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LTE signaling, troubleshooting and performance measurement / / Ralf Kreher and Karsten Gaenger, Tektronix Berlin GmbH, Germany
LTE signaling, troubleshooting and performance measurement / / Ralf Kreher and Karsten Gaenger, Tektronix Berlin GmbH, Germany
Autore Kreher Ralf
Edizione [Second edition.]
Pubbl/distr/stampa Chichester, West Sussex, United Kingdom : , : John Wiley & Sons, Inc., , 2016
Descrizione fisica 1 PDF (xvi, 351 pages)
Disciplina 621.3845/6
Soggetto topico Long-Term Evolution (Telecommunications)
ISBN 1-118-72508-5
1-118-72509-3
1-118-72507-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto -- Foreword xi -- Acknowledgements xiii -- 1 Standards, Protocols, and Functions 1 -- 1.1 LTE Standards and Standard Roadmap 2 -- 1.2 LTE Radio Access Network Architecture 9 -- 1.3 Network Elements and Functions 10 -- 1.3.1 The eNodeB (eNB) 11 -- 1.3.2 Mobility Management Entity (MME) 12 -- 1.3.3 Serving Gateway (S-GW) 12 -- 1.3.4 Packet Data Network Gateway (PDN-GW) 13 -- 1.3.5 Interfaces and Reference Points 13 -- 1.4 Area and Subscriber Identities 18 -- 1.4.1 Domains and Strati 18 -- 1.4.2 IMSI 19 -- 1.4.3 LMSI, TMSI, P-TMSI, M-TMSI, and S-TMSI 20 -- 1.4.4 GUTI 21 -- 1.4.5 IMEI 22 -- 1.4.6 RNTI 22 -- 1.4.7 Location Area, Routing Area, Service Area, Tracking Area, and Cell Global Identity 24 -- 1.4.8 Mapping between Temporary and Area Identities for EUTRAN and UTRAN/GERAN-Based Systems 25 -- 1.4.9 GSM Base Station Identification 27 -- 1.4.10 UTRA Base Station Identification 28 -- 1.4.11 Numbering, Addressing, and Identification in the Session Initiation Protocol 29 -- 1.4.12 Access Point Name 30 -- 1.5 User Equipment 30 -- 1.5.1 UE Categories 31 -- 1.6 QoS Architecture 32 -- 1.7 LTE Security 34 -- 1.8 Radio Interface Basics 38 -- 1.8.1 Duplex Methods 40 -- 1.8.2 Multiple Access Methods 42 -- 1.8.3 OFDM Principles and Modulation 46 -- 1.8.4 Multiple Access in OFDM / OFDMA 48 -- 1.8.5 Resource Blocks 49 -- 1.8.6 Downlink Slot Structure 53 -- 1.8.7 OFDM Scheduling on LTE DL 56 -- 1.8.8 SC-FDMA Principles and Modulation 60 -- 1.8.9 Scheduling on LTE UL 62 -- 1.8.10 Uplink Slot Structure 64 -- 1.8.11 Link Adaptation in LTE 64 -- 1.8.12 Physical Channels in LTE 70 -- 1.8.13 Transport Channels in LTE 79 -- 1.8.14 Channel Mapping and Multiplexing 80 -- 1.8.15 Initial UE Radio Access 82 -- 1.8.16 UE Random Access 82 -- 1.9 Hybrid ARQ 87 -- 1.9.1 Synchronous HARQ in LTE Uplink 90 -- 1.9.2 Asynchronous HARQ in LTE Downlink 91 -- 1.9.3 HARQ Example 92 -- 1.10 LTE Advanced 94 -- 1.10.1 Increasing Spectral Efficiency 95 -- 1.10.2 Carrier Aggregation 95 -- 1.10.3 Heterogeneous Networks 95.
