink Enhanced CELL_FACH
Multi-mode: None GSM: None UMTS: WRFD-010701 LTE: None
Uplink Enhanced CELL_FACH
Average HS-PDSCH transmit power of all E-FACH users in a cell
Issue 12 (2014-05-30)
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601
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50341720
VS.EFACH.Pds chPwrRatio.Me an
Average HSPDSCH transmit power of all E-FACH users in a cell
BTS3900 WCDMA, BTS3900
U
50341721
VS.EFACH.Pds chPwrRatio.Ma x
Maximum HSPDSCH transmit power of all E-FACH users in a cell
BTS3900 WCDMA, BTS3900
U
Description These counters measures the average and maximum HS-PDSCH transmit power of all E-FACH users in a cell.
Measurement Points The permillage of HS-PDSCH transmit power for all E-FACH users to the maximum cell transmit power is sampled every 2 ms. At the end of a measurement period, the accumulated permillage is A, and the number of TTIs is B. The formula for calculating VS.EFACH.PdschPwrRatio.Mean is: VS.EFACH.PdschPwrRatio.Mean = A/B. This counter is sampled every five seconds. At the end of a measurement period, the maximum sampling results is used as the value of VS.EFACH.PdschPwrRatio.Max.
Formula None
Unit per mill
Related Features Counter Name
Feature ID
VS.EFACH.PdschPwrRatio. Mean
Multi-mode: None GSM: None UMTS: WRFD-010701 LTE: None
Issue 12 (2014-05-30)
Feature Name
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
Uplink Enhanced CELL_FACH
602
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter Name
Feature ID
Feature Name
VS.EFACH.PdschPwrRatio. Max
Multi-mode: None GSM: None UMTS: WRFD-010701 LTE: None
Uplink Enhanced CELL_FACH
2.2 NodeB (NodeB) Overview The object type "NODEB" contains four function subsets: "IUB.NODEB","TRAFFIC.NODEB","NBAP.NODEB" and "NODEBRESERVE.NODEB".
FunctionSubSets FunctionSubSet
FunctionSubSet Name
IUB.NODEB
IUB measurements per NodeB
TRAFFIC.NODEB
NodeB Hardware Baseband Resource Measurement
NBAP.NODEB
NodeB NBAP procedure measurement
NODEBRESERVE.NODEB
Reserved measurements per NodeB
EQUIPMENT.NODEB
EQUIPMENT measurements per NodeB
2.2.1 IUB measurements per NodeB (IUB.NODEB) Overview The measurement of the NodeB Iub traffic indicates the traffic and performance on the physical ports of the NodeB that serve the Iub interface.
Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
603
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332578
VS.AttRLSETUP. MEAN
The average number of RL Setup Request per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332579
VS.AttRLADD.ME AN
The average number of RL Add Request per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332580
VS.AttRLRecfg.M EAN
The average number of RL Reconfiguration Preparation Request per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332581
VS.DedicMeaRpt. MEAN
The average number of Dedicated Measurement Reporting per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
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604
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332673
VS.ATMUlTotal.1
ATM physical port_1 uplink total bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332674
VS.ATMUlMaxUse d.1
ATM physical port_1 uplink maximum used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332675
VS.ATMUlAvgUse d.1
ATM physical port_1 uplink average used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332676
VS.ATMDlTotal.1
ATM physical port_1 downlink total bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332677
VS.ATMDlMaxUse d.1
ATM physical port_1 downlink maximum used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
605
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332678
VS.ATMDlAvgUse d.1
ATM physical port_1 downlink average used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332679
VS.IPUlTotal.1
IP physical port_1 uplink total bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332680
VS.IPUlMaxUsed.1
IP physical port_1 uplink maximum used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332681
VS.IPUlAvgUsed.1
IP physical port_1 uplink average used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
606
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332682
VS.IPDlTotal.1
IP physical port_1 downlink total bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332683
VS.IPDlMaxUsed.1
IP physical port_1 downlink maximum used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332684
VS.IPDlAvgUsed.1
IP physical port_1 downlink average used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332685
VS.ATMUlTotal.2
ATM physical port_2 uplink total bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
607
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332686
VS.ATMUlMaxUse d.2
ATM physical port_2 uplink maximum used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332687
VS.ATMUlAvgUse d.2
ATM physical port_2 uplink average used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332688
VS.ATMDlTotal.2
ATM physical port_2 downlink total bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332689
VS.ATMDlMaxUse d.2
ATM physical port_2 downlink maximum used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332690
VS.ATMDlAvgUse d.2
ATM physical port_2 downlink average used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
608
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332691
VS.IPUlTotal.2
IP physical port_2 uplink total bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332692
VS.IPUlMaxUsed.2
IP physical port_2 uplink maximum used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332693
VS.IPUlAvgUsed.2
IP physical port_2 uplink average used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332694
VS.IPDlTotal.2
IP physical port_2 downlink total bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
609
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332695
VS.IPDlMaxUsed.2
IP physical port_2 downlink maximum used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332696
VS.IPDlAvgUsed.2
IP physical port_2 downlink average used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332697
VS.ATMUlTotal.3
ATM physical port_3 uplink total bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332698
VS.ATMUlMaxUse d.3
ATM physical port_3 uplink maximum used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
610
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332699
VS.ATMUlAvgUse d.3
ATM physical port_3 uplink average used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332700
VS.ATMDlTotal.3
ATM physical port_3 downlink total bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332701
VS.ATMDlMaxUse d.3
ATM physical port_3 downlink maximum used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332702
VS.ATMDlAvgUse d.3
ATM physical port_3 downlink average used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
611
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332703
VS.IPUlTotal.3
IP physical port_3 uplink total bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332704
VS.IPUlMaxUsed.3
IP physical port_3 uplink maximum used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332705
VS.IPUlAvgUsed.3
IP physical port_3 uplink average used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332706
VS.IPDlTotal.3
IP physical port_3 downlink total bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
612
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332707
VS.IPDlMaxUsed.3
IP physical port_3 downlink maximum used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332708
VS.IPDlAvgUsed.3
IP physical port_3 downlink average used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332709
VS.ATMUlTotal.4
ATM physical port uplink total bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332710
VS.ATMUlMaxUse d.4
ATM physical port_4 uplink maximum used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
613
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332711
VS.ATMUlAvgUse d.4
ATM physical port_4 uplink average used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332712
VS.ATMDlTotal.4
ATM physical port_4 downlink total bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332713
VS.ATMDlMaxUse d.4
ATM physical port_4 downlink maximum used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332714
VS.ATMDlAvgUse d.4
ATM physical port_4 downlink average used bandwidth
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
614
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332715
VS.IPUlTotal.4
IP physical port_4 uplink total bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332716
VS.IPUlMaxUsed.4
IP physical port_4 uplink maximum used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332717
VS.IPUlAvgUsed.4
IP physical port_4 uplink average used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332718
VS.IPDlTotal.4
IP physical port_4 downlink total bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
615
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332719
VS.IPDlMaxUsed.4
IP physical port_4 downlink maximum used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332720
VS.IPDlAvgUsed.4
IP physical port_4 downlink average used bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332721
VS.IUB.FlowCtrol. UL.AdjBW.LgcPor t1.Max
IUB logic port_1 maximum UL available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332722
VS.IUB.FlowCtrol. UL.AdjBW.LgcPor t1.Min
IUB logic port_1 minimum UL available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
616
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332723
VS.IUB.FlowCtrol. UL.AdjBW.LgcPor t1.Avg
IUB logic port_1 average UL available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332724
VS.IUB.FlowCtrol. DL.AdjBW.LgcPor t1.Max
IUB logic port_1 maximum DL HSDPA available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332725
VS.IUB.FlowCtrol. DL.AdjBW.LgcPor t1.Min
IUB logic port_1 minimum DL HSDPA available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332726
VS.IUB.FlowCtrol. DL.AdjBW.LgcPor t1.Avg
IUB logic port_1 average DL HSDPA available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332727
VS.IUB.FlowCtrol. UL.UpBW.Num.Lg cPort1
IUB logic port_1 available UL bandwidth increase times
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
617
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332728
VS.IUB.FlowCtrol. DL.Delay.UpBW.N um.LgcPort1
IUB logic port_1 DL HSDPA available bandwidth increase times after jitter congestion released
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332729
VS.IUB.FlowCtrol. DL.Drop.UpBW.N um.LgcPort1
IUB logic port_1 DL HSDPA available bandwidth increase times after packet loss congestion released
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332730
VS.IUB.FlowCtrol. UL.DelayCong.Do wnBWNum.LgcPo rt1
IUB logic port_1 available UL bandwidth decrease times for jitter congestion
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332731
VS.IUB.FlowCtrol. DL.DelayCong.Do wnBWNum.LgcPo rt1
IUB logic port_1 DL HSDPA available bandwidth decrease times for jitter congestion
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332732
VS.IUB.FlowCtrol. UL.DropCong.Dow nBWNum.LgcPort 1
IUB logic port_1 available UL bandwidth decrease times for packet loss congestion
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
618
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332733
VS.IUB.FlowCtrol. DL.DropCong.Dow nBWNum.LgcPort 1
IUB logic port_1 DL HSDPA available bandwidth decrease times for packet loss congestion
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332734
VS.IUB.FlowCtrol. UL.SendNum.LgcP ort1
IUB logic port_1 Number of UL frames IUB logic port sent successfully
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332735
VS.IUB.FlowCtrol. DL.ReceiveNum.L gcPort1
IUB logic port_1 Number of DL HSDPA frames IUB logic port received
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332736
VS.IUB.FlowCtrol. UL.DropNum.Lgc Port1
IUB logic port_1 Number of lost UL frames
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332737
VS.IUB.FlowCtrol. DL.DropNum.Lgc Port1
IUB logic port_1 Number of lost DL HSDPA frames
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
619
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332738
VS.IUB.FlowCtrol. UL.DelayVara.Lgc Port1.Max
IUB logic port_1 maximum UL delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332739
VS.IUB.FlowCtrol. UL.DelayVara.Lgc Port1.Min
IUB logic port_1 minimum UL delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332740
VS.IUB.FlowCtrol. UL.DelayVara.Lgc Port1.Avg
IUB logic port_1 average UL delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332741
VS.IUB.FlowCtrol. DL.DelayVara.Lgc Port1.Max
IUB logic port_1 maximum DL HSDPA delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332742
VS.IUB.FlowCtrol. DL.DelayVara.Lgc Port1.Min
IUB logic port_1 minimum DL HSDPA delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
620
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332743
VS.IUB.FlowCtrol. DL.DelayVara.Lgc Port1.Avg
IUB logic port_1 average DL HSDPA delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332744
VS.IUB.FlowCtrol. UL.CongTime.Lgc Port1
IUB logic port_1 UL congestion duration
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332745
VS.IUB.FlowCtrol. DL.CongTime.Lgc Port1
IUB logic port_1 DL HSDPA congestion duration
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332746
VS.IUB.FlowCtrol. UL.AdjBW.LgcPor t2.Max
IUB logic port_2 maximum UL available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332747
VS.IUB.FlowCtrol. UL.AdjBW.LgcPor t2.Min
IUB logic port_2 minimum UL available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
621
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332748
VS.IUB.FlowCtrol. UL.AdjBW.LgcPor t2.Avg
IUB logic port_2 average UL available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332749
VS.IUB.FlowCtrol. DL.AdjBW.LgcPor t2.Max
IUB logic port_2 maximum DL HSDPA available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332750
VS.IUB.FlowCtrol. DL.AdjBW.LgcPor t2.Min
IUB logic port_2 minimum DL HSDPA available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332751
VS.IUB.FlowCtrol. DL.AdjBW.LgcPor t2.Avg
IUB logic port_2 average DL HSDPA available bandwidth
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332752
VS.IUB.FlowCtrol. UL.UpBW.Num.Lg cPort2
IUB logic port_2 available UL bandwidth increase times
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
622
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332753
VS.IUB.FlowCtrol. DL.Delay.UpBW.N um.LgcPort2
IUB logic port_2 DL HSDPA available bandwidth increase times after jitter congestion released
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332754
VS.IUB.FlowCtrol. DL.Drop.UpBW.N um.LgcPort2
IUB logic port_2 DL HSDPA available bandwidth increase times after packet loss congestion released
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332755
VS.IUB.FlowCtrol. UL.DelayCong.Do wnBWNum.LgcPo rt2
IUB logic port_2 available UL bandwidth decrease times for jitter congestion
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332756
VS.IUB.FlowCtrol. DL.DelayCong.Do wnBWNum.LgcPo rt2
IUB logic port_2 DL HSDPA available bandwidth decrease times for jitter congestion
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332757
VS.IUB.FlowCtrol. UL.DropCong.Dow nBWNum.LgcPort 2
IUB logic port_2 available UL bandwidth decrease times for packet loss congestion
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
623
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332758
VS.IUB.FlowCtrol. DL.DropCong.Dow nBWNum.LgcPort 2
IUB logic port_2 DL HSDPA available bandwidth decrease times for packet loss congestion
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332759
VS.IUB.FlowCtrol. UL.SendNum.LgcP ort2
IUB logic port_2 Number of UL frames IUB logic port sent successfully
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332760
VS.IUB.FlowCtrol. DL.ReceiveNum.L gcPort2
IUB logic port_2 Number of DL HSDPA frames IUB logic port received
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332761
VS.IUB.FlowCtrol. UL.DropNum.Lgc Port2
IUB logic port_2 Number of lost UL frames
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332762
VS.IUB.FlowCtrol. DL.DropNum.Lgc Port2
IUB logic port_2 Number of lost DL HSDPA frames
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
624
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332763
VS.IUB.FlowCtrol. UL.DelayVara.Lgc Port2.Max
IUB logic port_2 maximum UL delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332764
VS.IUB.FlowCtrol. UL.DelayVara.Lgc Port2.Min
IUB logic port_2 minimum UL delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332765
VS.IUB.FlowCtrol. UL.DelayVara.Lgc Port2.Avg
IUB logic port_2 average UL delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332766
VS.IUB.FlowCtrol. DL.DelayVara.Lgc Port2.Max
IUB logic port_2 maximum DL HSDPA delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332767
VS.IUB.FlowCtrol. DL.DelayVara.Lgc Port2.Min
IUB logic port_2 minimum DL HSDPA delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
625
3900 Series Base Station Performance Counter Reference
Issue 12 (2014-05-30)
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332768
VS.IUB.FlowCtrol. DL.DelayVara.Lgc Port2.Avg
IUB logic port_2 average DL HSDPA delay jitter
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332769
VS.IUB.FlowCtrol. UL.CongTime.Lgc Port2
IUB logic port_2 UL congestion duration
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332770
VS.IUB.FlowCtrol. DL.CongTime.Lgc Port2
IUB logic port_2 DL HSDPA congestion duration
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50342578
VS.AttRLSETUP. MAX
The max number of RL Setup Request per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50342579
VS.AttRLADD.MA X
The max number of RL Add Request per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
626
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50342580
VS.AttRLRecfg.M AX
The max number of RL Reconfiguration Preparation Requeset per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50342581
VS.DedicMeaRpt. MAX
The max number of Dedicated Measurement Reporting per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Counter Relationship None
Number of RL Setup Request per second Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332578
VS.AttRLSET UP.MEAN
The average number of RL Setup Request per second
BTS3900 WCDMA, BTS3900
U
50342578
VS.AttRLSET UP.MAX
The max number of RL Setup Request per second
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average and maximum of RL Setup Request per second during a measurement period. Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
627
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Measurement Points Within a measurement period, the number of RL SETUP REQUEST messages per second is recorded as A, and the number of seconds within the measurement period is recorded as B. VS.AttRLSETUP.MEAN=A/B. VS.AttRLSETUP.MEAN is sampled every five seconds. At the end of the measurement period, the maximum of these sampling results is used as the value of VS.AttRLSETUP.MAX.
