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RAN Reporting SuiteRU10
NOTE: This slide-set is in working stage:
- Chapters 1-4 are closed;
- Chapter 5 is in draft mode, to be updated when the full report set
is implemented in RS.
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Agenda
1. RAN Reporting Suite Component2. Pre-defined Reports Overview
3. Use-case Examples
4. New Counters and Measurements for RU10
5. Pre-defined Reports Presentation
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1. RAN Reporting Suite Component
The RAN Reporting Suite Component is designed to provide informationfor Service & Network Planning, Service Creation, Service & NetworkMonitoring and Business Management
Predefined reports are available off-the-shelf and are grouped in variousRAN reporting categories
RAN Reporting Suite Component Rel. 5.1.1 extends the earlier releasewith new reports covering RAS06: RN3.0, WBTS4.0;AXC C3.0
RAN Reporting Suite Component Rel. 5.2.1 extends the earlier releasewith new content covering RU10: RN4.0, WBTS5.0; NB7.0; AXC C5.5
It is running on top of NetAct OSS5.1, on regional & global cluster.
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Agenda
1. RAN Reporting Suite Component2. Pre-defined Reports Overview
3. Use-case Examples
4. New Counters and Measurements for RU10
5. Pre-defined Reports Presentation
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2. Pre-defined Reports Overview (1)RU10 Basic Report Set
New RU10
Modified RU10
1. System Program
System Program RNC Level RSRAN000
System Program Cell Level RSRAN0842. Capacity
RNC Capacity RSRAN068
RNC capacity usage RSRAN085
Node B Capacity RSRAN066
Cell Capacity RSRAN067
Iub Capacity RSRAN087
Cell Power RSRAN086
NRT DCH Allocations Statistics RSRAN097
NRT Radio Bearer Statistics RSRAN013
3. Service Level
Service/Session Accessibility Analysis RSRAN073
Service/Session Accessability Detailed Analysis RSRAN105
Service/Session Retainability Analysis RSRAN079
Service/Session Retainability Detailed Analysis RSRAN106
RAB Holding Times RSRAN021
Service Summary RSRAN003
4. Traffic
Allocated Traf fic Amounts (R99 + HSPA) RSRAN070
Cell Data Volume and Throughput at RNC RSRAN077Traffic Summary RSRAN026
Used CE Capacity per RB Type in RNC RSRAN022
Utilization Shares of Total Traffic Allocation Amou RSRAN071
Packet Call RSRAN101
Traffic Model NW Dimensioning RSRAN088
Iur Traffic - L3 RSRAN100
Iub Traffic - Frame Protocol layer RSRAN096
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2. Pre-defined Reports Overview (2)RU10 Full Report Set
New RU10
Modified RU10
5. Mobility and Handover
Active Set Size for NRT, RT Traffic RSRAN078
HSPA Serving Cell Change RSRAN033
HSPA Inter-Freq HHO RSRAN089IFHO Adjacencies RSRAN044
InterSystem Handover per Cause RSRAN019
InterSystem Handover Performance RSRAN023
InterSystem Handover Reasons RSRAN018
ISHO Adjacencies RSRAN045
Load Based HO Related Resources RSRAN047
Load Based IFHO/ISHO Performance RSRAN048
Load Based IFHO/ISHO Triggering RSRAN049
Service Based IFHO/ISHO Performance RSRAN050
SHO Adjacencies RSRAN046
Soft Handover Performance RSRAN028
6. Signalling
NBAP Signalling RSRAN027
RRC Signalling RSRAN038
PRACH Propagation Delay RSRAN104
7. HSPA
HSPA Overview RSRAN092
HSPA Scheduling RSRAN091
CQI Distribution RSRAN039HSPA Code and Modulation Usage RSRAN034
HSPA Power Distribution RSRAN074
Channel Switching and HSPA Layering RSRAN075