1.10.4 Inter-Cell Interference Coordination 97 -- 1.11 LTE Network Protocol Architecture 98 -- 1.11.1 Uu / Control/User Plane 98 -- 1.11.2 S1 / Control/User Plane 99 -- 1.11.3 X2 / User/Control Plane 100 -- 1.11.4 S6a / Control Plane 100 -- 1.11.5 S3/S4/S5/S8/S10/S11 / Control Plane/User Plane 101 -- 1.12 Protocol Functions, Encoding, Basic Messages, and Information Elements 102 -- 1.12.1 Ethernet 102 -- 1.12.2 Internet Protocol (IPv4/IPv6) 102 -- 1.12.3 Stream Control Transmission Protocol (SCTP) 106 -- 1.12.4 Radio Interface Layer 2 Protocols 108 -- 1.12.5 Medium Access Control (MAC) Protocol 110 -- 1.12.6 Radio Link Control (RLC) Protocol 111 -- 1.12.7 Packet Data Convergence Protocol (PDCP) 115 -- 1.12.8 Radio Resource Control (RRC) Protocol 117 -- 1.12.9 Non-Access Stratum (NAS) Protocol 124 -- 1.12.10 S1 Application Part (S1AP) 124 -- 1.12.11 User Datagram Protocol (UDP) 128 -- 1.12.12 GPRS Tunneling Protocol (GTP) 129 -- 1.12.13 Transmission Control Protocol (TCP) 136 -- 1.12.14 Session Initiation Protocol (SIP) 138 -- 1.12.15 DIAMETER on EPC Interfaces 139 -- 2 E-UTRAN/EPC Signaling 145 -- 2.1 S1 Setup 145 -- 2.1.1 S1 Setup: Message Flow 145 -- 2.1.2 S1 Setup: Failure Analysis 147 -- 2.2 Initial Attach 149 -- 2.2.1 Procedure 150 -- 2.3 UE Context Release Requested by eNodeB 166 -- 2.3.1 Procedure 166 -- 2.4 UE Service Request 168 -- 2.4.1 Procedure 169 -- 2.5 Dedicated Bearer Setup 172 -- 2.6 Inter-eNodeB Handover over X2 174 -- 2.6.1 Procedure 176 -- 2.7 S1 Handover 186 -- 2.7.1 Procedure 188 -- 2.8 Dedicated Bearer Release 199 -- 2.9 Detach 200 -- 2.9.1 Procedure 200 -- 2.10 Failure Cases in E-UTRAN and EPC 203 -- 2.11 Voice over LTE (SIP) Call / Complete Scenario 203 -- 2.12 Inter-RAT Cell Reselection 4G-3G-4G 210 -- 2.13 Normal/Periodical Tracking Area Update 211 -- 2.14 CS Fallback End-to-End S1/IuCS/IuPS 212 -- 2.15 Paging 213 -- 2.16 Multi-E-RAB Call Scenarios 214 -- 2.16.1 Multi-E-RAB Call Scenarios without Subscriber Mobility 214 -- 2.16.2 Multi-E-RAB Call with Intra-LTE Handover 215.
2.16.3 Inter-RAT Mobility of a Multi-E-RAB Call Using CS Fallback 216 -- 2.16.4 Abnormal Releases of Calls with VoLTE Services 217 -- 3 Radio Interface Signaling Procedures 219 -- 3.1 RRC Connection Setup, Attach, and Default Bearer Setup 220 -- 3.1.1 Random Access and RRC Connection Setup Procedure 220 -- 3.1.2 RRC Connection Reconfiguration and Default Bearer Setup 229 -- 3.1.3 RRC Connection Release 238 -- 3.2 LTE Mobility 238 -- 3.2.1 Intra-eNB Intra-Frequency HO 242 -- 3.2.2 Intra-eNodeB Inter-Frequency Handover 243 -- 3.2.3 Inter-eNodeB Intra-Frequency Handover 248 -- 3.2.4 Inter-RAT Handover to 3G 253 -- 3.2.5 Inter-RAT Handover to 2G 255 -- 3.2.6 Inter-RAT Blind Redirection to 3G 257 -- 3.2.7 Inter-RAT Blind Redirection to 2G 259 -- 3.2.8 CS Fallback 260 -- 3.3 Failure Cases 262 -- 4 Key Performance Indicators and Measurements for LTE Radio Network Optimization 267 -- 4.1 Monitoring Solutions for LTE Interfaces 267 -- 4.1.1 Monitoring the Air Interface (Uu) 267 -- 4.1.2 Antenna-Based Monitoring 269 -- 4.1.3 Coax-Based Monitoring 270 -- 4.1.4 CPRI-Based Monitoring 270 -- 4.1.5 Monitoring the E-UTRAN Line Interface 272 -- 4.1.6 Monitoring the eNodeB Trace Port 276 -- 4.2 Monitoring the Scheduler Efficiency 279 -- 4.2.1 UL and DL Scheduling Resources 285 -- 4.2.2 X2 Load Indication 286 -- 4.2.3 The eNodeB Layer 2 Measurements 288 -- 4.3 Radio Quality Measurements 290 -- 4.3.1 UE Measurements 293 -- 4.3.2 The eNodeB Physical Layer Measurements 297 -- 4.3.3 Radio Interface Tester Measurements 301 -- 4.3.4 I/Q Constellation Diagrams 302 -- 4.3.5 EVM/Modulation Error Ratio 304 -- 4.4 Control Plane Performance Counters and Delay Measurements 306 -- 4.4.1 Network Accessibility 307 -- 4.4.2 Network Retainability 316 -- 4.4.3 Mobility (Handover) 318 -- 4.5 User Plane KPIs 322 -- 4.5.1 IP Throughput 323 -- 4.5.2 Application Throughput 325 -- 4.5.3 TCP Startup KPIs 327 -- 4.5.4 TCP Round-Trip Time 328 -- 4.5.5 Packet Jitter 329 -- 4.5.6 Packet Delay and Packet Loss on a Hop-to-Hop Basis 330.
4.6 KPI Visualization using Geographical Maps (Geolocation) 331 -- 4.6.1 The Minimize Drive Test Feature Set of 3GPP 333 -- Acronyms 337 -- Bibliography 343 -- Index 345.