Formula None
Unit None
Related Features None
Number of RL Add Request per second Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332579
VS.AttRLADD. MEAN
The average number of RL Add Request per second
BTS3900 WCDMA, BTS3900
U
50342579
VS.AttRLADD. MAX
The max number of RL Add Request per second
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average and maximum of RL Add Request per second during a measurement period.
Measurement Points Within a measurement period, the number of RL ADD REQUEST messages per second is recorded as A, and the number of seconds within the measurement period is recorded as B. VS.AttRLADD.MEAN=A/B. VS.AttRLADD.MEAN is sampled every five seconds. At the end of the measurement period, the maximum of these sampling results is used as the value of VS.AttRLADD.MAX. Issue 12 (2014-05-30)
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Formula None
Unit None
Related Features None
Number of RL Reconfiguration Preparation Request per second Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332580
VS.AttRLRecfg .MEAN
The average number of RL Reconfiguration Preparation Request per second
BTS3900 WCDMA, BTS3900
U
50342580
VS.AttRLRecfg .MAX
The max number of RL Reconfiguration Preparation Requeset per second
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average and maximum of RL Reconfiguration Preparation Request per second during a measurement period.
Measurement Points Within a measurement period, the number of RL RECONFIGUATION PREPARE messages per second is recorded as A, and the number of seconds within the measurement period is recorded as B. VS.AttRLRecfg.MEAN=A/B. VS.AttRLRecfg.MEAN is sampled every five seconds. At the end of the measurement period, the maximum of these sampling results is used as the value of VS.AttRLRecfg.MAX.
Formula None Issue 12 (2014-05-30)
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Unit None
Related Features None
Number of Dedicated Measurement Reporting per second Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332581
VS.DedicMeaR pt.MEAN
The average number of Dedicated Measurement Reporting per second
BTS3900 WCDMA, BTS3900
U
50342581
VS.DedicMeaR pt.MAX
The max number of Dedicated Measurement Reporting per second
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average and maximum of Dedicated Measurement Reporting per second during a measurement period.
Measurement Points Within a measurement period, the number of DEDICATED MEASUREMENT REPORT messages per second is recorded as A, and the number of seconds within the measurement period is recorded as B. VS.DedicMeaRpt.MEAN=A/B. VS.DedicMeaRpt.MEAN is sampled every five seconds. At the end of the measurement period, the maximum of these sampling results is used as the value of VS.DedicMeaRpt.MAX.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features None
Available UL Bandwidth on ATM Physical Ports Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332673
VS.ATMUlTot al.1
ATM physical port_1 uplink total bandwidth
BTS3900 WCDMA, BTS3900
U
50332685
VS.ATMUlTot al.2
ATM physical port_2 uplink total bandwidth
BTS3900 WCDMA, BTS3900
U
50332697
VS.ATMUlTot al.3
ATM physical port_3 uplink total bandwidth
BTS3900 WCDMA, BTS3900
U
50332709
VS.ATMUlTot al.4
ATM physical port uplink total bandwidth
BTS3900 WCDMA, BTS3900
U
Description For each of the preceding counters, the NodeB takes statistics about the available UL (outgoing from the NodeB) bandwidth of an ATM physical port during a measurement period. If the physical port carries an IMA group, the value of the counter is the total UL bandwidth of the available IMA links in the IMA group. If the physical port is an STM-1 port or carries a UNI or fractional ATM link, the value of the counter is the available UL bandwidth of the physical port. The NodeB can take statistics on these counters for a maximum of four ATM physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-to-one relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit kbit/s Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.ATMUlTotal.1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMUlTotal.2
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMUlTotal.3
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMUlTotal.4
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Used UL Bandwidth on ATM Physical Ports
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332674
VS.ATMUlMa xUsed.1
ATM physical port_1 uplink maximum used bandwidth
BTS3900 WCDMA, BTS3900
U
50332675
VS.ATMUlAvg Used.1
ATM physical port_1 uplink average used bandwidth
BTS3900 WCDMA, BTS3900
U
50332686
VS.ATMUlMa xUsed.2
ATM physical port_2 uplink maximum used bandwidth
BTS3900 WCDMA, BTS3900
U
50332687
VS.ATMUlAvg Used.2
ATM physical port_2 uplink average used bandwidth
BTS3900 WCDMA, BTS3900
U
50332698
VS.ATMUlMa xUsed.3
ATM physical port_3 uplink maximum used bandwidth
BTS3900 WCDMA, BTS3900
U
50332699
VS.ATMUlAvg Used.3
ATM physical port_3 uplink average used bandwidth
BTS3900 WCDMA, BTS3900
U
50332710
VS.ATMUlMa xUsed.4
ATM physical port_4 uplink maximum used bandwidth
BTS3900 WCDMA, BTS3900
U
50332711
VS.ATMUlAvg Used.4
ATM physical port_4 uplink average used bandwidth
BTS3900 WCDMA, BTS3900
U
Description The following table describes the meanings of each counter.
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Counter Name
Description
VS.ATMUlMaxUsed.1
For each of these counters, the NodeB takes statistics about the maximum used UL bandwidth on an ATM physical port during a measurement period. The NodeB measures the used UL bandwidth on the physical port every five seconds within a measurement period and then obtains the maximum value. The NodeB can take statistics on these counters for a maximum of four ATM physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-toone relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
VS.ATMUlAvgUsed.1
For each of these counters, the NodeB takes statistics about the average used UL bandwidth on an ATM physical port during a measurement period. The NodeB measures the used UL bandwidth on the physical port every five seconds within a measurement period and then calculates the average value. The NodeB can take statistics on these counters for a maximum of four ATM physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-toone relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit kbit/s Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.ATMUlMaxUsed.1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMUlAvgUsed.1
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMUlMaxUsed.2
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMUlAvgUsed.2
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
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ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
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Counter Name
Feature ID
VS.ATMUlMaxUsed.3
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMUlAvgUsed.3
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMUlMaxUsed.4
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMUlAvgUsed.4
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Available DL Bandwidth on ATM Physical Ports
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332676
VS.ATMDlTot al.1
ATM physical port_1 downlink total bandwidth
BTS3900 WCDMA, BTS3900
U
50332688
VS.ATMDlTot al.2
ATM physical port_2 downlink total bandwidth
BTS3900 WCDMA, BTS3900
U
50332700
VS.ATMDlTot al.3
ATM physical port_3 downlink total bandwidth
BTS3900 WCDMA, BTS3900
U
50332712
VS.ATMDlTot al.4
ATM physical port_4 downlink total bandwidth
BTS3900 WCDMA, BTS3900
U
Description For each of the preceding counters, the NodeB takes statistics about the available DL (incoming to the NodeB) bandwidth of an ATM physical port during a measurement period. If the physical port carries an IMA group, the value of the counter is the total DL bandwidth of the available IMA links in the IMA group. If the physical port is an STM-1 port or carries a UNI or fractional ATM link, the value of the counter is the available DL bandwidth of the physical port. The NodeB can take statistics on these counters for a maximum of four ATM physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-to-one relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit kbit/s Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.ATMDlTotal.1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMDlTotal.2
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMDlTotal.3
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMDlTotal.4
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Used DL Bandwidth on ATM Physical Ports
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Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332677
VS.ATMDlMa xUsed.1
ATM physical port_1 downlink maximum used bandwidth
BTS3900 WCDMA, BTS3900
U
50332678
VS.ATMDlAvg Used.1
ATM physical port_1 downlink average used bandwidth
BTS3900 WCDMA, BTS3900
U
50332689
VS.ATMDlMa xUsed.2
ATM physical port_2 downlink maximum used bandwidth
BTS3900 WCDMA, BTS3900
U
50332690
VS.ATMDlAvg Used.2
ATM physical port_2 downlink average used bandwidth
BTS3900 WCDMA, BTS3900
U
50332701
VS.ATMDlMa xUsed.3
ATM physical port_3 downlink maximum used bandwidth
BTS3900 WCDMA, BTS3900
U
50332702
VS.ATMDlAvg Used.3
ATM physical port_3 downlink average used bandwidth
BTS3900 WCDMA, BTS3900
U
50332713
VS.ATMDlMa xUsed.4
ATM physical port_4 downlink maximum used bandwidth
BTS3900 WCDMA, BTS3900
U
50332714
VS.ATMDlAvg Used.4
ATM physical port_4 downlink average used bandwidth
BTS3900 WCDMA, BTS3900
U
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Description The following table describes the meanings of each counter. Counter Name
Description
VS.ATMDlMaxUsed.1
For each of these counters, the NodeB takes statistics about the maximum used DL bandwidth on an ATM physical port during a measurement period. The NodeB measures the used DL bandwidth on the physical port every five seconds within a measurement period and then obtains the maximum value. The NodeB can take statistics on these counters for a maximum of four ATM physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-toone relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
VS.ATMDlAvgUsed.1
For each of these counters, the NodeB takes statistics about the average used DL bandwidth on an ATM physical port during a measurement period. The NodeB measures the used DL bandwidth on the physical port every five seconds within a measurement period and then calculates the average value. The NodeB can take statistics on these counters for a maximum of four ATM physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-toone relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None Issue 12 (2014-05-30)
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Unit kbit/s
Related Features Counter Name
Feature ID
VS.ATMDlMaxUsed.1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMDlAvgUsed.1
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMDlMaxUsed.2
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMDlAvgUsed.2
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
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ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
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2 Radio Network Related Measurement
Counter Name
Feature ID
VS.ATMDlMaxUsed.3
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMDlAvgUsed.3
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMDlMaxUsed.4
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
VS.ATMDlAvgUsed.4
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-05030101 WRFD-05030102 LTE: None
ATM over E1T1 on Iub Interface ATM over Channelized STM-1/OC-3 on Iub Interface
Available UL Bandwidth on IP Physical Ports
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332679
VS.IPUlTotal.1
IP physical port_1 uplink total bandwidth
BTS3900 WCDMA
U
50332691
VS.IPUlTotal.2
IP physical port_2 uplink total bandwidth
BTS3900 WCDMA
U
50332703
VS.IPUlTotal.3
IP physical port_3 uplink total bandwidth
BTS3900 WCDMA
U
50332715
VS.IPUlTotal.4
IP physical port_4 uplink total bandwidth
BTS3900 WCDMA
U
Description For each of the preceding counters, the NodeB takes statistics about the available UL (outgoing from the NodeB) bandwidth of an IP physical port during a measurement period. If the physical port carries on MLPPP group or a PPP link, the value of the counter is the total UL bandwidth of the available MLPPP links in the MLPPP group or the available bandwidth of the PPP link respectively. If the physical port is a ETHTRUNK port or an Ethernet port, the value of the counter depends on the negotiation for the port.If the physical port carries on TUNNEL, the value of the counter is the total available UL bandwidth on current TUNNEL. If rate limitation is set on the port, the value of the counter is the smaller value between the defined upper limit of the rate and the measured available bandwidth. The NodeB can take statistics on these counters for a maximum of four IP physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a oneto-one relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer. Counter 50332679 VS.IPUlTotal.1 will be replaced by counter 1542460296 VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW in later versions. In the current version, counters 50332679 VS.IPUlTotal.1 and 1542460296 VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW are both valid, and the value of counter 50332679 VS.IPUlTotal.1 is properly reported. Counter 50332679 VS.IPUlTotal.1 will be deleted in later versions. Using counter 50332679 VS.IPUlTotal.1 is not recommended. Counter 50332691 VS.IPUlTotal.2 will be replaced by counter 1542460296 VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW in later versions. In the current version, counters 50332691 VS.IPUlTotal.2 and 1542460296 VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW are both valid, and the value of counter 50332691 VS.IPUlTotal.2 is properly reported. Counter Issue 12 (2014-05-30)
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50332691 VS.IPUlTotal.2 will be deleted in later versions. Using counter 50332691 VS.IPUlTotal.2 is not recommended. Counter 50332703 VS.IPUlTotal.3 will be replaced by counter 1542460296 VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW in later versions. In the current version, counters 50332703 VS.IPUlTotal.3 and 1542460296 VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW are both valid, and the value of counter 50332703 VS.IPUlTotal.3 is properly reported. Counter 50332703 VS.IPUlTotal.3 will be deleted in later versions. Using counter 50332703 VS.IPUlTotal.3 is not recommended. Counter 50332715 VS.IPUlTotal.4 will be replaced by counter 1542460296 VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW in later versions. In the current version, counters 50332715 VS.IPUlTotal.4 and 1542460296 VS.FEGE.TxTotalBW/1542460302 VS.TRUNK.TxTotalBW/1542460300 VS.MP.TxTotalBW/1542460298 VS.PPP.TxTotalBW are both valid, and the value of counter 50332715 VS.IPUlTotal.4 is properly reported. Counter 50332715 VS.IPUlTotal.4 will be deleted in later versions. Using counter 50332715 VS.IPUlTotal.4 is not recommended.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.IPUlTotal.1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402 LTE: None VS.IPUlTotal.2