UE Power Headroom RSRAN090
MAC-hs Efficiency RSRAN040
MAC-hs Retransmissions by Code and Modulation RSRAN041
Number of HSPA Users and UE capability RSRAN051
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2. Pre-defined Reports Overview (3)RU10 Full Report Set
New RU10
Modified RU10
8. Transport
ATM Interface Traffic Load RSRAN081IP Interface Throughput RSRAN099
ATM VCC Traffic Load RSRAN083
ATM VPC Traffic Load RSRAN082
FTM Packet Transport Performance RSRAN076
FTM Performance RSRAN072
Iu-PS Throughputs RSRAN064
Iu-CS RSRAN094
M3UA RSRAN093
ATM Iub Throughput RSRAN080
IP Iub Throughput (BTS pov) RSRAN095
Traffic on AAL5 RSRAN031
Traffic on ATM Layer RSRAN029
Traffic on Physical Medium SubLayer RSRAN030
IP Transport Resource Reservations RSRAN098
ATM Transport Resource Reservations RSRAN069
9. Hardware
DSP Resource Usage RSRAN102
DSP State Changes RSRAN103
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Agenda
1. RAN Reporting Suite Component2. Pre-defined Reports Overview
3. Use-case Examples
4. New Counters and Measurements for RU10
5. The most relevant KPIs for RU106. Pre-defined Reports Presentation
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3. Use-Case ExamplesUCs for monitoring
1. Use-case for monitoringservices/sessions
The following services must bemonitored:
± Radio Resource Control (RRC)
± Radio Access Bearer (RAB)
± AMR (= RAB CS ConversationalQoS parameter SourceDescriptor = Voice) session
± Video (= RAB CS ConversationalQoS 64 kbit/s and SourceDescriptor = Unknown) session
± CS Streaming Video (= CS RABStreaming QoS) session
± Packet (= PS RAB Streaming,Interactive or Background)session
2. Use-case for monitoringresource availability
The resources to be monitored are:
Logical resource availability
± Transport channels (CCH, DCH,HS-DSCH, E-DCH)
± Code tree blocking
Transport resource availability andblocking
± logical Inverse Multiplexing for ATM (IMA) group interface
±Synchronous Digital Hierarchy(SDH) transmission path
± user plane ATM VCC (AAL2 path)
± IP transport resource availabity
HW availability and blocking
± BTS Channel Element (CE)
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3. Use-Case ExamplesUCs for monitoring
3. Use-case for throughput andload monitoring
The resources to be monitored are:
Radio Load (PrxTotal; PtxTotal)
± Cell
Radio data volume
± Cell, Radio bearer
Transport throughput and load
± plane AAL2 type ATM VCC
RAN interface throughput and load
± GTP tunnel
± FP connection
4. Use cases for mobility
The resources to be monitored are:
Soft handover
± Cell
Inter-System Handover ± Cell
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Agenda
1. RAN Reporting Suite Component2. Pre-defined Reports Overview
3. Use-case Examples
4. New Counters and Measurements for RU10
5. Pre-defined Reports Presentation
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5.New Counters and Measurements for RU10Id Measurement
M1000 Cell Resource
M1001 Service Level
M1002 Traffic
M1003 L3 signalling at Iu
M1004 L3 signalling at Iur
M1005 L3 signalling at Iub
M1006 RRC signalling
M1007 Soft Handover
M1008 Intra System Hard Handover
M1009 L3 Relocation signalling
M1010 Inter System Hard Handover
M1011 Location Services
M1012 Service Area Broadcast
M1013 Autodef Soft Handover M1014 AutoDef Inter Frequency HHO
M1015 AutoDef Inter System Handover
M1016 RCPM OLPC
M1017 RCPM RLC
M1018 RCPM UEQ
M1020 A-GPS Server Interface