Record Nr. UNINA-9910131528603321
Kreher Ralf  
Chichester, West Sussex, United Kingdom : , : John Wiley & Sons, Inc., , 2016
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
LTE signaling, troubleshooting and performance measurement / / Ralf Kreher and Karsten Gaenger, Tektronix Berlin GmbH, Germany
LTE signaling, troubleshooting and performance measurement / / Ralf Kreher and Karsten Gaenger, Tektronix Berlin GmbH, Germany
Autore Kreher Ralf
Edizione [Second edition.]
Pubbl/distr/stampa Chichester, West Sussex, United Kingdom : , : John Wiley & Sons, Inc., , 2016
Descrizione fisica 1 PDF (xvi, 351 pages)
Disciplina 621.3845/6
Soggetto topico Long-Term Evolution (Telecommunications)
ISBN 1-118-72508-5
1-118-72509-3
1-118-72507-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto -- Foreword xi -- Acknowledgements xiii -- 1 Standards, Protocols, and Functions 1 -- 1.1 LTE Standards and Standard Roadmap 2 -- 1.2 LTE Radio Access Network Architecture 9 -- 1.3 Network Elements and Functions 10 -- 1.3.1 The eNodeB (eNB) 11 -- 1.3.2 Mobility Management Entity (MME) 12 -- 1.3.3 Serving Gateway (S-GW) 12 -- 1.3.4 Packet Data Network Gateway (PDN-GW) 13 -- 1.3.5 Interfaces and Reference Points 13 -- 1.4 Area and Subscriber Identities 18 -- 1.4.1 Domains and Strati 18 -- 1.4.2 IMSI 19 -- 1.4.3 LMSI, TMSI, P-TMSI, M-TMSI, and S-TMSI 20 -- 1.4.4 GUTI 21 -- 1.4.5 IMEI 22 -- 1.4.6 RNTI 22 -- 1.4.7 Location Area, Routing Area, Service Area, Tracking Area, and Cell Global Identity 24 -- 1.4.8 Mapping between Temporary and Area Identities for EUTRAN and UTRAN/GERAN-Based Systems 25 -- 1.4.9 GSM Base Station Identification 27 -- 1.4.10 UTRA Base Station Identification 28 -- 1.4.11 Numbering, Addressing, and Identification in the Session Initiation Protocol 29 -- 1.4.12 Access Point Name 30 -- 1.5 User Equipment 30 -- 1.5.1 UE Categories 31 -- 1.6 QoS Architecture 32 -- 1.7 LTE Security 34 -- 1.8 Radio Interface Basics 38 -- 1.8.1 Duplex Methods 40 -- 1.8.2 Multiple Access Methods 42 -- 1.8.3 OFDM Principles and Modulation 46 -- 1.8.4 Multiple Access in OFDM / OFDMA 48 -- 1.8.5 Resource Blocks 49 -- 1.8.6 Downlink Slot Structure 53 -- 1.8.7 OFDM Scheduling on LTE DL 56 -- 1.8.8 SC-FDMA Principles and Modulation 60 -- 1.8.9 Scheduling on LTE UL 62 -- 1.8.10 Uplink Slot Structure 64 -- 1.8.11 Link Adaptation in LTE 64 -- 1.8.12 Physical Channels in LTE 70 -- 1.8.13 Transport Channels in LTE 79 -- 1.8.14 Channel Mapping and Multiplexing 80 -- 1.8.15 Initial UE Radio Access 82 -- 1.8.16 UE Random Access 82 -- 1.9 Hybrid ARQ 87 -- 1.9.1 Synchronous HARQ in LTE Uplink 90 -- 1.9.2 Asynchronous HARQ in LTE Downlink 91 -- 1.9.3 HARQ Example 92 -- 1.10 LTE Advanced 94 -- 1.10.1 Increasing Spectral Efficiency 95 -- 1.10.2 Carrier Aggregation 95 -- 1.10.3 Heterogeneous Networks 95.