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
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IP Transmission Introduction on Iub Interface
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Counter Name
Feature ID
VS.IPUlTotal.3
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None VS.IPUlTotal.4
Multi-mode: None GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Used UL Bandwidth on IP Physical Ports Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332680
VS.IPUlMaxUs ed.1
IP physical port_1 uplink maximum used bandwidth
BTS3900 WCDMA
U
50332681
VS.IPUlAvgUs ed.1
IP physical port_1 uplink average used bandwidth
BTS3900 WCDMA
U
50332692
VS.IPUlMaxUs ed.2
IP physical port_2 uplink maximum used bandwidth
BTS3900 WCDMA
U
50332693
VS.IPUlAvgUs ed.2
IP physical port_2 uplink average used bandwidth
BTS3900 WCDMA
U
50332704
VS.IPUlMaxUs ed.3
IP physical port_3 uplink maximum used bandwidth
BTS3900 WCDMA
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332705
VS.IPUlAvgUs ed.3
IP physical port_3 uplink average used bandwidth
BTS3900 WCDMA
U
50332716
VS.IPUlMaxUs ed.4
IP physical port_4 uplink maximum used bandwidth
BTS3900 WCDMA
U
50332717
VS.IPUlAvgUs ed.4
IP physical port_4 uplink average used bandwidth
BTS3900 WCDMA
U
Description Counter 50332680 VS.IPUlMaxUsed.1 will be replaced by counter 1542455302 VS.FEGE.TxMaxSpeed/1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed in later versions. In the current version, counters 50332680 VS.IPUlMaxUsed.1 and 1542455302 VS.FEGE.TxMaxSpeed/ 1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed are both valid, and the value of counter 50332680 VS.IPUlMaxUsed.1 is properly reported. Counter 50332680 VS.IPUlMaxUsed.1 will be deleted in later versions. Using counter 50332680 VS.IPUlMaxUsed.1 is not recommended. Counter 50332681 VS.IPUlAvgUsed.1 will be replaced by counter 1542455304 VS.FEGE.TxMeanSpeed/1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed in later versions. In the current version, counters 50332681 VS.IPUlAvgUsed.1 and 1542455304 VS.FEGE.TxMeanSpeed/ 1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed are both valid, and the value of counter 50332681 VS.IPUlAvgUsed.1 is properly reported. Counter 50332681 VS.IPUlAvgUsed.1 will be deleted in later versions. Using counter 50332681 VS.IPUlAvgUsed.1 is not recommended. Counter 50332692 VS.IPUlMaxUsed.2 will be replaced by counter 1542455302 VS.FEGE.TxMaxSpeed/1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed in later versions. In the current version, counters 50332692 VS.IPUlMaxUsed.2 and 1542455302 VS.FEGE.TxMaxSpeed/ 1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed are both valid, and the value of counter 50332692 VS.IPUlMaxUsed.2 is properly reported. Counter 50332692 VS.IPUlMaxUsed.2 will be deleted in later versions. Using counter 50332692 VS.IPUlMaxUsed.2 is not recommended. Counter 50332693 VS.IPUlAvgUsed.2 will be replaced by counter 1542455304 VS.FEGE.TxMeanSpeed/1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed in later versions. In the current version, counters 50332693 VS.IPUlAvgUsed.2 and 1542455304 VS.FEGE.TxMeanSpeed/ 1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345 Issue 12 (2014-05-30)
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VS.PPP.TxMeanSpeed are both valid, and the value of counter 50332693 VS.IPUlAvgUsed.2 is properly reported. Counter 50332693 VS.IPUlAvgUsed.2 will be deleted in later versions. Using counter 50332693 VS.IPUlAvgUsed.2 is not recommended. Counter 50332704 VS.IPUlMaxUsed.3 will be replaced by counter 1542455302 VS.FEGE.TxMaxSpeed/1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed in later versions. In the current version, counters 50332704 VS.IPUlMaxUsed.3 and 1542455302 VS.FEGE.TxMaxSpeed/ 1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed are both valid, and the value of counter 50332704 VS.IPUlMaxUsed.3 is properly reported. Counter 50332704 VS.IPUlMaxUsed.3 will be deleted in later versions. Using counter 50332704 VS.IPUlMaxUsed.3 is not recommended. Counter 50332705 VS.IPUlAvgUsed.3 will be replaced by counter 1542455304 VS.FEGE.TxMeanSpeed/1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed in later versions. In the current version, counters 50332705 VS.IPUlAvgUsed.3 and 1542455304 VS.FEGE.TxMeanSpeed/ 1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed are both valid, and the value of counter 50332705 VS.IPUlAvgUsed.3 is properly reported. Counter 50332705 VS.IPUlAvgUsed.3 will be deleted in later versions. Using counter 50332705 VS.IPUlAvgUsed.3 is not recommended. Counter 50332716 VS.IPUlMaxUsed.4 will be replaced by counter 1542455302 VS.FEGE.TxMaxSpeed/1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed in later versions. In the current version, counters 50332716 VS.IPUlMaxUsed.4 and 1542455302 VS.FEGE.TxMaxSpeed/ 1542460306 VS.TRUNK.TxMaxSpeed/1542455358 VS.MP.TxMaxSpeed/1542455343 VS.PPP.TxMaxSpeed are both valid, and the value of counter 50332716 VS.IPUlMaxUsed.4 is properly reported. Counter 50332716 VS.IPUlMaxUsed.4 will be deleted in later versions. Using counter 50332716 VS.IPUlMaxUsed.4 is not recommended. Counter 50332717 VS.IPUlAvgUsed.4 will be replaced by counter 1542455304 VS.FEGE.TxMeanSpeed/1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed in later versions. In the current version, counters 50332717 VS.IPUlAvgUsed.4 and 1542455304 VS.FEGE.TxMeanSpeed/ 1542460307 VS.TRUNK.TxMeanSpeed/1542455360 VS.MP.TxMeanSpeed/1542455345 VS.PPP.TxMeanSpeed are both valid, and the value of counter 50332717 VS.IPUlAvgUsed.4 is properly reported. Counter 50332717 VS.IPUlAvgUsed.4 will be deleted in later versions. Using counter 50332717 VS.IPUlAvgUsed.4 is not recommended. The following table describes the meanings of each counter.
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Counter Name
Description
VS.IPUlMaxUsed.1
For each of these counters, the NodeB takes statistics about the maximum used UL bandwidth on an IP physical port during a measurement period. The NodeB measures the used UL bandwidth on the physical port every five seconds within a measurement period and then obtains the maximum value. The NodeB can take statistics on these counters for a maximum of four IP physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-to-one relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
VS.IPUlAvgUsed.1
For each of these counters, the NodeB takes statistics about the average used UL bandwidth on an IP physical port during a measurement period. The NodeB measures the used UL bandwidth on the physical port every five seconds within a measurement period and then calculates the average value. The NodeB can take statistics on these counters for a maximum of four IP physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-to-one relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit kbit/s
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Related Features Counter Name
Feature ID
VS.IPUlMaxUsed.1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402 LTE: None VS.IPUlAvgUsed.1
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.IPUlMaxUsed.2
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.IPUlAvgUsed.2
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.IPUlMaxUsed.3
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.IPUlAvgUsed.3
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.IPUlMaxUsed.4
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
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Counter Name
Feature ID
VS.IPUlAvgUsed.4
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Available DL Bandwidth on IP Physical Ports Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332682
VS.IPDlTotal.1
IP physical port_1 downlink total bandwidth
BTS3900 WCDMA
U
50332694
VS.IPDlTotal.2
IP physical port_2 downlink total bandwidth
BTS3900 WCDMA
U
50332706
VS.IPDlTotal.3
IP physical port_3 downlink total bandwidth
BTS3900 WCDMA
U
50332718
VS.IPDlTotal.4
IP physical port_4 downlink total bandwidth
BTS3900 WCDMA
U
Description For each of the preceding counters, the NodeB takes statistics about the available DL (incoming to the NodeB) bandwidth of an IP physical port during a measurement period. If the physical port carries on MLPPP group or a PPP link, the value of the counter is the total DL bandwidth of the available MLPPP links in the MLPPP group or the available bandwidth of the PPP link respectively. If the physical port is a ETHTRUNK port or an Ethernet port, the value of the counter depends on the negotiation for the port.If the physical port carries on TUNNEL, the value of the counter is the total available DL bandwidth on current TUNNEL. The NodeB can take statistics on these counters for a maximum of four IP physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-to-one relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer. Issue 12 (2014-05-30)
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Counter 50332682 VS.IPDlTotal.1 will be replaced by counter 1542460297 VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW in later versions. In the current version, counters 50332682 VS.IPDlTotal.1 and 1542460297 VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW are both valid, and the value of counter 50332682 VS.IPDlTotal.1 is properly reported. Counter 50332682 VS.IPDlTotal.1 will be deleted in later versions. Using counter 50332682 VS.IPDlTotal.1 is not recommended. Counter 50332694 VS.IPDlTotal.2 will be replaced by counter 1542460297 VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW in later versions. In the current version, counters 50332694 VS.IPDlTotal.2 and 1542460297 VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW are both valid, and the value of counter 50332694 VS.IPDlTotal.2 is properly reported. Counter 50332694 VS.IPDlTotal.2 will be deleted in later versions. Using counter 50332694 VS.IPDlTotal.2 is not recommended. Counter 50332706 VS.IPDlTotal.3 will be replaced by counter 1542460297 VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW in later versions. In the current version, counters 50332706 VS.IPDlTotal.3 and 1542460297 VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW are both valid, and the value of counter 50332706 VS.IPDlTotal.3 is properly reported. Counter 50332706 VS.IPDlTotal.3 will be deleted in later versions. Using counter 50332706 VS.IPDlTotal.3 is not recommended. Counter 50332718 VS.IPDlTotal.4 will be replaced by counter 1542460297 VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW in later versions. In the current version, counters 50332718 VS.IPDlTotal.4 and 1542460297 VS.FEGE.RxTotalBW/1542460303 VS.TRUNK.RxTotalBW/1542460301 VS.MP.RxTotalBW/1542460299 VS.PPP.RxTotalBW are both valid, and the value of counter 50332718 VS.IPDlTotal.4 is properly reported. Counter 50332718 VS.IPDlTotal.4 will be deleted in later versions. Using counter 50332718 VS.IPDlTotal.4 is not recommended.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit kbit/s
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Related Features Counter Name
Feature ID
VS.IPDlTotal.1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None VS.IPDlTotal.2
Multi-mode: None GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None VS.IPDlTotal.3
Multi-mode: None GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None VS.IPDlTotal.4
Multi-mode: None GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
Used DL Bandwidth on IP Physical Ports Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332683
VS.IPDlMaxUs ed.1
IP physical port_1 downlink maximum used bandwidth
BTS3900 WCDMA
U
50332684
VS.IPDlAvgUs ed.1
IP physical port_1 downlink average used bandwidth
BTS3900 WCDMA
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332695
VS.IPDlMaxUs ed.2
IP physical port_2 downlink maximum used bandwidth
BTS3900 WCDMA
U
50332696
VS.IPDlAvgUs ed.2
IP physical port_2 downlink average used bandwidth
BTS3900 WCDMA
U
50332707
VS.IPDlMaxUs ed.3
IP physical port_3 downlink maximum used bandwidth
BTS3900 WCDMA
U
50332708
VS.IPDlAvgUs ed.3
IP physical port_3 downlink average used bandwidth
BTS3900 WCDMA
U
50332719
VS.IPDlMaxUs ed.4
IP physical port_4 downlink maximum used bandwidth
BTS3900 WCDMA
U
50332720
VS.IPDlAvgUs ed.4
IP physical port_4 downlink average used bandwidth
BTS3900 WCDMA
U
Description Counter 50332683 VS.IPDlMaxUsed.1 will be replaced by counter 1542455305 VS.FEGE.RxMaxSpeed/1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed in later versions. In the current version, counters 50332683 VS.IPDlMaxUsed.1 and 1542455305 VS.FEGE.RxMaxSpeed/ 1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed are both valid, and the value of counter 50332683 VS.IPDlMaxUsed.1 is properly reported. Counter 50332683 VS.IPDlMaxUsed.1 will be deleted in later versions. Using counter 50332683 VS.IPDlMaxUsed.1 is not recommended. Counter 50332684 VS.IPDlAvgUsed.1 will be replaced by counter 1542455307 VS.FEGE.RxMeanSpeed/1542460305 VS.TRUNK.RxMeanSpeed/1542455363 Issue 12 (2014-05-30)
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VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed in later versions. In the current version, counters 50332684 VS.IPDlAvgUsed.1 and 1542455307 VS.FEGE.RxMeanSpeed/ 1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed are both valid, and the value of counter 50332684 VS.IPDlAvgUsed.1 is properly reported. Counter 50332684 VS.IPDlAvgUsed.1 will be deleted in later versions. Using counter 50332684 VS.IPDlAvgUsed.1 is not recommended. Counter 50332695 VS.IPDlMaxUsed.2 will be replaced by counter 1542455305 VS.FEGE.RxMaxSpeed/1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed in later versions. In the current version, counters 50332695 VS.IPDlMaxUsed.2 and 1542455305 VS.FEGE.RxMaxSpeed/ 1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed are both valid, and the value of counter 50332695 VS.IPDlMaxUsed.2 is properly reported. Counter 50332695 VS.IPDlMaxUsed.2 will be deleted in later versions. Using counter 50332695 VS.IPDlMaxUsed.2 is not recommended. Counter 50332696 VS.IPDlAvgUsed.2 will be replaced by counter 1542455307 VS.FEGE.RxMeanSpeed/1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed in later versions. In the current version, counters 50332696 VS.IPDlAvgUsed.2 and 1542455307 VS.FEGE.RxMeanSpeed/ 1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed are both valid, and the value of counter 50332696 VS.IPDlAvgUsed.2 is properly reported. Counter 50332696 VS.IPDlAvgUsed.2 will be deleted in later versions. Using counter 50332696 VS.IPDlAvgUsed.2 is not recommended. Counter 50332707 VS.IPDlMaxUsed.3 will be replaced by counter 1542455305 VS.FEGE.RxMaxSpeed/1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed in later versions. In the current version, counters 50332707 VS.IPDlMaxUsed.3 and 1542455305 VS.FEGE.RxMaxSpeed/ 1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed are both valid, and the value of counter 50332707 VS.IPDlMaxUsed.3 is properly reported. Counter 50332707 VS.IPDlMaxUsed.3 will be deleted in later versions. Using counter 50332707 VS.IPDlMaxUsed.3 is not recommended. Counter 50332708 VS.IPDlAvgUsed.3 will be replaced by counter 1542455307 VS.FEGE.RxMeanSpeed/1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed in later versions. In the current version, counters 50332708 VS.IPDlAvgUsed.3 and 1542455307 VS.FEGE.RxMeanSpeed/ 1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed are both valid, and the value of counter 50332708 VS.IPDlAvgUsed.3 is properly reported. Counter 50332708 VS.IPDlAvgUsed.3 will be deleted in later versions. Using counter 50332708 VS.IPDlAvgUsed.3 is not recommended. Counter 50332719 VS.IPDlMaxUsed.4 will be replaced by counter 1542455305 VS.FEGE.RxMaxSpeed/1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed in later versions. In the current version, counters 50332719 VS.IPDlMaxUsed.4 and 1542455305 VS.FEGE.RxMaxSpeed/ 1542460304 VS.TRUNK.RxMaxSpeed/1542455361 VS.MP.RxMaxSpeed/1542455346 VS.PPP.RxMaxSpeed are both valid, and the value of counter 50332719 VS.IPDlMaxUsed.4 is properly reported. Counter 50332719 VS.IPDlMaxUsed.4 will be deleted in later versions. Using counter 50332719 VS.IPDlMaxUsed.4 is not recommended. Counter 50332720 VS.IPDlAvgUsed.4 will be replaced by counter 1542455307 VS.FEGE.RxMeanSpeed/1542460305 VS.TRUNK.RxMeanSpeed/1542455363 Issue 12 (2014-05-30)