M1021 Iu-PC Interface
M1022 Packet Call
M1023 Cell Throughput
M1024 RCPM OLPC WCEL
M1025 RCPM OLPC RNC
M1026 RCPM RLC WCEL
M1027 RCPM RLC RNC
M1028 Autodef SHO DSR
M800 AAL2 Resource Reservation
M801 Iu-PS
M802 RNC Capacity Usage
M803 RNC RTP/RTCP
M804 RNC IP CAC
RNC Measurement
Id Measurement
92001 NodeB Resource
92002 NodeB Cell
92003 NodeB HSDPA
92004 NodeB HSUPA
92005 NodeB E1 Transmission Line
92006 NodeB J1 Transmission Line
92007 NodeB STM Transmission Line
92008 NodeB IMA Transmission Line
92009 NodeB E1 Virtual Path
92010 NodeB J1 Virtual Path
92011 NodeB STM Virtual Path
92012 NodeB IMA Virtual Path92013 NodeB E1 Virtual Channel
92014 NodeB J1 Virtual Channel
92015 NodeB STM Virtual Channel
92016 NodeB IMA Virtual Channel
SNodeB Measurement
Id Measurement
M5000 HSPA in WBTS
M5001 WBTS HW Resource
M5002 Cell Throughput in WBTS
M5003 Frame Protocol in WBTS
M5101 FTM PDH Interface
M5102 FTM SDH Interface
M5105 FTM ATM Interface
M5106 FTM ATM VC Connection
M5107 FTM ATM VP Connection
M5110 FTM Ethernet link
M5113 FTM Pseudowire MPLS
M5114 FTM PSN tunnel IPM5115 AAL2 Scheduling Performance in BTS
M5116 FTM Timing over Packet
M5117 FTM IP statistics
M5118 FTM PHB statistics
WBTS/FTM Measurement
New RU10 measurement
New RU10 counters
Measurement no longer in use
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Id Measurement
M145 PDH Statistics
M208 MTP Signalling link availability
M209 MTP signalling link performance
M210 MTP signalling link utilization
M211 MTP signalling point status
M212 MTP Signalling link set and route set availability
M213 MTP Signalling traffic report of signalling points
M214 MTP Signalling traffic report of user parts
M215 MTP matrix signalling traffic
M216 SCCP signalling point
M217 SCCP subsystem
M218 SCCP local subsystem availability
M219 SCCP single meters
M513 STM-1 interface
M514 IMA logical interface measurements
M516 SONET/SDH Protection Group measurement
M528 ATM layer performance
M529 ATM Virtual Path Connection
M530 ATM Virtual Channel Connection
M531 ATM Route Load
M532 ATM Interface
M546 SAAL signalling protocol at UNI
Platform Measurement
Id Measurement
M547 AAL5 protocol measurement in DMX
M548 AAL2 signalling protocol at UNI
M549 AAL5 protocol measurement in Chorus
M550 AAL2 Path CAC Resource
M552 AAL2 Signalling at NNI
M553 AAL2 Scheduling Performance in RNC
M563 TCP/IP Protocol
M564 Ethernet interface performance
M565 IP measurement on IP interface
M566 UDP measurement on IP interface
M567 IP QOS measurement
M568 IP Based Route
M592 Unit Load measurement
M594 Overload control with WAC Performance
M608 Availability performance measurement
M609 DSP service statistics
M612 DSP state changes
M613 DSP performance measurement
M615 DSP Resource Utilisation
M617 DSP Load
M661 M3UA Association Set
Platform Measurement
5.New Counters and Measurements for RU10
New RU10 measurement
New RU10 counters
Measurement no longer in use
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4.New Counters and Measurements for RU10RU10 features that impact the data model
Microsoft Excel
Worksheet
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RAN1004: Streaming QoS for HSPA:This feature brings the support of Streaming QoS traffic class Radio Access Bearers(RABs) on HSPA.
Streaming services with guaranteed bit rate requirements improve servicedifferentiation and thus provide the possibility for increased revenue.