1.10.4 Inter-Cell Interference Coordination 97 -- 1.11 LTE Network Protocol Architecture 98 -- 1.11.1 Uu / Control/User Plane 98 -- 1.11.2 S1 / Control/User Plane 99 -- 1.11.3 X2 / User/Control Plane 100 -- 1.11.4 S6a / Control Plane 100 -- 1.11.5 S3/S4/S5/S8/S10/S11 / Control Plane/User Plane 101 -- 1.12 Protocol Functions, Encoding, Basic Messages, and Information Elements 102 -- 1.12.1 Ethernet 102 -- 1.12.2 Internet Protocol (IPv4/IPv6) 102 -- 1.12.3 Stream Control Transmission Protocol (SCTP) 106 -- 1.12.4 Radio Interface Layer 2 Protocols 108 -- 1.12.5 Medium Access Control (MAC) Protocol 110 -- 1.12.6 Radio Link Control (RLC) Protocol 111 -- 1.12.7 Packet Data Convergence Protocol (PDCP) 115 -- 1.12.8 Radio Resource Control (RRC) Protocol 117 -- 1.12.9 Non-Access Stratum (NAS) Protocol 124 -- 1.12.10 S1 Application Part (S1AP) 124 -- 1.12.11 User Datagram Protocol (UDP) 128 -- 1.12.12 GPRS Tunneling Protocol (GTP) 129 -- 1.12.13 Transmission Control Protocol (TCP) 136 -- 1.12.14 Session Initiation Protocol (SIP) 138 -- 1.12.15 DIAMETER on EPC Interfaces 139 -- 2 E-UTRAN/EPC Signaling 145 -- 2.1 S1 Setup 145 -- 2.1.1 S1 Setup: Message Flow 145 -- 2.1.2 S1 Setup: Failure Analysis 147 -- 2.2 Initial Attach 149 -- 2.2.1 Procedure 150 -- 2.3 UE Context Release Requested by eNodeB 166 -- 2.3.1 Procedure 166 -- 2.4 UE Service Request 168 -- 2.4.1 Procedure 169 -- 2.5 Dedicated Bearer Setup 172 -- 2.6 Inter-eNodeB Handover over X2 174 -- 2.6.1 Procedure 176 -- 2.7 S1 Handover 186 -- 2.7.1 Procedure 188 -- 2.8 Dedicated Bearer Release 199 -- 2.9 Detach 200 -- 2.9.1 Procedure 200 -- 2.10 Failure Cases in E-UTRAN and EPC 203 -- 2.11 Voice over LTE (SIP) Call / Complete Scenario 203 -- 2.12 Inter-RAT Cell Reselection 4G-3G-4G 210 -- 2.13 Normal/Periodical Tracking Area Update 211 -- 2.14 CS Fallback End-to-End S1/IuCS/IuPS 212 -- 2.15 Paging 213 -- 2.16 Multi-E-RAB Call Scenarios 214 -- 2.16.1 Multi-E-RAB Call Scenarios without Subscriber Mobility 214 -- 2.16.2 Multi-E-RAB Call with Intra-LTE Handover 215.
2.16.3 Inter-RAT Mobility of a Multi-E-RAB Call Using CS Fallback 216 -- 2.16.4 Abnormal Releases of Calls with VoLTE Services 217 -- 3 Radio Interface Signaling Procedures 219 -- 3.1 RRC Connection Setup, Attach, and Default Bearer Setup 220 -- 3.1.1 Random Access and RRC Connection Setup Procedure 220 -- 3.1.2 RRC Connection Reconfiguration and Default Bearer Setup 229 -- 3.1.3 RRC Connection Release 238 -- 3.2 LTE Mobility 238 -- 3.2.1 Intra-eNB Intra-Frequency HO 242 -- 3.2.2 Intra-eNodeB Inter-Frequency Handover 243 -- 3.2.3 Inter-eNodeB Intra-Frequency Handover 248 -- 3.2.4 Inter-RAT Handover to 3G 253 -- 3.2.5 Inter-RAT Handover to 2G 255 -- 3.2.6 Inter-RAT Blind Redirection to 3G 257 -- 3.2.7 Inter-RAT Blind Redirection to 2G 259 -- 3.2.8 CS Fallback 260 -- 3.3 Failure Cases 262 -- 4 Key Performance Indicators and Measurements for LTE Radio Network Optimization 267 -- 4.1 Monitoring Solutions for LTE Interfaces 267 -- 4.1.1 Monitoring the Air Interface (Uu) 267 -- 4.1.2 Antenna-Based Monitoring 269 -- 4.1.3 Coax-Based Monitoring 270 -- 4.1.4 CPRI-Based Monitoring 270 -- 4.1.5 Monitoring the E-UTRAN Line Interface 272 -- 4.1.6 Monitoring the eNodeB Trace Port 276 -- 4.2 Monitoring the Scheduler Efficiency 279 -- 4.2.1 UL and DL Scheduling Resources 285 -- 4.2.2 X2 Load Indication 286 -- 4.2.3 The eNodeB Layer 2 Measurements 288 -- 4.3 Radio Quality Measurements 290 -- 4.3.1 UE Measurements 293 -- 4.3.2 The eNodeB Physical Layer Measurements 297 -- 4.3.3 Radio Interface Tester Measurements 301 -- 4.3.4 I/Q Constellation Diagrams 302 -- 4.3.5 EVM/Modulation Error Ratio 304 -- 4.4 Control Plane Performance Counters and Delay Measurements 306 -- 4.4.1 Network Accessibility 307 -- 4.4.2 Network Retainability 316 -- 4.4.3 Mobility (Handover) 318 -- 4.5 User Plane KPIs 322 -- 4.5.1 IP Throughput 323 -- 4.5.2 Application Throughput 325 -- 4.5.3 TCP Startup KPIs 327 -- 4.5.4 TCP Round-Trip Time 328 -- 4.5.5 Packet Jitter 329 -- 4.5.6 Packet Delay and Packet Loss on a Hop-to-Hop Basis 330.