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VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed in later versions. In the current version, counters 50332720 VS.IPDlAvgUsed.4 and 1542455307 VS.FEGE.RxMeanSpeed/ 1542460305 VS.TRUNK.RxMeanSpeed/1542455363 VS.MP.RxMeanSpeed/1542455348 VS.PPP.RxMeanSpeed are both valid, and the value of counter 50332720 VS.IPDlAvgUsed.4 is properly reported. Counter 50332720 VS.IPDlAvgUsed.4 will be deleted in later versions. Using counter 50332720 VS.IPDlAvgUsed.4 is not recommended. The following table describes the meanings of each counter. Counter Name
Description
VS.IPDlMaxUsed.1
For each of these counters, the NodeB takes statistics about the maximum used DL bandwidth on an IP physical port during a measurement period. The NodeB measures the used DL bandwidth on the physical port every five seconds within a measurement period and then obtains the maximum value. The NodeB can take statistics on these counters for a maximum of four IP physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-to-one relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
VS.IPDlAvgUsed.1
For each of these counters, the NodeB takes statistics about the average used DL bandwidth on an IP physical port during a measurement period. The NodeB measures the used DL bandwidth on the physical port every five seconds within a measurement period and then calculates the average value. The NodeB can take statistics on these counters for a maximum of four IP physical ports. One counter is specific for one physical port, and one physical port corresponds to one counter. That is, the counters and the physical ports have a one-to-one relation between each other. These counters are identical in application, since they are all used for traffic measurement at the physical layer.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
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Formula None
Unit kbit/s
Related Features Counter Name
Feature ID
VS.IPDlMaxUsed.1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402 LTE: None VS.IPDlAvgUsed.1
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.IPDlMaxUsed.2
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.IPDlAvgUsed.2
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.IPDlMaxUsed.3
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
VS.IPDlAvgUsed.3
IP Transmission Introduction on Iub Interface
Multi-mode: None GSM: None UMTS: WRFD-050402 LTE: None
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Counter Name
Feature ID
VS.IPDlMaxUsed.4
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None VS.IPDlAvgUsed.4
Multi-mode: None GSM: None UMTS: WRFD-050402
IP Transmission Introduction on Iub Interface
LTE: None
IUB logic port available UL bandwidth Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332721
VS.IUB.FlowCt rol.UL.AdjBW. LgcPort1.Max
IUB logic port_1 maximum UL available bandwidth
BTS3900 WCDMA
U
50332722
VS.IUB.FlowCt rol.UL.AdjBW. LgcPort1.Min
IUB logic port_1 minimum UL available bandwidth
BTS3900 WCDMA
U
50332723
VS.IUB.FlowCt rol.UL.AdjBW. LgcPort1.Avg
IUB logic port_1 average UL available bandwidth
BTS3900 WCDMA
U
50332746
VS.IUB.FlowCt rol.UL.AdjBW. LgcPort2.Max
IUB logic port_2 maximum UL available bandwidth
BTS3900 WCDMA
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332747
VS.IUB.FlowCt rol.UL.AdjBW. LgcPort2.Min
IUB logic port_2 minimum UL available bandwidth
BTS3900 WCDMA
U
50332748
VS.IUB.FlowCt rol.UL.AdjBW. LgcPort2.Avg
IUB logic port_2 average UL available bandwidth
BTS3900 WCDMA
U
Description The NodeB reports traffic statistics of logical ports that carry PATH. The NodeB takes the traffic statistics on these counters for a maximum of two logical ports and it preferentially reports the statistics for IP transmission. If no more than two logical ports exists, the NodeB reports only the traffic statistics of logical ports that carry PATH. One logical port is associated with one resource group. The default resource group number is 1. LgcPort1 measures traffic of the resource group created firstly, and LgcPort2 measures traffic of the resource group created secondly. The traffic of the resource group includes the traffic of all paths to which the resource group belongs. For an IP&ATM network: If the IP resource group is created prior to the ATM resource group, lgcPort1 will report the traffic of the IP resource group, and lgcPort2 will report the traffic of the ATM resource group. If the ATM resource group is created prior to the IP resource group, lgcPort1 will report the traffic of the ATM resource group, and lgcPort2 will report the traffic of the IP resource group. Usually, LgcPort1 reports the traffic of the IP resource group and LgcPort2 reports the traffic of the ATM resource group. However, the mapping is not fixed, and it is determined by the sequence of creating the resource groups. In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.Max or the VS.RscGroup.FlowCtrol.UL.AdjBW.Max counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.AdjBW.Max counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.Min or the VS.RscGroup.FlowCtrol.UL.AdjBW.Min counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.AdjBW.Min counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.Avg or the VS.RscGroup.FlowCtrol.UL.AdjBW.Avg counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.AdjBW.Avg counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort2.Max or the VS.RscGroup.FlowCtrol.UL.AdjBW.Max counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.UL.AdjBW.Max counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort2.Min or the VS.RscGroup.FlowCtrol.UL.AdjBW.Min counter is used, or they can both be used. The Issue 12 (2014-05-30)
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reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.UL.AdjBW.Min counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.AdjBW.LgcPort2.Avg or the VS.RscGroup.FlowCtrol.UL.AdjBW.Avg counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.AdjBW.Avg counter is used. The following table describes the meanings of each counter. Counter Name
Description
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.M ax
The NodeB adjusts the UL port bandwidth according to the congestion indicator sent by the RNC, The NodeB calculates the UL available bandwidth of the physical layer per five seconds, VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Ma x is the maximum value of available bandwidth of the UL physical layer.
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.M in
The NodeB adjusts the UL port bandwidth according to the congestion indicator sent by the RNC, The NodeB calculates the UL available bandwidth of the physical layer per five seconds, VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Mi n is the minimum value of the available bandwidth of the UL physical layer.
VS.IUB.FlowCtrol.UL.AdjBW.LgcPort1.A vg
The NodeB adjusts the UL port bandwidth according to the congestion indicator sent by the RNC, The NodeB calculates the UL available bandwidth of the physical layer per five seconds, The collected values of available bandwidth in a statistics period are accumulated and recorded as A, and the number of calculation times in a statistics period is recorded as B. Then, VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Av g = A/B.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.This counter only include the payload of IP packets.
Formula None Issue 12 (2014-05-30)
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Unit kbit/s
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Adj BW.LgcPort1.Max
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
VS.IUB.FlowCtrol.UL.Adj BW.LgcPort1.Min
GSM: None LTE: None
GSM: None LTE: None
GSM: None LTE: None
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
VS.IUB.FlowCtrol.UL.Adj BW.LgcPort2.Avg
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Adj BW.LgcPort2.Min
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Adj BW.LgcPort2.Max
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Adj BW.LgcPort1.Avg
Feature Name
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
HSUPA Iub Flow Control in Case of Iub Congestion
IUB logic port available DL HSDPA bandwidth Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332724
VS.IUB.FlowCt rol.DL.AdjBW. LgcPort1.Max
IUB logic port_1 maximum DL HSDPA available bandwidth
BTS3900 WCDMA
U
50332725
VS.IUB.FlowCt rol.DL.AdjBW. LgcPort1.Min
IUB logic port_1 minimum DL HSDPA available bandwidth
BTS3900 WCDMA
U
50332726
VS.IUB.FlowCt rol.DL.AdjBW. LgcPort1.Avg
IUB logic port_1 average DL HSDPA available bandwidth
BTS3900 WCDMA
U
50332749
VS.IUB.FlowCt rol.DL.AdjBW. LgcPort2.Max
IUB logic port_2 maximum DL HSDPA available bandwidth
BTS3900 WCDMA
U
50332750
VS.IUB.FlowCt rol.DL.AdjBW. LgcPort2.Min
IUB logic port_2 minimum DL HSDPA available bandwidth
BTS3900 WCDMA
U
50332751
VS.IUB.FlowCt rol.DL.AdjBW. LgcPort2.Avg
IUB logic port_2 average DL HSDPA available bandwidth
BTS3900 WCDMA
U
Description The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. Issue 12 (2014-05-30)
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In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.Max or the VS.RscGroup.FlowCtrol.DL.AdjBW.Max counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Max counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.Min or the VS.RscGroup.FlowCtrol.DL.AdjBW.Min counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Min counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.Avg or the VS.RscGroup.FlowCtrol.DL.AdjBW.Avg counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Avg counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort2.Max or the VS.RscGroup.FlowCtrol.DL.AdjBW.Max counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Max counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort2.Min or the VS.RscGroup.FlowCtrol.DL.AdjBW.Min counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Min counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.AdjBW.LgcPort2.Avg or the VS.RscGroup.FlowCtrol.DL.AdjBW.Avg counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.AdjBW.Avg counter is used. The following table describes the meanings of each counter.
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Counter Name
Description
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.M ax
When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB adjusts the available bandwidth of HSDPA according to the result of internal congestion statistics, and it calculates the available bandwidth of HSDPA per five seconds. When the STATIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates the available bandwidth of HSDPA according to the following formula: Available bandwidth of HSDPA = Total physical bandwidth * Coefficient. (The coefficient is 0.8 in ATM mode and 0.9 in IP mode.) The NodeB calculates the available bandwidth of HSDPA per five seconds. When other algorithms are used, the base station reports 0 as the statistics value. VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Ma x is the collected maximum value of the available DL MAC-HS layer bandwidth. The DL statistics is valid only in the complete sharing mode of configured bandwidth. The complete sharing mode of configured bandwidth is enabled when the following requirement is met: Bandwidth configured for each type of PATH (for example RT and NRT) > Total physical bandwidth x 90%.
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Counter Name
Description
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.M in
When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB adjusts the available bandwidth of HSDPA according to the result of internal congestion statistics, and it calculates the available bandwidth of HSDPA per five seconds. When the STATIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates the available bandwidth of HSDPA according to the following formula: Available bandwidth of HSDPA = Total physical bandwidth * Coefficient. (The coefficient is 0.8 in ATM mode and 0.9 in IP mode.) The NodeB calculates the available bandwidth of HSDPA per five seconds. When other algorithms are used, the base station reports 0 as the statistics value. VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Mi n is the collected minimum value of the available DL MAC-HS layer bandwidth. The DL statistics is valid only in the complete sharing mode of configured bandwidth. The complete sharing mode of configured bandwidth is enabled when the following requirement is met: Bandwidth configured for each type of PATH (for example RT and NRT) > Total physical bandwidth x 90%.
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Counter Name
Description
VS.IUB.FlowCtrol.DL.AdjBW.LgcPort1.A vg
When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB adjusts the available bandwidth of HSDPA according to the result of internal congestion statistics, and it calculates the available bandwidth of HSDPA per five seconds. When the STATIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates the available bandwidth of HSDPA according to the following formula: Available bandwidth of HSDPA = Total physical bandwidth * Coefficient. (The coefficient is 0.8 in ATM mode and 0.9 in IP mode.) The NodeB calculates the available bandwidth of HSDPA per five seconds. When other algorithms are used, the base station reports 0 as the statistics value. The collected values of available bandwidth of the DL MAC-HS layer in a statistics period are accumulated and recorded as A, and the number of calculation times is recorded as B. Then, VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Av g = A/B. The DL statistics is valid only in the complete sharing mode of configured bandwidth. The complete sharing mode of configured bandwidth is enabled when the following requirement is met: Bandwidth configured for each type of PATH (for example RT and NRT) > Total physical bandwidth x 90%.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.This counter only include the payload of IP packets. If the IP path is carried on loopback interface, the value of this counter is the total available DL bandwidth on the current loopback interface. (The default DL bandwidth on the loopback interface is 1 Gbit/s.)