Counter examples: ± Channel Release counters
5.New Counters and Measurements for RU10
M1002C578 HS-DSCH NORMAL RELEASE FOR STREAMING
M1002C579 HS-DSCH RELEASE DUE TO OTHER FAILURE FOR STREAMING
M1002C580 HS-DSCH RELEASE DUE TO MOBILITY DCH TRANSITION FOR STREAMING
M1002C609 E-DCH NORMAL RELEASE FOR STREAMING
M1002C610 E-DCH RELEASE DUE HS-DSCH SERVING CELL CHANGE FOR STREAMING
M1002C611 E-DCH RELEASE DUE TO RL FAILURE FOR STREAMING
M1002C612 E-DCH RELEASE DUE TO OTHER FAILURE FOR STREAMING
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RAN1004: Streaming QoS for HSPA:
Counter examples: ± Streaming Packet Call Setup Failures counters
± Multi RAB counters
5.New Counters and Measurements for RU10
M1022C184 PACKET CALL SETUP FAIL DUE TO AC FOR STREAMING
M1022C185 PACKET CALL SETUP FAIL DUE TO BTS FOR STREAMING
M1022C186 PACKET CALL SETUP FAIL DUE TO DMCU RES FOR STREAMING
M1022C187 PACKET CALL SETUP FAIL DUE TO TRANSM FOR STREAMING
M1022C188 PACKET CALL SETUP FAIL DUE TO UE FOR STREAMING
M1022C189 PACKET CALL SETUP FAIL DUE TO OTHER REASONS FOR STREAMING
M1002C596 AMR + HS-DSCH SETUP FAILURE FOR STREAMING
M1002C597 AMR + HS-DSCH ALLOCATIONS FOR STREAMING
M1002C598 AMR + HS-DSCH NORMAL RELEASE FOR STREAMING
M1002C619 AMR + RT-HSPA + NRT-HSPA ALLOCATION
M1002C620 AMR + RT-HSPA + MULTI-NRT-HSPA ALLOCATION
M1002C621 RT-HSPA + NRT-HSPA ALLOCATION
M1002C622 RT-HSPA + MULTI-NRT-HSPA ALLOCATION
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RAN1262: QoS Aware HSPA Scheduling:This feature allows service and subscriber differentiation in HSPA for NRT trafficclasses.
This feature allows service and subscriber differentiation and supports differenttariffing plans for NRT traffic classes. For example, premium services andsubscribers will have a higher priority over low tariff broadband HSPA data traffic.
Counter examples: ± HSUPA Scheduled Priority Indication (SPI) counters:
5.New Counters and Measurements for RU10
M5002C22 TOTAL HSUPA DATA FOR SPI 0
M5002C23 TOTAL HSUPA DATA FOR SPI 1
M5002C24 TOTAL HSUPA DATA FOR SPI 2
M5002C25 TOTAL HSUPA DATA FOR SPI 3
M5002C26 TOTAL HSUPA DATA FOR SPI 4
M5002C27 TOTAL HSUPA DATA FOR SPI 5
M5002C28 TOTAL HSUPA DATA FOR SPI 6
M5002C29 TOTAL HSUPA DATA FOR SPI 7
M5002C30 TOTAL HSUPA DATA FOR SPI 8
M5002C31 TOTAL HSUPA DATA FOR SPI 9
M5002C32 TOTAL HSUPA DATA FOR SPI 10
M5002C33 TOTAL HSUPA DATA FOR SPI 11
M5002C34 TOTAL HSUPA DATA FOR SPI 12
M5002C35 TOTAL HSUPA DATA FOR SPI 13
M5002C36 TOTAL HSUPA DATA FOR SPI 14
M5002C37 TOTAL HSUPA DATA FOR SPI 15
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5.New Counters and Measurements for RU10
RAN1262: QoS Aware HSPA Scheduling:
Counter examples:
± HSDPA Scheduled Priority Indication (SPI) counters:
M5002C5 TOTAL MAC-HS PDUS FOR SPI 0
M5002C6 TOTAL MAC-HS PDUS FOR SPI 1
M5002C7 TOTAL MAC-HS PDUS FOR SPI 2
M5002C8 TOTAL MAC-HS PDUS FOR SPI 3
M5002C9 TOTAL MAC-HS PDUS FOR SPI 4
M5002C10 TOTAL MAC-HS PDUS FOR SPI 5
M5002C11 TOTAL MAC-HS PDUS FOR SPI 6
M5002C12 TOTAL MAC-HS PDUS FOR SPI 7
M5002C13 TOTAL MAC-HS PDUS FOR SPI 8
M5002C14 TOTAL MAC-HS PDUS FOR SPI 9
M5002C15 TOTAL MAC-HS PDUS FOR SPI 10
M5002C16 TOTAL MAC-HS PDUS FOR SPI 11
M5002C17 TOTAL MAC-HS PDUS FOR SPI 12
M5002C18 TOTAL MAC-HS PDUS FOR SPI 13
M5002C19 TOTAL MAC-HS PDUS FOR SPI 14
M5002C20 TOTAL MAC-HS PDUS FOR SPI 15
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5.New Counters and Measurements for RU10
RAN1198: RNC2600 SW License Key Controlled Capacity:
RNC capacity is controled with SW licence keys. BSW price is based on thelicensed capacity.