4.6 KPI Visualization using Geographical Maps (Geolocation) 331 -- 4.6.1 The Minimize Drive Test Feature Set of 3GPP 333 -- Acronyms 337 -- Bibliography 343 -- Index 345.
Record Nr. UNINA-9910830100603321
Kreher Ralf  
Chichester, West Sussex, United Kingdom : , : John Wiley & Sons, Inc., , 2016
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
UMTS performance measurement [[electronic resource] ] : a practical guide to KPIs for the UTRAN environment / / Ralf Kreher
UMTS performance measurement [[electronic resource] ] : a practical guide to KPIs for the UTRAN environment / / Ralf Kreher
Autore Kreher Ralf
Pubbl/distr/stampa Chichester, : John Wiley, 2006
Descrizione fisica 1 online resource (227 p.)
Disciplina 621.3845
Soggetto topico Universal Mobile Telecommunications System - Evaluation
Cell phone systems - Evaluation
Soggetto genere / forma Electronic books.
ISBN 1-280-51914-2
9786610519149
0-470-03486-6
0-470-03487-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto UMTS Performance Measurement; Contents; Preface; Acknowledgements; 1 Basics of Performance Measurement in UMTS Terrestrial Radio Access Network (UTRAN); 1.1 General Ideas of Performance Measurement; 1.1.1 What is a KPI?; 1.1.2 KPI Aggregation Levels and Correlations; 1.1.3 Basic Approach to Capture and Filter Performance-Related Data in UTRAN; 1.1.4 Performance Measurement Definitions of 3GPP; 1.1.5 User Experience vs. 3GPP Performance Measurement Definitions; 1.1.5.1 Problems with Registration and Call Setup; 1.1.5.2 Dropped Calls; 1.1.5.3 Poor Transmission Speed; 1.1.5.4 Corrupted Data
1.1.6 Basics of PS Call Analysis in UTRAN1.2 Basic Architectural Concept of Performance Measurement Equipment Based on Protocol Analysis; 1.2.1 Protocol Decoding and Protocol Stacks; 1.2.2 Diversity Combining and Filtering; 1.2.3 State Transition Analysis; 1.3 Aggregation Levels/Dimensions; 1.3.1 SGSN Dimension; 1.3.2 MSC Dimension; 1.3.3 SRNC Dimension; 1.3.4 DRNC Dimension; 1.3.5 CRNC Dimension; 1.3.6 Node B Dimension; 1.3.7 Cell Dimension; 1.3.8 Call/Connection Dimension; 1.3.9 UE Dimensions; 1.3.10 Radio Bearer/Radio Access Bearer Type Dimensions
1.4 Statistics Calculation and Presentation1.4.1 Sampling Period; 1.4.2 Bins; 1.4.3 The 95th Percentile; 1.4.4 Gauges and Distribution Functions; 2 Selected UMTS Key Performance Parameters; 2.1 Block Error Rate (BLER) Measurements; 2.1.1 Uplink Block Error Rate (UL BLER); 2.1.1.1 Uplink Transport Channel BLER; 2.1.1.2 UL BLER per Call; 2.1.1.3 UL BLER per Call Type; 2.1.2 Downlink Block Error Rate (DL BLER); 2.1.2.1 DL BLER per Call or Service; 2.1.3 Correlation of BLER and Other Measurements; 2.2 Radio-Related Measurements
2.2.1 Radio Link Quality Parameters and Flow Control in Lub Frame Protocol (FP)2.2.2 NBAP Common Measurements; 2.2.2.1 Transmitted Carrier Power; 2.2.2.2 NBAP Common Measurement Enhancements in Release 5; 2.2.2.3 Received Total Wideband Power; 2.2.3 NBAP Dedicated Measurements; 2.2.3.1 Signal-to-Interference Ratio (SIR); 2.2.3.2 Signal-to-Interference Ratio Error (SIR Error); 2.2.3.3 Uplink SIR Target; 2.2.3.4 Transmitted Code Power; 2.2.3.5 Round Trip Time (RTT); 2.2.4 RRC Measurements and UE Measurement Abilities; 2.3 Throughput Measurements; 2.3.1 RLC Throughput
2.3.2 Transport Channel Throughput2.3.3 Packet Switched User Perceived Throughput; 2.3.4 Application Throughput; 2.4 Transport Channel Usage Ratio; 2.5 Primary and Secondary Traffic; 2.6 Active Set Size Distribution; 2.7 Soft Handover Success and Failure Analysis; 2.8 Inter-Frequency Hard Handover Success and Failure Rates; 2.9 Core Network Hard Handover Success and Failure Rates; 2.9.1 Intra-MSC and Inter-MSC Hard Handover (3G-3G); 2.9.2 3G-2G Inter-RAT Handover for CS and PS Services; 2.9.2.1 CS 3G-2G Inter-RAT Handover; 2.9.2.2 PS 3G-2G Inter-RAT Handover
2.10 State Transitions and Channel Type Switching
Record Nr. UNINA-9910143591203321
Kreher Ralf  
Chichester, : John Wiley, 2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
UMTS performance measurement [[electronic resource] ] : a practical guide to KPIs for the UTRAN environment / / Ralf Kreher
UMTS performance measurement [[electronic resource] ] : a practical guide to KPIs for the UTRAN environment / / Ralf Kreher
Autore Kreher Ralf
Pubbl/distr/stampa Chichester, : John Wiley, 2006
Descrizione fisica 1 online resource (227 p.)