Formula None
Unit kbit/s Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Adj BW.LgcPort1.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Adj BW.LgcPort1.Min
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Adj BW.LgcPort1.Avg
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Adj BW.LgcPort2.Max
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Adj BW.LgcPort2.Min
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Adj BW.LgcPort2.Avg
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port available UL bandwidth increase times Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332727
VS.IUB.FlowCt rol.UL.UpBW. Num.LgcPort1
IUB logic port_1 available UL bandwidth increase times
BTS3900 WCDMA
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332752
VS.IUB.FlowCt rol.UL.UpBW. Num.LgcPort2
IUB logic port_2 available UL bandwidth increase times
BTS3900 WCDMA
U
Description The NodeB calculates the number of attempts to increase the available UL bandwidth of the NodeB IUB logic port per five seconds. All collection values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version, either this counter VS.IUB.FlowCtrol.UL.UpBW.Num.LgcPort1 or the VS.RscGroup.FlowCtrol.UL.UpBW.Num counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.UpBW.Num counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.UpBW.Num.LgcPort2 or the VS.RscGroup.FlowCtrol.UL.UpBW.Num counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.UL.UpBW.Num counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.UpB W.Num.LgcPort1
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
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Feature Name
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HSUPA Iub Flow Control in Case of Iub Congestion
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Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.UpB W.Num.LgcPort2
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010637
HSUPA Iub Flow Control in Case of Iub Congestion
LTE: None
IUB logic port DL HSDPA available bandwidth increase times after jitter congestion released Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332728
VS.IUB.FlowCt rol.DL.Delay.U pBW.Num.Lgc Port1
IUB logic port_1 DL HSDPA available bandwidth increase times after jitter congestion released
BTS3900 WCDMA
U
50332753
VS.IUB.FlowCt rol.DL.Delay.U pBW.Num.Lgc Port2
IUB logic port_2 DL HSDPA available bandwidth increase times after jitter congestion released
BTS3900 WCDMA
U
Description When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates the number of attempts to increase the available DL MAC-HS layer bandwidth after the congestion caused by jitter is released. When other algorithms are used, the NodeB reports 0 as the statistics value. All collected values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. Issue 12 (2014-05-30)
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In the current version, either this counter VS.IUB.FlowCtrol.DL.Delay.UpBW.Num.LgcPort1 or the VS.RscGroup.FlowCtrol.DL.Delay.UpBW.Num counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.Delay.UpBW.Num counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.Delay.UpBW.Num.LgcPort2 or the VS.RscGroup.FlowCtrol.DL.Delay.UpBW.Num counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.DL.Delay.UpBW.Num counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Dela y.UpBW.Num.LgcPort1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Dela y.UpBW.Num.LgcPort2
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port DL HSDPA available bandwidth increase times after packet loss congestion released
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332729
VS.IUB.FlowCt rol.DL.Drop.Up BW.Num.LgcP ort1
IUB logic port_1 DL HSDPA available bandwidth increase times after packet loss congestion released
BTS3900 WCDMA
U
50332754
VS.IUB.FlowCt rol.DL.Drop.Up BW.Num.LgcP ort2
IUB logic port_2 DL HSDPA available bandwidth increase times after packet loss congestion released
BTS3900 WCDMA
U
Description When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates the number of attempts to increase the available DL MAC-HS layer bandwidth after the congestion caused by packet loss is released. When other algorithms are used, the NodeB reports 0 as the statistics value. All collected values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version, either this counter VS.IUB.FlowCtrol.DL.Drop.UpBW.Num.LgcPort1 or the VS.RscGroup.FlowCtrol.DL.Drop.UpBW.Num counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.Drop.UpBW.Num counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.Drop.UpBW.Num.LgcPort2 or the VS.RscGroup.FlowCtrol.DL.Drop.UpBW.Num counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.DL.Drop.UpBW.Num counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
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Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Drop .UpBW.Num.LgcPort1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Drop .UpBW.Num.LgcPort2
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port available UL bandwidth decrease times for jitter congestion Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332730
VS.IUB.FlowCt rol.UL.DelayCo ng.DownBWNu m.LgcPort1
IUB logic port_1 available UL bandwidth decrease times for jitter congestion
BTS3900 WCDMA
U
50332755
VS.IUB.FlowCt rol.UL.DelayCo ng.DownBWNu m.LgcPort2
IUB logic port_2 available UL bandwidth decrease times for jitter congestion
BTS3900 WCDMA
U
Description The NodeB calculates the number of attempts to decrease the available UL physical layer bandwidth of the NodeB IUB logic port due to jitter per five seconds. All collected values in a Issue 12 (2014-05-30)
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statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayCong.DownBWNum.LgcPort1 or the VS.RscGroup.FlowCtrol.UL.DelayCong.DownBWNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.DelayCong.DownBWNum counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayCong.DownBWNum.LgcPort2 or the VS.RscGroup.FlowCtrol.UL.DelayCong.DownBWNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.DelayCong.DownBWNum counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Dela yCong.DownBWNum.LgcP ort1
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
VS.IUB.FlowCtrol.UL.Dela yCong.DownBWNum.LgcP ort2
Feature Name
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
HSUPA Iub Flow Control in Case of Iub Congestion
IUB logic port DL HSDPA available bandwidth decrease times for jitter congestion Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332731
VS.IUB.FlowCt rol.DL.DelayCo ng.DownBWNu m.LgcPort1
IUB logic port_1 DL HSDPA available bandwidth decrease times for jitter congestion
BTS3900 WCDMA
U
50332756
VS.IUB.FlowCt rol.DL.DelayCo ng.DownBWNu m.LgcPort2
IUB logic port_2 DL HSDPA available bandwidth decrease times for jitter congestion
BTS3900 WCDMA
U
Description When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates the number of attempts to decrease the available DL MAC-HS layer bandwidth of the NodeB IUB logic port due to jitter. When other algorithms are used, the NodeB reports 0 as the statistics value. All collected values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayCong.DownBWNum.LgcPort1 or the VS.RscGroup.FlowCtrol.DL.DelayCong.DownBWNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DelayCong.DownBWNum counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayCong.DownBWNum.LgcPort2 or the VS.RscGroup.FlowCtrol.DL.DelayCong.DownBWNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DelayCong.DownBWNum counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period. Issue 12 (2014-05-30)
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Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Dela yCong.DownBWNum.LgcP ort1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Dela yCong.DownBWNum.LgcP ort2
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port available UL bandwidth decrease times for packet loss congestion Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332732
VS.IUB.FlowCt rol.UL.DropCo ng.DownBWNu m.LgcPort1
IUB logic port_1 available UL bandwidth decrease times for packet loss congestion
BTS3900 WCDMA
U
50332757
VS.IUB.FlowCt rol.UL.DropCo ng.DownBWNu m.LgcPort2
IUB logic port_2 available UL bandwidth decrease times for packet loss congestion
BTS3900 WCDMA
U
Description The NodeB calculates the number of attempts to decrease the available UL physical layer bandwidth of the NodeB IUB logic port due to packet loss per five seconds. All collected values Issue 12 (2014-05-30)
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in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version, either this counter VS.IUB.FlowCtrol.UL.DropCong.DownBWNum.LgcPort1 or the VS.RscGroup.FlowCtrol.UL.DropCong.DownBWNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.DropCong.DownBWNum counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.DropCong.DownBWNum.LgcPort2 or the VS.RscGroup.FlowCtrol.UL.DropCong.DownBWNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.DropCong.DownBWNum counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Drop Cong.DownBWNum.LgcPo rt1
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
VS.IUB.FlowCtrol.UL.Drop Cong.DownBWNum.LgcPo rt2
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
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Feature Name
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HSUPA Iub Flow Control in Case of Iub Congestion
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IUB logic port DL HSDPA available bandwidth decrease times for packet loss congestion Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332733
VS.IUB.FlowCt rol.DL.DropCo ng.DownBWNu m.LgcPort1
IUB logic port_1 DL HSDPA available bandwidth decrease times for packet loss congestion
BTS3900 WCDMA
U
50332758
VS.IUB.FlowCt rol.DL.DropCo ng.DownBWNu m.LgcPort2
IUB logic port_2 DL HSDPA available bandwidth decrease times for packet loss congestion
BTS3900 WCDMA
U
Description When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates the number of attempts to decrease the available DL MAC-HS layer bandwidth of the NodeB IUB logic port due to packet loss. When other algorithms are used, the NodeB reports 0 as the statistics value. All collected values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version, either this counter VS.IUB.FlowCtrol.DL.DropCong.DownBWNum.LgcPort1 or the VS.RscGroup.FlowCtrol.DL.DropCong.DownBWNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DropCong.DownBWNum counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.DropCong.DownBWNum.LgcPort2 or the VS.RscGroup.FlowCtrol.DL.DropCong.DownBWNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DropCong.DownBWNum counter is used. Issue 12 (2014-05-30)
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Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Drop Cong.DownBWNum.LgcPo rt1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Drop Cong.DownBWNum.LgcPo rt2
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Number of UL frames IUB logic port sent successfully Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332734
VS.IUB.FlowCt rol.UL.SendNu m.LgcPort1
IUB logic port_1 Number of UL frames IUB logic port sent successfully
BTS3900 WCDMA
U
50332759
VS.IUB.FlowCt rol.UL.SendNu m.LgcPort2
IUB logic port_2 Number of UL frames IUB logic port sent successfully
BTS3900 WCDMA
U
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Description The NodeB calculates the number of frames that are successfully sent through the NodeB IUB logic port per five seconds. All calculation values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version , either this counter VS.IUB.FlowCtrol.UL.SendNum.LgcPort1 or the VS.RscGroup.FlowCtrol.UL.SendNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.UL.SendNum counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.SendNum.LgcPort2 or the VS.RscGroup.FlowCtrol.UL.SendNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.SendNum counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Send Num.LgcPort1
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
VS.IUB.FlowCtrol.UL.Send Num.LgcPort2
Feature Name
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
HSUPA Iub Flow Control in Case of Iub Congestion
Number of DL HSDPA frames IUB logic port received Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332735
VS.IUB.FlowCt rol.DL.Receive Num.LgcPort1
IUB logic port_1 Number of DL HSDPA frames IUB logic port received
BTS3900 WCDMA
U
50332760
VS.IUB.FlowCt rol.DL.Receive Num.LgcPort2
IUB logic port_2 Number of DL HSDPA frames IUB logic port received
BTS3900 WCDMA
U
Description When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates the number of frames that are successfully received through the NodeB IUB logic port. When other algorithms are used, the NodeB reports 0 as the statistics value. All collected values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version , either this counter VS.IUB.FlowCtrol.DL.ReceiveNum.LgcPort1 or the VS.RscGroup.FlowCtrol.DL.ReceiveNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.DL.ReceiveNum counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.ReceiveNum.LgcPort2 or the VS.RscGroup.FlowCtrol.DL.ReceiveNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.ReceiveNum counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Rece iveNum.LgcPort1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Rece iveNum.LgcPort2
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
Number of lost UL frames Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332736
VS.IUB.FlowCt rol.UL.DropNu m.LgcPort1
IUB logic port_1 Number of lost UL frames
BTS3900 WCDMA
U
50332761
VS.IUB.FlowCt rol.UL.DropNu m.LgcPort2
IUB logic port_2 Number of lost UL frames
BTS3900 WCDMA
U
Description The NodeB calculates the number of UL frames that are discarded by the NodeB IUB logic port per five seconds. All calculation values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version , either this counter VS.IUB.FlowCtrol.UL.DropNum.LgcPort1 or the VS.RscGroup.FlowCtrol.UL.DropNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.UL.DropNum counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.DropNum.LgcPort2 or the VS.RscGroup.FlowCtrol.UL.DropNum counter is used, or they can both be used. The reported Issue 12 (2014-05-30)
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value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.DropNum counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Drop Num.LgcPort1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010637
HSUPA Iub Flow Control in Case of Iub Congestion
LTE: None VS.IUB.FlowCtrol.UL.Drop Num.LgcPort2
Multi-mode: None GSM: None UMTS: WRFD-010637
HSUPA Iub Flow Control in Case of Iub Congestion
LTE: None
Number of lost DL HSDPA frames Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332737
VS.IUB.FlowCt rol.DL.DropNu m.LgcPort1
IUB logic port_1 Number of lost DL HSDPA frames
BTS3900 WCDMA
U
50332762
VS.IUB.FlowCt rol.DL.DropNu m.LgcPort2
IUB logic port_2 Number of lost DL HSDPA frames
BTS3900 WCDMA
U
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Description When the DYNAMIC_BW_SHAPING algorithm of the NodeB is enabled, the NodeB calculates the number of DL frames that are lost on the NodeB IUB logic port. These DL HSDPA frames are discarded by the RNC interface board, intermediate transmission links, or the NodeB. When other algorithms are used, the NodeB reports 0 as the statistics value. All collected values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version , either this counter VS.IUB.FlowCtrol.DL.DropNum.LgcPort1 or the VS.RscGroup.FlowCtrol.DL.DropNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.DL.DropNum counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.DropNum.LgcPort2 or the VS.RscGroup.FlowCtrol.DL.DropNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DropNum counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Drop Num.LgcPort1
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Drop Num.LgcPort2
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port UL delay jitter Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332738
VS.IUB.FlowCt rol.UL.DelayVa ra.LgcPort1.Ma x
IUB logic port_1 maximum UL delay jitter
BTS3900 WCDMA
U
50332739
VS.IUB.FlowCt rol.UL.DelayVa ra.LgcPort1.Mi n
IUB logic port_1 minimum UL delay jitter
BTS3900 WCDMA
U
50332740
VS.IUB.FlowCt rol.UL.DelayVa ra.LgcPort1.Av g
IUB logic port_1 average UL delay jitter
BTS3900 WCDMA
U
50332763
VS.IUB.FlowCt rol.UL.DelayVa ra.LgcPort2.Ma x
IUB logic port_2 maximum UL delay jitter
BTS3900 WCDMA
U
50332764
VS.IUB.FlowCt rol.UL.DelayVa ra.LgcPort2.Mi n
IUB logic port_2 minimum UL delay jitter
BTS3900 WCDMA
U
50332765
VS.IUB.FlowCt rol.UL.DelayVa ra.LgcPort2.Av g
IUB logic port_2 average UL delay jitter
BTS3900 WCDMA
U
Description The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1.Max or the VS.RscGroup.FlowCtrol.UL.DelayVara.Max counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.DelayVara.Max counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1.Min or the VS.RscGroup.FlowCtrol.DL.DropNum counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DropNum counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1.Avg or the VS.RscGroup.FlowCtrol.UL.DelayVara.Avg counter is used, or they can both be used. The Issue 12 (2014-05-30)
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reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.DelayVara.Avg counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort2.Max or the VS.RscGroup.FlowCtrol.UL.DelayVara.Max counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.UL.DelayVara.Max counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort2.Min or the VS.RscGroup.FlowCtrol.UL.DelayVara.Min counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.DelayVara.Min counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.DelayVara.LgcPort2.Avg or the VS.RscGroup.FlowCtrol.UL.DelayVara.Avg counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.DelayVara.Avg counter is used. The following table describes the meanings of each counter. Counter Name
Description
VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1 .Max
The NodeB calculates the UL jitter per five seconds. VS.IUB.FlowCtrol.UL.DelayVara.LgcPort. Max is the collected maximum value of UL jitter.
VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1 .Min
The NodeB calculates the UL jitter per five seconds. VS.IUB.FlowCtrol.UL.DelayVara.LgcPort. Min is the collected minimum value of UL jitter.
VS.IUB.FlowCtrol.UL.DelayVara.LgcPort1 .Avg
The NodeB calculates the UL jitter per five seconds. All collected values of UL jitter in a statistics period are accumulated and recorded as A, and the number of calculation times is recorded as B. Then, VS.IUB.FlowCtrol.UL.DelayVara.LgcPort. Avg = A/B.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit ms Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Dela yVara.LgcPort1.Max
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
VS.IUB.FlowCtrol.UL.Dela yVara.LgcPort1.Min
GSM: None LTE: None
GSM: None LTE: None
GSM: None LTE: None
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
VS.IUB.FlowCtrol.UL.Dela yVara.LgcPort2.Avg
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Dela yVara.LgcPort2.Min
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Dela yVara.LgcPort2.Max
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None UMTS: WRFD-010637
VS.IUB.FlowCtrol.UL.Dela yVara.LgcPort1.Avg
Feature Name
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
HSUPA Iub Flow Control in Case of Iub Congestion
IUB logic port DL HSDPA delay jitter
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332741
VS.IUB.FlowCt rol.DL.DelayVa ra.LgcPort1.Ma x
IUB logic port_1 maximum DL HSDPA delay jitter
BTS3900 WCDMA
U
50332742
VS.IUB.FlowCt rol.DL.DelayVa ra.LgcPort1.Mi n
IUB logic port_1 minimum DL HSDPA delay jitter
BTS3900 WCDMA
U
50332743
VS.IUB.FlowCt rol.DL.DelayVa ra.LgcPort1.Av g
IUB logic port_1 average DL HSDPA delay jitter
BTS3900 WCDMA
U
50332766
VS.IUB.FlowCt rol.DL.DelayVa ra.LgcPort2.Ma x
IUB logic port_2 maximum DL HSDPA delay jitter
BTS3900 WCDMA
U
50332767
VS.IUB.FlowCt rol.DL.DelayVa ra.LgcPort2.Mi n
IUB logic port_2 minimum DL HSDPA delay jitter
BTS3900 WCDMA
U
50332768
VS.IUB.FlowCt rol.DL.DelayVa ra.LgcPort2.Av g
IUB logic port_2 average DL HSDPA delay jitter
BTS3900 WCDMA
U
Description The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported. In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1.Max or the VS.RscGroup.FlowCtrol.DL.DelayVara.Max counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Max counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1.Min or the VS.RscGroup.FlowCtrol.DL.DelayVara.Min counter is used, or they can both be used. The Issue 12 (2014-05-30)
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reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Min counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1.Avg or the VS.RscGroup.FlowCtrol.DL.DelayVara.Avg counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Avg counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort2.Max or the VS.RscGroup.FlowCtrol.DL.DelayVara.Max counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Max counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort2.Min or the VS.RscGroup.FlowCtrol.DL.DelayVara.Min counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version, only the VS.RscGroup.FlowCtrol.DL.DelayVara.Min counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.DelayVara.LgcPort2.Avg or the VS.RscGroup.FlowCtrol.DL.DelayVara.Avg counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.DelayVara.Avg counter is used. The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1 .Max
When the DYNAMIC_BW_SHAPING algorithm is enabled, the NodeB calculates the DL jitter per five seconds. When other algorithms are used, the NodeB reports 0 as the statistics value. VS.IUB.FlowCtrol.DL.DelayVara.LgcPort. Max is the collected maximum value of DL jitter.
VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1 .Min
When the DYNAMIC_BW_SHAPING algorithm is enabled, the NodeB calculates the DL jitter per five seconds. When other algorithms are used, the NodeB reports 0 as the statistics value. VS.IUB.FlowCtrol.DL.DelayVara.LgcPort. Min is the collected minimum value of DL jitter.
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Counter Name
Description
VS.IUB.FlowCtrol.DL.DelayVara.LgcPort1 .Avg
When the DYNAMIC_BW_SHAPING algorithm is enabled, the NodeB calculates the DL jitter per five seconds. When other algorithms are used, the NodeB reports 0 as the statistics value. All collected values of DL jitter in a statistics are accumulated and recorded as A, and the number of calculation times is recorded as B. Then, VS.IUB.FlowCtrol.DL.DelayVara.LgcPort. Avg = A/B.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit ms
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Dela yVara.LgcPort1.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Dela yVara.LgcPort1.Min
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Dela yVara.LgcPort1.Avg
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
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Counter Name
Feature ID
VS.IUB.FlowCtrol.DL.Dela yVara.LgcPort2.Max
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Dela yVara.LgcPort2.Min
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Dela yVara.LgcPort2.Avg
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
IUB logic port UL congestion duration Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332744
VS.IUB.FlowCt rol.UL.CongTi me.LgcPort1
IUB logic port_1 UL congestion duration
BTS3900 WCDMA
U
50332769
VS.IUB.FlowCt rol.UL.CongTi me.LgcPort2
IUB logic port_2 UL congestion duration
BTS3900 WCDMA
U
Description The NodeB determines whether the following requirement is met: VS.IUB.FlowCtrol.UL.AdjBW.LgcPort.Avg*0.8 less than Actual physical layer flow of the UL logic port. If the preceding requirement is met, the UL congestion duration is increased by one second. If the preceding requirement is not met, the UL congestion duration does not change. The NodeB collects the UL congestion duration per five seconds. All collected values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported.Under certain circumstances, the value of this counter may have an error of one measurement period (5 seconds). Issue 12 (2014-05-30)
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In the current version, either this counter VS.IUB.FlowCtrol.UL.CongTime.LgcPort1 or the VS.RscGroup.FlowCtrol.UL.CongTime counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.CongTime counter is used. In the current version, either this counter VS.IUB.FlowCtrol.UL.CongTime.LgcPort2 or the VS.RscGroup.FlowCtrol.UL.CongTime counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.UL.CongTime counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
Unit s
Related Features Counter Name
Feature ID
VS.IUB.FlowCtrol.UL.Con gTime.LgcPort1
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
VS.IUB.FlowCtrol.UL.Con gTime.LgcPort2
Feature Name
HSUPA Iub Flow Control in Case of Iub Congestion
Multi-mode: None GSM: None UMTS: WRFD-010637 LTE: None
HSUPA Iub Flow Control in Case of Iub Congestion
IUB logic port DL HSDPA congestion duration
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332745
VS.IUB.FlowCt rol.DL.CongTi me.LgcPort1
IUB logic port_1 DL HSDPA congestion duration
BTS3900 WCDMA
U
50332770
VS.IUB.FlowCt rol.DL.CongTi me.LgcPort2
IUB logic port_2 DL HSDPA congestion duration
BTS3900 WCDMA
U
Description When the DYNAMIC_BW_SHAPING algorithm is enabled in complete sharing mode of configured bandwidth, the NodeB determines whether the following requirement is met: VS.IUB.FlowCtrol.DL.AdjBW.LgcPort.Avg*0.8 less than HSDPA flow of the DL logic port. If the preceding requirement is met, the DL congestion duration is increased by one second. If the preceding requirement is not met, the DL congestion duration does not change. The NodeB calculates the DL congestion duration per five seconds. When other algorithms are used, the NodeB reports 0 as the calculation value. All collected values in a statistics period are accumulated. The NodeB reports the traffic statistics of logic ports that carry PATH. The NodeB can take the traffic statistics on these counters for a maximum of two logic ports and it preferentially reports the statistics for IP transmission. If only one logic port is configured, the traffic statistics of only one logic port is reported.Under certain circumstances, the value of this counter may have an error of one measurement period (5 seconds). In the current version, either this counter VS.IUB.FlowCtrol.DL.CongTime.LgcPort1 or the VS.RscGroup.FlowCtrol.DL.CongTime counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.CongTime counter is used. In the current version, either this counter VS.IUB.FlowCtrol.DL.CongTime.LgcPort2 or the VS.RscGroup.FlowCtrol.DL.CongTime counter is used, or they can both be used. The reported value of this counter is normal but this counter is not recommended for use. In a later version , only the VS.RscGroup.FlowCtrol.DL.CongTime counter is used.
Measurement Points For the preceding counters, the NodeB takes statistics in each scheduling period.
Formula None
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Unit s
Related Features Counter Name
Feature ID
Feature Name
VS.IUB.FlowCtrol.DL.Con gTime.LgcPort1
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None VS.IUB.FlowCtrol.DL.Con gTime.LgcPort2
Multi-mode: None GSM: None UMTS: WRFD-01061010
HSDPA Flow Control
LTE: None
2.2.2 NodeB Hardware Baseband Resource Measurement (TRAFFIC.NODEB) Overview The measurement of the NodeB Hardware Baseband Resource indicates the availability of the hardware resources at the NodeB side.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332565
VS.HW.DLCredit Available
Number of Available Downlink Hardware CEs
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332566
VS.HW.ULCredit Available
Number of Available Uplink Hardware CEs
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Counter Relationship None
Number of Available Downlink Hardware CEs Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332565
VS.HW.DLCre ditAvailable
Number of Available Downlink Hardware CEs
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of available downlink CEs for hardware in the NodeB within a measurement period.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the maximum of these sampling results is defined as the value of the counter.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.HW.DLCreditAvailable
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of Available Uplink Hardware CEs Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332566
VS.HW.ULCre ditAvailable
Number of Available Uplink Hardware CEs
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of available uplink CEs for hardware in the NodeB within a measurement period.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the maximum of these sampling results is defined as the value of the counter.
Formula None
Unit None
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Related Features Counter Name
Feature ID
Feature Name
VS.HW.ULCreditAvailable
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
2.2.3 NodeB NBAP procedure measurement (NBAP.NODEB) Overview NodeB NBAP procedure measurement refers to the measurement of the load and status during the NodeB NBAP procedure.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332585
VS.RlSetup.Reject. License.Cong
Number of radio link setup rejections because of license congestion in terms of the signaling processing capability
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332587
VS.RadioLink.Rec v.Max
Maximum number of received radio links per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332588
VS.RadioLink.Han dle.Max
Maximum number of wireless connection processing times per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332589
VS.RlSetup.Reject. CP.Cong
Number of radio link setup rejections because of control plane congestion
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332590
VS.RadioLink.Rec v.Mean
Average number of received radio links per second
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
Counter Relationship None
Number of radio link setup rejections because of license congestion in terms of the signaling processing capability
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332585
VS.RlSetup.Rej ect.License.Con g
Number of radio link setup rejections because of license congestion in terms of the signaling processing capability
BTS3900 WCDMA, BTS3900
U
Description This counter measures the total number of radio link setup rejections because the number of processed radio links exceeds the licensed capacity within a measurement period. The formula for calculating this counter is as follows: Number of processed radio links = Number of processed radio link setup requests in the NodeB + Number of radio link addition requests in the NodeB + 2 x Number of radio link reconfiguration preparations in the NodeB.
Measurement Points The measurement is triggered when the request for radio link setup, addition, or reconfiguration is rejected because the sum of the number of processed radio link setup requests in the NodeB, the number of radio link addition requests in the NodeB, and doubled number of radio link reconfiguration preparations in the NodeB is beyond the licensed capacity. As shown in point A in Figure 1, this counter is incremented by 1 each time the request for radio link setup is rejected because the number of processed radio links is beyond the licensed capacity after the NodeB receives a RADIO LINK SETUP REQUEST message from the RNC. As shown in point A in Figure 2, this counter is incremented by 1 each time the request for radio link addition is rejected because the number of processed radio links is beyond the licensed capacity after the NodeB receives a RADIO LINK ADDITION REQUEST message from the RNC. As shown in point A in Figure 3, this counter is incremented by 1 each time the request for radio link reconfiguration is rejected because the number of processed radio links is beyond the licensed capacity after the NodeB receives a RADIO LINK RECONFIGURATION PREPARE message from the RNC.
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Figure 2-11
Figure 2-12
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Figure 2-13
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.RlSetup.Reject.License. Cong
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of Received Radio Links per Second Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332587
VS.RadioLink. Recv.Max
Maximum number of received radio links per second
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332590
VS.RadioLink. Recv.Mean
Average number of received radio links per second
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of received radio links over the Iub interface. The formula for calculating this counter is as follows: Number of received radio links over the Iub interface = Number of received radio link setup requests over the Iub interface + Number of radio link addition requests over the Iub interface + 2 x Number of radio link reconfiguration preparations over the Iub interface.
Measurement Points Within a measurement period, this counter is incremented by 1 each time the NodeB receives a radio link setup request over the Iub interface, a radio link addition request over the Iub interface, or a radio link reconfiguration preparation over the Iub interface. As shown in point A in Figure 1, the counter is incremented by 1 each time the NodeB receives a RADIO LINK SETUP REQUEST message from the RNC. As shown in point A in Figure 2, the counter is incremented by 1 each time the NodeB receives a RADIO LINK ADDITION REQUEST message from the RNC. As shown in point A in Figure 3, the counter is incremented by 1 each time the NodeB receives a RADIO LINK RECONFIGURATION PREPARE message from the RNC. At the end of a measurement period, the average number of received radio links is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of received radio links per second. Figure 2-14
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Figure 2-15
Figure 2-16
Formula None
Unit None
Related Features None
Maximum number of wireless connection processing times per second Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332588
VS.RadioLink. Handle.Max
Maximum number of wireless connection processing times per second
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of processed radio links in the NodeB. The formula for calculating this counter is as follows: Number of processed radio links in the NodeB = Number of processed radio link setup requests in the NodeB + Number of radio link addition requests in the NodeB + 2 x Number of radio link reconfiguration preparation s in the NodeB. The number of processed radio links in the NodeB does not include the number of radio link setup rejections due to congestion on the control plane.
Measurement Points Within a measurement period, this counter is incremented by 1 each time the NodeB receives a radio link setup request over the Iub interface, a radio link addition request over the Iub interface, or a radio link reconfiguration preparation over the Iub interface and no radio link setup request is rejected due to congestion on the control plane. As shown in point A in Figure 1, this counter is incremented by 1 each time the NodeB does not reject the RADIO LINK SETUP REQUEST message even though the control plane is congested. As shown in point A in Figure 2, this counter is incremented by 1 each time the NodeB does not reject the RADIO LINK ADDITION REQUEST message even though the control plane is congested. As shown in point A in Figure 3, this counter is incremented by 1 each time the NodeB does not reject the RADIO LINK RECONFIGURATION PREPARE message even though the control plane is congested. This counter is sampled every five seconds. The average number of processed radio links per second is obtained within each measurement period, and then the maximum of these sampling results is defined as the value of the counter.
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Figure 2-17
Figure 2-18
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Figure 2-19
Formula None
Unit None
Related Features None
Total number of times radio link setup requests are rejected because of control plane congestion (CPU overload) within a measurement period Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332589
VS.RlSetup.Rej ect.CP.Cong
Number of radio link setup rejections because of control plane congestion
BTS3900 WCDMA, BTS3900
U
Description This counter measures the total number of radio link setup rejections in the NodeB due to congestion on the control plane, that is, CPU overload. Issue 12 (2014-05-30)
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Measurement Points As shown in point A in the following figure, this counter is incremented by 1 each time the NodeB receives a radio link setup rejection due to congestion on the control plane. Figure 2-20
Formula None
Unit None
Related Features None
2.2.4 Reserved measurements per NodeB (NODEBRESERVE.NODEB) Overview Measurements reserved for NodeBs.Reserved counter is used temporarily in patch versions and will be replaced with a new counter in later versions. For the detailed information about used reserved counters, see the "Used Reserved Counter List" of the corresponding version.
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Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332567
VS.NodeBReserve. Counter1.NodeB
Reserved 1 for the NodeB
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332568
VS.NodeBReserve. Counter2.NodeB
Reserved 2 for the NodeB
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332569
VS.NodeBReserve. Counter3.NodeB
Reserved 3 for the NodeB
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332570
VS.NodeBReserve. Counter4.NodeB
Reserved 4 for the NodeB
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332571
VS.NodeBReserve. Counter5.NodeB
Reserved 5 for the NodeB
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
Counter Relationship None
Reserved 1 for the NodeB Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332567
VS.NodeBRese rve.Counter1.N odeB
Reserved 1 for the NodeB
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.NodeBReserve.Counter1.NodeB
None.
Measurement Points None.
Formula None Issue 12 (2014-05-30)
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Unit None
Related Features None
Reserved 2 for the NodeB Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332568
VS.NodeBRese rve.Counter2.N odeB
Reserved 2 for the NodeB
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.NodeBReserve.Counter2.NodeB
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 3 for the NodeB Issue 12 (2014-05-30)
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332569
VS.NodeBRese rve.Counter3.N odeB
Reserved 3 for the NodeB
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.NodeBReserve.Counter3.NodeB
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 4 for the NodeB Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332570
VS.NodeBRese rve.Counter4.N odeB
Reserved 4 for the NodeB
BTS3900 WCDMA, BTS3900
U
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Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.NodeBReserve.Counter4.NodeB
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 5 for the NodeB Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332571
VS.NodeBRese rve.Counter5.N odeB
Reserved 5 for the NodeB
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.NodeBReserve.Counter5.NodeB
None.
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Measurement Points None.
Formula None
Unit None
Related Features None
2.3 Operator (OPERATOR) Overview The object type "OPERATOR" contains two function subsets: "TRAFFIC.OPERATOR" and "OPERESERVE.OPERATOR".
FunctionSubSets FunctionSubSet
FunctionSubSet Name
TRAFFIC.OPERATOR
Traffic measurements per operator
OPERESERVE.OPERATOR
Reserved measurements per operator
2.3.1 Traffic Measurements per Operator (TRAFFIC.OPERATOR) Overview According to the usage of CEs of each license group, the measurement of resources for license groups indicates the consumption of baseband resources on the NodeB side.