Main RNC capacity parameters can be optimized based on customer needs.Capacity upgrades can be performed by licence key delivery only, in which casethere is no need for additional HW. BSW price is derived directly from customer needs.
Counter examples:
± Licensed Capacity Monitoring:
M802C0 AMR_AVERAGE
M802C1 AMR_MAX
M802C2 AMR_DISTR_CLASS_0
M802C3 AMR_DISTR_CLASS_1
M802C4 AMR_DISTR_CLASS_2
M802C5 AMR_DISTR_CLASS_3
M802C6 AMR_DISTR_CLASS_4
M802C7 AMR_LIC_CAPACITY
M802C8 IU_PS_THR_AVERAGE
M802C9 IU_PS_THR_PEAK
M802C10 IUB_PS_THR_DISTR_CLASS_0
M802C11 IUB_PS_THR_DISTR_CLASS_1
M802C12 IUB_PS_THR_DISTR_CLASS_2
M802C13 IUB_PS_THR_DISTR_CLASS_3
M802C14 IUB_PS_THR_DISTR_CLASS_4
M802C15 IUB_PS_THR_LIC_CAPACITY
M802C16 IU_PS_THR_LIMIT_DURATION
M802C17 AVE_RRC_CONN_MODE_USERS
M802C18 MAX_RRC_CONN_MODE_USERS
M802C19 AVE_USERS_CELL_DCH
M802C20 AVE_USERS_CELL_FACH
M802C21 AVE_USERS_CELL_PCH
M802C22 AVE_USERS_URA_PCH
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5.New Counters and Measurements for RU10
RAN1126: Counters for RAB and DCH Setups and Failure Cases:This feature introduces new counters for more detailed monitoring of RAB,DCH/HS-DSCH and counters for SHO branch setup failure cases.
OPEX savings are achieved through simplified network monitoring andoptimization due to the new statistics. Optimized network expansions meansavings in CAPEX.
Counter examples: ± DCH Requests:
M1022C83 INITIAL DCH REQUESTS FOR BITRATE 64 KBPS AND LOWER UL
M1022C84 INITIAL DCH REQUESTS FOR BITRATE 64 KBPS AND LOWER DL
M1022C85 INITIAL DCH REQUESTS FOR BITRATE 128 KBPS UL
M1022C86 INITIAL DCH REQUESTS FOR BITRATE 128 KBPS DL
M1022C87 INITIAL DCH REQUESTS FOR BITRATE 256 KBPS UL
M1022C88 INITIAL DCH REQUESTS FOR BITRATE 256 KBPS DL
M1022C89 INITIAL DCH REQUESTS FOR BITRATE 384 KBPS UL
M1022C90 INITIAL DCH REQUESTS FOR BITRATE 384 KBPS DL
M1022C107
INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 64
KBPS AND LOWER UL
M1022C108
INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 64
KBPS AND LOWER DL
M1022C109
INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 128
KBPS UL
M1022C110
INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 128
KBPS DL
M1022C111
INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 256
KBPS UL
M1022C112
INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 256
KBPS DL
M1022C113
INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 384
KBPS UL
M1022C114
INITIAL DCH ALLOCATION SUCCESS WITH REQUESTED BITRATE 384
KBPS DL
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5.New Counters and Measurements for RU10
RAN1126: Counters for RAB and DCH Setups and Failure Cases:
Counter examples: ± DCH Reconfigurations Failures:
M1022C131DCH UPLINK RECONFIG FAIL DUE TO TRANSPORT FORINTERACTIVE
M1022C132
DCH UPLINK RECONFIG FAIL DUE TO TRANSPORT FOR
BACKGROUND
M1022C133
DCH DOWNLINK RECONFIG FAIL DUE TO TRANSPORT FOR
INTERACTIVE
M1022C134
DCH DOWNLINK RECONFIG FAIL DUE TO TRANSPORT FOR
BACKGROUND
M1022C135 DCH UPLINK RECONFIG FAIL DUE TO BTS FOR INTERACTIVE
M1022C136 DCH UPLINK RECONFIG FAIL DUE TO BTS FOR BACKGROUND
M1022C137 DCH DOWNLINK RECONFIG FAIL DUE TO BTS FOR INTERACTIVE
M1022C138 DCH DOWNLINK RECONFIG FAIL DUE TO BTS FOR BACKGROUND
M1022C139 DCH UPLINK RECONFIG FAIL DUE TO AC FOR INTERACTIVE
M1022C140 DCH UPLINK RECONFIG FAIL DUE TO AC FOR BACKGROUND
M1022C141
DCH DOWNLINK RECONFIG FAIL DUE TO AC FOR
INTERACTIVE
M1022C142
DCH DOWNLINK RECONFIG FAIL DUE TO AC FOR
BACKGROUND
M1022C143
DCH UPLINK RECONFIG FAIL DUE TO OTHER REASONS FOR
INTERACTIVE
M1022C144
DCH UPLINK RECONFIG FAIL DUE TO OTHER REASONS FOR
BACKGROUND
M1022C145
DCH DOWNLINK RECONFIG FAIL DUE TO OTHER REASONS
FOR INTERACTIVE
M1022C146
DCH DOWNLINK RECONFIG FAIL DUE TO OTHER REASONS
FOR BACKGROUND
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5.New Counters and Measurements for RU10
Transport in RU10:RAN1253: Iub Transport QoS
RAN1634: IP based Iub for UltraSite WCDMA BTS
RAN75: IP Based Iu-CS
RAN750: IP Based Iu-PS
RAN76: IP Based Iur
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5.New Counters and Measurements for RU10 RAN1253: Iub Transport QoS
RAN1634: IP based Iub for UltraSite WCDMA BTS ± These two features introduce the 3GPP-compliant IP transport option for the Iub interface in RNC
(both features), in Flexi WCDMA BTS and in UltraSite WCDMA BTS, respectively. To use thesefeatures, RNC and BTS have to be equipped with transport units providing Ethernet interfaces.
RAN75: IP Based Iu-CS
RAN750: IP Based Iu-PS
RAN76: IP Based Iur ± These three features enable the 3GPP-compliant IP transport option for the respective logical
interface on the RNC.
M553C10 Q1_QUE_USAGE_PEAK
M553C11 Q1_QUE_PACKETS_SUM
M553C12 Q1_QUE_SAMPLES
M553C13 Q1_QUE_DELAY_PEAK
M553C14 Q1_QUE_DELAY_SUM
M553C15 Q1_QUE_DELAY_SAMPLES
M553C16 Q1_QUE_DRP_EVENTS
RAN1253 Counter examples: ATM Scheduling Queue
Performance Monitoring (4
different QoS queues)
RAN1634, RAN75, RAN750,
RAN76 and Counter examples:
IP performance monitoring
M568C0 OUT_DATA_IP_ROUTE
M568C1 IN_DATA_IP_ROUTE
M568C2 COMMITTED_BIT_RATE_IP_ROUTE
M568C3 SUM_RESERVED_RATE_IP_ROUTE
M568C4 MIN_RESERVED_RATE_IP_ROUTE
M568C5 MAX_RESERVED_RATE_IP_ROUTE
M568C6 SUM_IP_UDP_CONN_IP_ROUTE
M568C7 MIN_IP_UDP_CONN_IP_ROUTE
M568C8 MAX_IP_UDP_CONN_IP_ROUTE
M568C9 NBR_SAMPLES_IP_ROUTE