Disciplina 621.3845
Soggetto topico Universal Mobile Telecommunications System - Evaluation
Cell phone systems - Evaluation
ISBN 1-280-51914-2
9786610519149
0-470-03486-6
0-470-03487-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto UMTS Performance Measurement; Contents; Preface; Acknowledgements; 1 Basics of Performance Measurement in UMTS Terrestrial Radio Access Network (UTRAN); 1.1 General Ideas of Performance Measurement; 1.1.1 What is a KPI?; 1.1.2 KPI Aggregation Levels and Correlations; 1.1.3 Basic Approach to Capture and Filter Performance-Related Data in UTRAN; 1.1.4 Performance Measurement Definitions of 3GPP; 1.1.5 User Experience vs. 3GPP Performance Measurement Definitions; 1.1.5.1 Problems with Registration and Call Setup; 1.1.5.2 Dropped Calls; 1.1.5.3 Poor Transmission Speed; 1.1.5.4 Corrupted Data
1.1.6 Basics of PS Call Analysis in UTRAN1.2 Basic Architectural Concept of Performance Measurement Equipment Based on Protocol Analysis; 1.2.1 Protocol Decoding and Protocol Stacks; 1.2.2 Diversity Combining and Filtering; 1.2.3 State Transition Analysis; 1.3 Aggregation Levels/Dimensions; 1.3.1 SGSN Dimension; 1.3.2 MSC Dimension; 1.3.3 SRNC Dimension; 1.3.4 DRNC Dimension; 1.3.5 CRNC Dimension; 1.3.6 Node B Dimension; 1.3.7 Cell Dimension; 1.3.8 Call/Connection Dimension; 1.3.9 UE Dimensions; 1.3.10 Radio Bearer/Radio Access Bearer Type Dimensions
1.4 Statistics Calculation and Presentation1.4.1 Sampling Period; 1.4.2 Bins; 1.4.3 The 95th Percentile; 1.4.4 Gauges and Distribution Functions; 2 Selected UMTS Key Performance Parameters; 2.1 Block Error Rate (BLER) Measurements; 2.1.1 Uplink Block Error Rate (UL BLER); 2.1.1.1 Uplink Transport Channel BLER; 2.1.1.2 UL BLER per Call; 2.1.1.3 UL BLER per Call Type; 2.1.2 Downlink Block Error Rate (DL BLER); 2.1.2.1 DL BLER per Call or Service; 2.1.3 Correlation of BLER and Other Measurements; 2.2 Radio-Related Measurements
2.2.1 Radio Link Quality Parameters and Flow Control in Lub Frame Protocol (FP)2.2.2 NBAP Common Measurements; 2.2.2.1 Transmitted Carrier Power; 2.2.2.2 NBAP Common Measurement Enhancements in Release 5; 2.2.2.3 Received Total Wideband Power; 2.2.3 NBAP Dedicated Measurements; 2.2.3.1 Signal-to-Interference Ratio (SIR); 2.2.3.2 Signal-to-Interference Ratio Error (SIR Error); 2.2.3.3 Uplink SIR Target; 2.2.3.4 Transmitted Code Power; 2.2.3.5 Round Trip Time (RTT); 2.2.4 RRC Measurements and UE Measurement Abilities; 2.3 Throughput Measurements; 2.3.1 RLC Throughput
2.3.2 Transport Channel Throughput2.3.3 Packet Switched User Perceived Throughput; 2.3.4 Application Throughput; 2.4 Transport Channel Usage Ratio; 2.5 Primary and Secondary Traffic; 2.6 Active Set Size Distribution; 2.7 Soft Handover Success and Failure Analysis; 2.8 Inter-Frequency Hard Handover Success and Failure Rates; 2.9 Core Network Hard Handover Success and Failure Rates; 2.9.1 Intra-MSC and Inter-MSC Hard Handover (3G-3G); 2.9.2 3G-2G Inter-RAT Handover for CS and PS Services; 2.9.2.1 CS 3G-2G Inter-RAT Handover; 2.9.2.2 PS 3G-2G Inter-RAT Handover
2.10 State Transitions and Channel Type Switching
Record Nr. UNINA-9910830401003321
Kreher Ralf  
Chichester, : John Wiley, 2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
UMTS signaling : UMTS interfaces, protocols, message flows and procedures analyzed and explained / / Ralf Kreher and Torsten Rèudebusch
UMTS signaling : UMTS interfaces, protocols, message flows and procedures analyzed and explained / / Ralf Kreher and Torsten Rèudebusch
Autore Kreher Ralf
Edizione [2nd ed.]