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Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332555
VS.LC.ULMean.Li censeGroup
Average number of uplink CEs consumed by an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332556
VS.LC.DLMean.Li censeGroup
Average number of downlink CEs consumed by an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332557
VS.LC.DLCreditA vailable.LicenseGr oup.Dedicated
Number of dedicated DL CEs configured for an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332558
VS.LC.ULCreditA vailable.LicenseGr oup.Dedicated
Number of dedicated UL CEs configured for an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50332559
VS.LC.ULCreditA vailable.Shared
Number of UL CEs configured for a shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332560
VS.LC.DLCreditA vailable.Shared
Number of DL CEs configured for a shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332561
VS.LC.ULMean.Li censeGroup.Shared
Average number of UL CEs consumed in an shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50332562
VS.LC.DLMean.Li censeGroup.Shared
Average number of DL CEs consumed in an shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50332563
VS.HSUPA.LC.UL Mean.LicenseGroup
Average number of uplink CEs consumed by HSUPA services of an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332564
VS.HSUPA.LC.UL Mean.LicenseGrou p.Shared
Average number of shared uplink CEs consumed by HSUPA services of a shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50332593
VS.LC.ULCreditU sed.Mean.SharedOperator
Average number of uplink CEs consumed by each operator in an MOCN network
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332594
VS.LC.DLCreditU sed.Mean.SharedOperator
Average number of downlink CEs consumed by each operator in an MOCN network
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
50342555
VS.LC.ULMax.LicenseGroup
Maximum number of uplink CEs consumed by an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50342556
VS.LC.DLMax.LicenseGroup
Maximum number of downlink CEs consumed by an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50342561
VS.LC.ULMax.Lic enseGroup.Shared
Maximum number of UL CEs consumed in an shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
50342562
VS.LC.DLMax.Lic enseGroup.Shared
Maximum number of DL CEs consumed in an shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:Version earlier than V200R011C00
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Counter ID
Counter Name
Counter Description
Original Release
50342563
VS.HSUPA.LC.UL Max.LicenseGroup
Maximum number of uplink CEs consumed by HSUPA services of an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50342564
VS.HSUPA.LC.UL Max.LicenseGroup .Shared
Maximum number of shared uplink CEs consumed by HSUPA services of a shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50342567
VS.LC.DLMin.Lice nseGroup.Shared
Minimum Number of DL CEs consumed in an shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50342568
VS.LC.ULMin.Lice nseGroup.Shared
Minimum Number of UL CEs consumed in an shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50342569
VS.HSUPA.LC.UL Min.LicenseGroup. Shared
Minimum Number of Shared uplink CEs Consumed by HSUPA Services of a shared group
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
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Counter ID
Counter Name
Counter Description
Original Release
50342570
VS.LC.DLMin.LicenseGroup
Minimum number of downlink CEs consumed by an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50342571
VS.LC.ULMin.LicenseGroup
Minimum number of uplink CEs consumed by an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
50342572
VS.HSUPA.LC.UL Min.LicenseGroup
Minimum number of uplink CEs consumed by HSUPA services of an operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R012C 00
Counter Relationship None
Number of Uplink CEs Consumed by an Operator Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332555
VS.LC.ULMea n.LicenseGroup
Average number of uplink CEs consumed by an operator
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342555
VS.LC.ULMax. LicenseGroup
Maximum number of uplink CEs consumed by an operator
BTS3900 WCDMA, BTS3900
U
50342571
VS.LC.ULMin. LicenseGroup
Minimum number of uplink CEs consumed by an operator
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of dedicated and shared uplink CEs consumed by an operator. This counter is only used for operators with RAN sharing.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the average number of dedicated and shared uplink CEs consumed by an operator is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of dedicated and shared uplink CEs consumed by an operator, and the minimum of these sampling results is defined as the minimum number of dedicated and shared uplink CEs consumed by an operator.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.LC.ULMean.LicenseGroup
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
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Counter Name
Feature ID
VS.LC.ULMax.LicenseGroup
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.LC.ULMin.LicenseGroup
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of Downlink CEs Consumed by an Operator Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332556
VS.LC.DLMea n.LicenseGroup
Average number of downlink CEs consumed by an operator
BTS3900 WCDMA, BTS3900
U
50342556
VS.LC.DLMax. LicenseGroup
Maximum number of downlink CEs consumed by an operator
BTS3900 WCDMA, BTS3900
U
50342570
VS.LC.DLMin. LicenseGroup
Minimum number of downlink CEs consumed by an operator
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of dedicated and shared downlink CEs consumed by an operator. This counter is only used for operators with RAN sharing.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the average number of dedicated and shared downlink CEs consumed by an operator is obtained by dividing Issue 12 (2014-05-30)
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the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of dedicated and shared downlink CEs consumed by an operator, and the minimum of these sampling results is defined as the minimum number of dedicated and shared uplink CEs consumed by an operator.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.LC.DLMean.LicenseGroup
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.LC.DLMax.LicenseGroup
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.LC.DLMin.LicenseGroup
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of DL CEs Configured for an Operator Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332557
VS.LC.DLCred itAvailable.Lice nseGroup.Dedic ated
Number of dedicated DL CEs configured for an operator
BTS3900 WCDMA, BTS3900
U
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Description This counter measures the number of dedicated downlink CEs configured for an operator. This counter is only used for operators with RAN sharing.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the number of dedicated downlink CEs configured for an operator is obtained by dividing the accumulated value in the period by the number of samples.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.LC.DLCreditAvailable. LicenseGroup.Dedicated
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of UL CEs Configured for an Operator Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332558
VS.LC.ULCred itAvailable.Lice nseGroup.Dedic ated
Number of dedicated UL CEs configured for an operator
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of dedicated uplink CEs configured for an operator. This counter is only used for operators with RAN sharing. Issue 12 (2014-05-30)
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Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the number of dedicated uplink CEs configured for an operator is obtained by dividing the accumulated value in the period by the number of samples.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.LC.ULCreditAvailable. LicenseGroup.Dedicated
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of UL CEs Configured for a Shared Group Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332559
VS.LC.ULCred itAvailable.Shar ed
Number of UL CEs configured for a shared group
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of uplink CEs configured for a shared group within a measurement period. This counter is only used for operators with RAN sharing.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the number of uplink CEs configured for a shared group is obtained by dividing the accumulated value in the period by the number of samples. Issue 12 (2014-05-30)
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Formula None
Unit None
Related Features Counter Name
Feature ID
VS.LC.ULCreditAvailable. Shared
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of DL CEs Configured for a Shared Group Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332560
VS.LC.DLCred itAvailable.Shar ed
Number of DL CEs configured for a shared group
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of downlink CEs configured for a shared group within a measurement period. This counter is only used for operators with RAN sharing.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the number of downlink CEs configured for a shared group is obtained by dividing the accumulated value in the period by the number of samples.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.LC.DLCreditAvailable. Shared
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of Uplink CEs Consumed in an Shared group Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332561
VS.LC.ULMea n.LicenseGroup .Shared
Average number of UL CEs consumed in an shared group
BTS3900 WCDMA, BTS3900
U
50342561
VS.LC.ULMax. LicenseGroup.S hared
Maximum number of UL CEs consumed in an shared group
BTS3900 WCDMA, BTS3900
U
50342568
VS.LC.ULMin. LicenseGroup.S hared
Minimum Number of UL CEs consumed in an shared group
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of uplink CEs consumed in an shared group. This counter is only used for operators with RAN sharing.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the average number of uplink CEs consumed in an shared group is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of uplink CEs consumed in an shared group, and the minimum of these sampling results is defined as the minimum number of uplink CEs consumed in an shared group. Issue 12 (2014-05-30)
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Formula None
Unit None
Related Features Counter Name
Feature ID
VS.LC.ULMean.LicenseGr oup.Shared
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.LC.ULMax.LicenseGro up.Shared
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.LC.ULMin.LicenseGrou p.Shared
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of Downlink CEs consumed in an Shared group Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332562
VS.LC.DLMea n.LicenseGroup .Shared
Average number of DL CEs consumed in an shared group
BTS3900 WCDMA, BTS3900
U
50342562
VS.LC.DLMax. LicenseGroup.S hared
Maximum number of DL CEs consumed in an shared group
BTS3900 WCDMA, BTS3900
U
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342567
VS.LC.DLMin. LicenseGroup.S hared
Minimum Number of DL CEs consumed in an shared group
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of shared downlink CEs consumed in an shared group. This counter is only used for operators with RAN sharing.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the average number of downlink CEs consumed in an shared group is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of downlink CEs consumed in an shared group, and the minimum of these sampling results is defined as the minimum number of downlink CEs consumed in an shared group.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.LC.DLMean.LicenseGr oup.Shared
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.LC.DLMax.LicenseGro up.Shared
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
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Counter Name
Feature ID
VS.LC.DLMin.LicenseGrou p.Shared
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of Uplink CEs Consumed by HSUPA Services of an Operator Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332563
VS.HSUPA.LC .ULMean.Licen seGroup
Average number of uplink CEs consumed by HSUPA services of an operator
BTS3900 WCDMA, BTS3900
U
50342563
VS.HSUPA.LC .ULMax.LicenseGroup
Maximum number of uplink CEs consumed by HSUPA services of an operator
BTS3900 WCDMA, BTS3900
U
50342572
VS.HSUPA.LC .ULMin.LicenseGroup
Minimum number of uplink CEs consumed by HSUPA services of an operator
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of dedicated and shared uplink CEs consumed by HSUPA services of an operator. This counter is only used for operators with RAN sharing.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the average number of dedicated and shared uplink CEs consumed by HSUPA services of an operator is Issue 12 (2014-05-30)
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obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of dedicated and shared uplink CEs consumed by HSUPA services of an operator, and the minimum of these sampling results is defined as the minimum number of dedicated and shared uplink CEs consumed by HSUPA services of an operator.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.HSUPA.LC.ULMean.Li censeGroup
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.HSUPA.LC.ULMax.LicenseGroup
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.HSUPA.LC.ULMin.LicenseGroup
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Number of Shared Uplink CEs Consumed by HSUPA Services of a Shared Group
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332564
VS.HSUPA.LC .ULMean.Licen seGroup.Shared
Average number of shared uplink CEs consumed by HSUPA services of a shared group
BTS3900 WCDMA, BTS3900
U
50342564
VS.HSUPA.LC .ULMax.Licens eGroup.Shared
Maximum number of shared uplink CEs consumed by HSUPA services of a shared group
BTS3900 WCDMA, BTS3900
U
50342569
VS.HSUPA.LC .ULMin.Licens eGroup.Shared
Minimum Number of Shared uplink CEs Consumed by HSUPA Services of a shared group
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of shared uplink CEs consumed by HSUPA services of a shared group. This counter is only used for operators with RAN sharing.
Measurement Points This counter is sampled every five seconds. At the end of a measurement period, the average number of dedicated uplink CEs consumed by an operator is obtained by dividing the accumulated value in the period by the number of samples. The maximum of these sampling results is defined as the maximum number of dedicated uplink CEs consumed by an operator, and the minimum of these sampling results is defined as the minimum number of dedicated uplink CEs consumed by HSUPA services of an operator.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features Counter Name
Feature ID
VS.HSUPA.LC.ULMean.Li censeGroup.Shared
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.HSUPA.LC.ULMax.Lic enseGroup.Shared
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None VS.HSUPA.LC.ULMin.Lic enseGroup.Shared
Multi-mode: None GSM: None UMTS: WRFD-020101
Admission Control
LTE: None
Average number of uplink CEs consumed by each operator in an MOCN network Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332593
VS.LC.ULCred itUsed.Mean.Sh aredOperator
Average number of uplink CEs consumed by each operator in an MOCN network
BTS3900 WCDMA, BTS3900
U
Description This counter measures the average number of uplink CEs consumed by each operator in an MOCN network. The traffic statistics ID ranges from -1 to 3. The range 0 to 3 corresponds to the primary/secondary operator indexes configured on the RNC. Value -1 does not take effect.
Measurement Points This counter is sampled every five seconds and measures the average number of uplink CEs consumed by each operator in an MOCN network. At the end of a measurement period (for example 15 minutes), the average number is obtained by diving the accumulated value in the period by the number of samples. Issue 12 (2014-05-30)
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Formula None
Unit None
Related Features Counter Name
Feature ID
VS.LC.ULCreditUsed.Mean .SharedOperator
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021311
MOCN Introduction Package
LTE: None
Average number of downlink CEs consumed by each operator in an MOCN network Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332594
VS.LC.DLCred itUsed.Mean.Sh aredOperator
Average number of downlink CEs consumed by each operator in an MOCN network
BTS3900 WCDMA, BTS3900
U
Description This counter measures the average number of downlink CEs consumed by each operator in an MOCN network. The traffic statistics ID ranges from -1 to 3. The range 0 to 3 corresponds to the primary/secondary operator indexes configured on the RNC. Value -1 does not take effect.
Measurement Points This counter is sampled every five seconds and measures the average number of downlink CEs consumed by each operator in an MOCN network. At the end of a measurement period (for example 15 minutes), the average number is obtained by diving the accumulated value in the period by the number of samples. Issue 12 (2014-05-30)
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Formula None
Unit None
Related Features Counter Name
Feature ID
Feature Name
VS.LC.DLCreditUsed.Mean .SharedOperator
Multi-mode: None GSM: None UMTS: WRFD-021311 LTE: None
MOCN Introduction Package
2.3.2 Reserved measurements per operator (OPERESERVE.OPERATOR) Overview Measurements reserved for operators.Reserved counter is used temporarily in patch versions and will be replaced with a new counter in later versions. For the detailed information about used reserved counters, see the "Used Reserved Counter List" of the corresponding version.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332591
VS.OpeReserve.Co unter1.OP
Reserved 1 for the operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332592
VS.OpeReserve.Co unter2.OP
Reserved 2 for the operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332595
VS.OpeReserve.Co unter3.OP
Reserved 3 for the operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332596
VS.OpeReserve.Co unter4.OP
Reserved 4 for the operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
50332597
VS.OpeReserve.Co unter5.OP
Reserved 5 for the operator
version earlier than V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R014C 00
Counter Relationship None
Reserved 1 for the operator
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Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332591
VS.OpeReserve .Counter1.OP
Reserved 1 for the operator
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.OpeReserve.Counter1.OP
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 2 for the operator Counters
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Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332592
VS.OpeReserve .Counter2.OP
Reserved 2 for the operator
BTS3900 WCDMA, BTS3900
U
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Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.OpeReserve.Counter2.OP
None.
Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 3 for the operator Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332595
VS.OpeReserve .Counter3.OP
Reserved 3 for the operator
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter.
Issue 12 (2014-05-30)
Counter Name
Description
VS.OpeReserve.Counter3.OP
None.
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Measurement Points None.
Formula None
Unit None
Related Features None
Reserved 4 for the operator Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332596
VS.OpeReserve .Counter4.OP
Reserved 4 for the operator
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.OpeReserve.Counter4.OP
None.
Measurement Points None.
Formula None
Unit None Issue 12 (2014-05-30)
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Related Features None
Reserved 5 for the operator Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332597
VS.OpeReserve .Counter5.OP
Reserved 5 for the operator
BTS3900 WCDMA, BTS3900
U
Description None. The following table describes the meanings of each counter. Counter Name
Description
VS.OpeReserve.Counter5.OP
None.
Measurement Points None.
Formula None
Unit None
Related Features None
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2.4 LOCELL_SECTOREQM (LOCELL_SECTOREQM) Overview The object type "LOCELL_SECTOREQM" contains fourfunction subsets: "IUB.LOCELL.SECTOREQM","PRACH.LOCELL.SECTOREQM" ,"ERACH.LOCELL.SE CTOREQM"and "RTWP.LOCELL.SECTOREQM".