Pubbl/distr/stampa Chichester, West Sussex, England ; , : John Wiley & Sons, , 2007
Descrizione fisica 1 online resource (xv, 553 p. ) : ill
Disciplina 621.38223
Altri autori (Persone) RèudebuschTorsten
Soggetto topico Universal Mobile Telecommunications System
Telecommunication - Message processing
Telecommunication - Quality control
ISBN 1-118-40858-6
1-118-40860-8
1-118-40859-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto -- Preface xiii -- Acknowledgments xvii -- About the Authors xix -- 1 UMTS Basics 1 -- 1.1 Standards 2 -- 1.2 Network Architecture 4 -- 1.2.1 GSM 4 -- 1.2.2 UMTS Release 99 5 -- 1.2.3 UMTS Release 4 7 -- 1.2.4 UMTS Release 5 8 -- 1.2.5 HSPA 12 -- 1.2.6 UMTS Release 6 21 -- 1.2.7 UMTS Release 7 and Beyond 24 -- 1.2.8 TD-SCDMA 26 -- 1.3 UMTS Interfaces 28 -- 1.3.1 Iu Interface 28 -- 1.3.2 Iub Interface 29 -- 1.3.3 Iur Interface 29 -- 1.4 UMTS Domain Architecture 31 -- 1.5 UTRAN 31 -- 1.5.1 RNC 33 -- 1.5.2 Node B 35 -- 1.5.3 Area Concept 35 -- 1.5.4 UMTS User Equipment and USIM 36 -- 1.5.5 Mobiles 38 -- 1.5.6 QoS Architecture 39 -- 1.6 UMTS Security 41 -- 1.6.1 Historic Development 41 -- 1.6.2 UMTS Security Architecture 46 -- 1.6.3 Authentication and Key Agreement (AKA) 48 -- 1.6.4 Kasumi/Misty 53 -- 1.6.5 Integrity / Air Interface Integrity Mechanism 55 -- 1.6.6 Confidentiality / Encryption (Ciphering) on Uu and Iub 58 -- 1.6.7 UMTS Network Transactions 63 -- 1.7 Radio Interface Basics 63 -- 1.7.1 Duplex Methods 64 -- 1.7.2 Multiple Access Methods 64 -- 1.7.3 UMTS CDMA 65 -- 1.7.4 CDMA Spreading/Channelization 66 -- 1.7.5 Microdiversity / Multipath (FDD and TDD) 67 -- 1.7.6 Microdiversity / Softer Handover (FDD) 67 -- 1.7.7 Macrodiversity / Soft Handover (FDD) 68 -- 1.7.8 UMTS Spreading (FDD and TDD) 68 -- 1.7.9 Scrambling 69 -- 1.7.10 Coding Summary (FDD) 69 -- 1.7.11 Signal to Interference (FDD) 69 -- 1.7.12 Cell Breathing (FDD) 70 -- 1.7.13 UMTS Channels (FDD and TDD) 72 -- 1.7.14 Transport Channels (FDD and TDD) 74 -- 1.7.15 Common Transport Channels (FDD and TDD) 74 -- 1.7.16 Dedicated Transport Channels (FDD and TDD) 75 -- 1.7.17 Initial UE Radio Access (FDD) 76 -- 1.7.18 Power Control (FDD and TDD) 77 -- 1.7.19 UE Random Access (FDD) 79 -- 1.7.20 Power Control in Soft Handover (FDD) 80 -- 1.8 UMTS Network Protocol Architecture 81 -- 1.8.1 Iub / Control Plane 82 -- 1.8.2 Iub / User Plane 83 -- 1.8.3 Iur / User/Control Plane 84 -- 1.8.4 luCS / User/Control Plane 85.