FunctionSubSets FunctionSubSet
FunctionSubSet Name
IUB.LOCELL.SECTOREQM
Measurement related to Iub Interface per LOCELL_SECTOREQM
PRACH.LOCELL.SECTOREQM
Measurement related to PRACH per LOCELL_SECTOREQM
ERACH.LOCELL.SECTOREQM
Measurement related to ERACH per LOCELL_SECTOREQM
RTWP.LOCELL.SECTOREQM
Measurement related to RTWP per LOCELL_SECTOREQM
2.4.1 Measurement related to Iub Interface per LOCELL_SECTOREQM (IUB.LOCELL.SECTOREQM) Overview Iub Interface Measurement per LOCELL_SECTOREQM.
Counters
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Counter ID
Counter Name
Counter Description
Original Release
50332348
VS.RL.NormRel.L ocell.SectorEqm
Number of normal cell-sectoreqm RL releases
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
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Counter ID
Counter Name
Counter Description
Original Release
50332349
VS.RL.AbnormRel .Locell.SectorEqm
Number of abnormal cell-sectoreqm RL releases
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None
Number of normal cell-sectoreqm RL releases Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332348
VS.RL.NormRe l.Locell.SectorEqm
Number of normal cellsectoreqm RL releases
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of normal cell-sectoreqm RL releases within a measurement period when the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been enabled.
Measurement Points As shown in point A of the following figure, the measurement is triggered in the sector in which a UE releases an RL when the NodeB receives a RADIO LINK DELETION REQUEST message from the RNC and the RL is normally released. The measurement is triggered in each sector if the UE is served by multiple sectors while releasing the RL.
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Figure 2-21
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.RL.NormRel.Locell.Sect orEqm
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021350
Independent Demodulation of Signals from Multiple RRUs in One Cell
LTE: None
Number of abnormal cell-sectoreqm RL releases Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332349
VS.RL.Abnorm Rel.Locell.SectorEqm
Number of abnormal cellsectoreqm RL releases
BTS3900 WCDMA, BTS3900
U
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740
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Description This counter measures the number of abnormal cell-sectoreqm RL releases within a measurement period when the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been enabled.
Measurement Points As shown in point A of the following figure, the measurement is triggered in the sector in which a UE releases an RL when the NodeB receives a RADIO LINK DELETION REQUEST message from the RNC but the RL is abnormally released. The measurement is triggered in each sector if the UE is served by multiple sectors while releasing the RL. Figure 2-22
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.RL.AbnormRel.Locell.S ectorEqm
Multi-mode: None GSM: None UMTS: WRFD-021350 LTE: None
Issue 12 (2014-05-30)
Feature Name
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
Independent Demodulation of Signals from Multiple RRUs in One Cell
741
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
2.4.2 Measurement related to PRACH per LOCELL_SECTOREQM (PRACH.LOCELL.SECTOREQM) Overview Measurement related to PRACH per LOCELL_SECTOREQM.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332350
VS.PositiveNum.AI CH.Locell.SectorEqm
Number of cellsectoreqm positive AI acknowledgments for RACH users
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332351
VS.NegativeNum.A ICH.Locell.SectorEqm
Number of cellsectoreqm negative AI acknowledgments for RACH users
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332352
VS.TBNum.Succ.R ACH.Locell.SectorEqm
Number of TBs successfully received over the cellsectoreqm RACH with correct CRCs
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50332353
VS.TBNum.Total. RACH.Locell.SectorEqm
Total number of TBs received over the cell-sectoreqm RACH
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
742
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter Relationship None
Number of cell-sectoreqm positive AI acknowledgments for RACH users Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332350
VS.PositiveNu m.AICH.Locell. SectorEqm
Number of cellsectoreqm positive AI acknowledgme nts for RACH users
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of cell-sectoreqm positive AI acknowledgements for RACH users within a measurement period. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, the measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been enabled, this counter is sampled in each sector. At the end of a measurement period, the number of preamble acquisition indicators (AIs) sent to RACH users with positive acknowledgements transmitted over the downlink AICH is measured in a sector. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, this counter is sampled on a basis of cell, not a basis of sector. At the end of a measurement period, the number of preamble acquisition indicators (AIs) sent to RACH users with positive acknowledgements transmitted over the downlink AICH is measured in a cell.
Formula None
Unit None
Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
743
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Related Features Counter Name
Feature ID
VS.PositiveNum.AICH.Loc ell.SectorEqm
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021350
Independent Demodulation of Signals from Multiple RRUs in One Cell
LTE: None
Number of cell-sectoreqm negative AI acknowledgments for RACH users Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332351
VS.NegativeNu m.AICH.Locell. SectorEqm
Number of cellsectoreqm negative AI acknowledgme nts for RACH users
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of cell-sectoreqm negative AI acknowledgements for RACH users within a measurement period. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, the measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been enabled, this counter is sampled in each sector. At the end of a measurement period, the number of preamble acquisition indicators (AIs) sent to RACH users with negative acknowledgements transmitted over the downlink AICH is measured in a sector. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, this counter is sampled on a basis of cell, not a basis of sector. At the end of a measurement period, the number of preamble acquisition indicators (AIs) sent to RACH users with negative acknowledgements transmitted over the downlink AICH is measured in a cell.
Formula None Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
744
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Unit None
Related Features Counter Name
Feature ID
VS.NegativeNum.AICH.Lo cell.SectorEqm
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021350
Independent Demodulation of Signals from Multiple RRUs in One Cell
LTE: None
Number of TBs successfully received over the cell-sectoreqm RACH with correct CRCs Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332352
VS.TBNum.Su cc.RACH.Locel l.SectorEqm
Number of TBs successfully received over the cellsectoreqm RACH with correct CRCs
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of TBs successfully received over the cell-sectoreqm RACH with correct CRCs within a measurement period. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, the measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been enabled, this counter is sampled in each sector. At the end of a measurement period, the number of TBs successfully received over the uplink RACH with correct CRCs is measured in a sector. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, this counter is sampled on a basis of cell, not a basis of sector. At the end of a Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
745
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
measurement period, the number of TBs successfully received over the uplink RACH with correct CRCs is measured in a cell.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.TBNum.Succ.RACH.Lo cell.SectorEqm
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-021350
Independent Demodulation of Signals from Multiple RRUs in One Cell
LTE: None
Total number of TBs received over the cell-sectoreqm RACH Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332353
VS.TBNum.Tot al.RACH.Locel l.SectorEqm
Total number of TBs received over the cellsectoreqm RACH
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of TBs received over the cell-sectoreqm RACH with correct and incorrect CRCs within a measurement period. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, the measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been enabled, this counter is sampled in each sector. At the end of a measurement period, the number of TBs successfully received over the uplink RACH with correct CRCs is measured in a sector. Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
746
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, this counter is sampled on a basis of cell, not a basis of sector. At the end of a measurement period, the number of TBs successfully received over the uplink RACH with correct CRCs is measured in a cell.
Formula None
Unit None
Related Features Counter Name
Feature ID
Feature Name
VS.TBNum.Total.RACH.Lo cell.SectorEqm
Multi-mode: None GSM: None UMTS: WRFD-021350 LTE: None
Independent Demodulation of Signals from Multiple RRUs in One Cell
2.4.3 Measurement related to ERACH per LOCELL_SECTOREQM (ERACH.LOCELL.SECTOREQM) Overview Measurement related to ERACH per LOCELL_SECTOREQM.
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50332354
VS.ERACH.Positiv eNum.AICH.Locell .SectorEqm
Number of cellsectoreqm positive AI acknowledgments for E-RACH users
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
747
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50332355
VS.ERACH.Negati veNum.AICH.Loce ll.SectorEqm
Number of cellsectoreqm negative AI acknowledgments for E-RACH users
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None
Number of cell-sectoreqm positive AI acknowledgments for E-RACH users Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332354
VS.ERACH.Po sitiveNum.AIC H.Locell.Sector Eqm
Number of cellsectoreqm positive AI acknowledgme nts for E-RACH users
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of cell-sectoreqm positive AI acknowledgements for ERACH users within a measurement period. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, the measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been enabled, the number of positive acknowledgements (with +1 acquisition indicators (AIs)) and the number of positive acknowledgements (with +1 extended acquisition indicators (EAIs)) transmitted to E-RACH users over the AICH are sampled per sector within a measurement period. At the end of the measurement period, the sum of these sampling results is used as the value of this counter. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, the number of positive acknowledgements (with +1 acquisition indicators (AIs)) Issue 12 (2014-05-30)
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748
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
and the number of positive acknowledgements (with +1 extended acquisition indicators (EAIs)) transmitted to E-RACH users over the AICH are sampled per cell within a measurement period. At the end of the measurement period, the sum of these sampling results is used as the value of this counter.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.ERACH.PositiveNum.A ICH.Locell.SectorEqm
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010701
Uplink Enhanced CELL_FACH
LTE: None
Number of cell-sectoreqm negative AI acknowledgments for E-RACH users Counters Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50332355
VS.ERACH.Ne gativeNum.AIC H.Locell.Sector Eqm
Number of cellsectoreqm negative AI acknowledgme nts for E-RACH users
BTS3900 WCDMA, BTS3900
U
Description This counter measures the number of cell-sectoreqm negative AI acknowledgements for ERACH users within a measurement period. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, the measurement is triggered on a basis of cell, not a basis of sectoreqm.
Measurement Points If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has been enabled, the number of negative acknowledgements transmitted to E-RACH users over the Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
749
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
AICH is sampled per sector within a measurement period. At the end of the measurement period, the sum of these sampling results is used as the value of this counter. If the Independent Demodulation of Signals from Multiple RRUs in One Cell feature has not been enabled, the number of negative acknowledgements transmitted to E-RACH users over the AICH is sampled per cell within a measurement period. At the end of the measurement period, the sum of these sampling results is used as the value of this counter. When extended acquisition indicators (EAIs) are not configured, the number of negative acknowledgements (with -1 AIs) transmitted to E-RACH users is sampled. When EAIs are configured, the number of negative acknowledgements (with -1 AIs and -1 EAIs) transmitted to E-RACH users is sampled.
Formula None
Unit None
Related Features Counter Name
Feature ID
VS.ERACH.NegativeNum. AICH.Locell.SectorEqm
Multi-mode: None
Feature Name
GSM: None UMTS: WRFD-010701 LTE: None
Uplink Enhanced CELL_FACH
2.4.4 Measurement related to RTWP per LOCELL_SECTOREQM (RTWP.LOCELL.SECTOREQM) Overview measurements of locell recieved power
Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
750
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Original Release
50342590
VS.MeanRTWP.Lo cell.SectorEqm.Ant 0
Average RTWP of Antenna 0
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342591
VS.MeanRTWP.Lo cell.SectorEqm.Ant 1
Average RTWP of Antenna 1
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342592
VS.MeanRTWP.Lo cell.SectorEqm.Ant 2
Average RTWP of Antenna 2
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342593
VS.MeanRTWP.Lo cell.SectorEqm.Ant 3
Average RTWP of Antenna 3
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342594
VS.MinRTWP.Loc ell.SectorEqm.Ant0
Minimum RTWP of Antenna 0
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
751
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Original Release
50342595
VS.MinRTWP.Loc ell.SectorEqm.Ant1
Minimum RTWP of Antenna 1
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342596
VS.MinRTWP.Loc ell.SectorEqm.Ant2
Minimum RTWP of Antenna 2
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
50342597
VS.MinRTWP.Loc ell.SectorEqm.Ant3
Minimum RTWP of Antenna 3
V100R008C00,and the mapping singlemode base station version that introduce this counter is: NodeB:V200R015C 00
Counter Relationship None
Average number of Ant RTWP Counters
Issue 12 (2014-05-30)
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342590
VS.MeanRTW P.Locell.Sector Eqm.Ant0
Average RTWP of Antenna 0
BTS3900 WCDMA, BTS3900
U
50342591
VS.MeanRTW P.Locell.Sector Eqm.Ant1
Average RTWP of Antenna 1
BTS3900 WCDMA, BTS3900
U
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
752
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter ID
Counter Name
Counter Description
Network Element
Applicable Mode
50342592
VS.MeanRTW P.Locell.Sector Eqm.Ant2
Average RTWP of Antenna 2
BTS3900 WCDMA, BTS3900
U
50342593
VS.MeanRTW P.Locell.Sector Eqm.Ant3
Average RTWP of Antenna 3
BTS3900 WCDMA, BTS3900
U
50342594
VS.MinRTWP. Locell.SectorEq m.Ant0
Minimum RTWP of Antenna 0
BTS3900 WCDMA, BTS3900
U
50342595
VS.MinRTWP. Locell.SectorEq m.Ant1
Minimum RTWP of Antenna 1
BTS3900 WCDMA, BTS3900
U
50342596
VS.MinRTWP. Locell.SectorEq m.Ant2
Minimum RTWP of Antenna 2
BTS3900 WCDMA, BTS3900
U
50342597
VS.MinRTWP. Locell.SectorEq m.Ant3
Minimum RTWP of Antenna 3
BTS3900 WCDMA, BTS3900
U
Description The preceding counters indicate the average and minimum antenna RTWP of each receive antenna during a measurement period
Measurement Points Within a measurement period, the NodeB accumulates the antenna RTWP per second. Assume that the sum is A. The NodeB counts the seconds in the measurement period. Assume that this value is B. Then, Average antenna RTWP = A/B. The system calculates the average antenna RTWP every 5 seconds and then takes the minimum value within the measurement period as the minimum antenna RTWP.
Formula None
Unit dBm
Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
753
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Related Features Counter Name
Feature ID
Feature Name
VS.MeanRTWP.Locell.Sect orEqm.Ant0
Multi-mode: MRFD-210604
2-Way Antenna Receive Diversity
GSM: None UMTS: WRFD-010209
VS.MeanRTWP.Locell.Sect orEqm.Ant1
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive Diversity
GSM: None UMTS: WRFD-010209
VS.MeanRTWP.Locell.Sect orEqm.Ant2
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive Diversity
GSM: None UMTS: WRFD-010209
VS.MeanRTWP.Locell.Sect orEqm.Ant3
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive Diversity
GSM: None UMTS: WRFD-010209
VS.MinRTWP.Locell.Secto rEqm.Ant0
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive Diversity
GSM: None UMTS: WRFD-010209
VS.MinRTWP.Locell.Secto rEqm.Ant1
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive Diversity
GSM: None UMTS: WRFD-010209
VS.MinRTWP.Locell.Secto rEqm.Ant2
LTE: None
4-Antenna Receive Diversity
Multi-mode: MRFD-210604
2-Way Antenna Receive Diversity
GSM: None UMTS: WRFD-010209 LTE: None
Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
4-Antenna Receive Diversity
754
3900 Series Base Station Performance Counter Reference
2 Radio Network Related Measurement
Counter Name
Feature ID
Feature Name
VS.MinRTWP.Locell.Secto rEqm.Ant3
Multi-mode: MRFD-210604
2-Way Antenna Receive Diversity
GSM: None UMTS: WRFD-010209 LTE: None
Issue 12 (2014-05-30)
Huawei Proprietary and Confidential Copyright © Huawei Technologies Co., Ltd.
4-Antenna Receive Diversity
755