1.8.5 IuPS / User/Control Plane 86 -- 1.8.6 E / User/Control Plane 86 -- 1.8.7 Gn / User/Control Plane 87 -- 1.9 SIGTRAN 87 -- 1.10 ATM 89 -- 1.10.1 ATM Cell 90 -- 1.10.2 ATM Layer Architecture 91 -- 1.10.3 ATM Adaption Layer (AAL) 91 -- 1.10.4 AAL2 92 -- 1.10.5 AAL5 92 -- 1.11 User Plane Framing Protocol 93 -- 1.11.1 Frame Architecture 93 -- 1.11.2 FP Control Frame Architecture 94 -- 1.12 Medium Access Protocol (MAC) 95 -- 1.12.1 MAC Architecture 95 -- 1.12.2 MAC Data PDU 96 -- 1.12.3 MAC Header Alternatives 98 -- 1.13 Radio Link Control (RLC) 98 -- 1.13.1 RLC Services 99 -- 1.13.2 RLC Functions 100 -- 1.13.3 RLC Architecture 102 -- 1.13.4 RLC Data PDUs 103 -- 1.13.5 Other RLC PDUs 104 -- 1.14 Service Specific Connection Oriented Protocol (SSCOP) 104 -- 1.14.1 Example SSCOP 105 -- 1.15 Service Specific Coordination Function (SSCF) 106 -- 1.16 Message Transfer Part Level 3 / Broadband (MTP3-B) 106 -- 1.17 Internet Protocol (IP) 107 -- 1.17.1 IPv4 Frame Architecture 108 -- 1.18 Signaling Transport Converter (STC) 108 -- 1.19 Signaling Connection Control Part (SCCP) 109 -- 1.19.1 Example SCCP 110 -- 1.20 Abstract Syntax Notation One (ASN.1) in UMTS 111 -- 1.20.1 ASN.1 BER 111 -- 1.20.2 ASN.1 PER 112 -- 1.21 Radio Resource Control (RRC) 112 -- 1.21.1 RRC States (3GPP 25.331) 113 -- 1.21.2 System Information Blocks (SIBs) 118 -- 1.22 Node B Application Part (NBAP) 124 -- 1.22.1 NBAP Functions 124 -- 1.22.2 NBAP Elementary Procedures (EPs) 125 -- 1.22.3 Example / NBAP 126 -- 1.23 Radio Network Subsystem Application Part (RNSAP) 126 -- 1.23.1 RNSAP Functions 126 -- 1.23.2 Example / RNSAP Procedures 127 -- 1.24 Radio Access Network Application Part (RANAP) 128 -- 1.24.1 RANAP Elementary Procedures (EPs) 129 -- 1.24.2 Example / RANAP Procedure 131 -- 1.25 ATM Adaptation Layer Type 2 / Layer 3 (AAL2L3/ALCAP) 131 -- 1.25.1 AAL2L3 Message Format 131 -- 1.25.2 Example / AAL2L3 Procedure 132 -- 1.26 IU User Plane Protocol 134 -- 1.26.1 Iu UP Transparent Mode 134 -- 1.26.2 Iu UP Support Mode Data Frames 134.
1.26.3 Iu UP Support Mode Control Frames 136 -- 1.26.4 Example / Iu UP Support Mode Message Flow 136 -- 1.27 Adaptive Multirate (AMR) Codec 136 -- 1.27.1 AMR IF1 Frame Architecture 138 -- 1.28 Terminal Adaptation Function (TAF) 138 -- 1.29 Radio Link Protocol (RLP) 139 -- 1.30 Packet Data Convergence Protocol (PDCP) 140 -- 1.30.1 PDCP PDU Format 140 -- 1.31 Broadcast/Multicast Control (BMC) 141 -- 1.31.1 BMC Architecture 141 -- 1.32 Circuit-Switched Mobility Management (MM) 141 -- 1.33 Circuit-Switched Call Control (CC) 142 -- 1.34 Example / Mobile Originated Call (Circuit Switched) 143 -- 1.35 Packet-Switched Mobility Management (GMM) 144 -- 1.36 Packet-Switched Session Management (SM) 144 -- 1.37 Example / Activate PDP Context (Packet Switched) 145 -- 2 Short Introduction to Network Monitoring, Troubleshooting, and Network Optimization 147 -- 2.1 Iub Monitoring 147 -- 2.1.1 IMA 147 -- 2.1.2 Fractional ATM 148 -- 2.1.3 Load Sharing and Addressing on Iub 149 -- 2.1.4 Troubleshooting Iub Monitoring Scenarios 150 -- 2.2 Iu Monitoring 151 -- 2.2.1 Troubleshooting Iu Monitoring 154 -- 2.3 Network Optimization and Network Troubleshooting 155 -- 2.3.1 Cell-related Performance Relevant Data 159 -- 2.3.2 Call-related Performance Relevant Data 164 -- 3 UMTS UTRAN Signaling Procedures 171 -- 3.1 Iub / Node B Setup 172 -- 3.1.1 Overview 172 -- 3.1.2 Message Flow 173 -- 3.2 Iub / IMSI/GPRS Attach Procedure 191 -- 3.2.1 Overview 191 -- 3.2.2 Message Flow 192 -- 3.3 Iub CS / Mobile Originated Call 205 -- 3.3.1 Overview 206 -- 3.3.2 Message Flow 207 -- 3.4 Iub CS / Mobile Terminated Call 217 -- 3.4.1 Overview 217 -- 3.4.2 Message Flow 219 -- 3.5 Iub PS / PDP Context Activation/Deactivation 223 -- 3.5.1 Overview 225 -- 3.5.2 Message Flow 226 -- 3.6 Iub / IMSI/GPRS Detach Procedure 235 -- 3.6.1 Overview 235 -- 3.6.2 Message Flow 236 -- 3.7 RRC Measurement Procedures 239 -- 3.7.1 RRC Measurement Types 239 -- 3.7.2 Cell Categories 239 -- 3.7.3 Measurement Initiation for Intrafrequency Measurement 240.
3.7.4 Intrafrequency Measurement Events 241 -- 3.7.5 Intrafrequency Measurement Report 244 -- 3.7.6 Intrafrequency Measurement Modification 245 -- 3.7.7 Measurement Initiation for Interfrequency Measurement 247 -- 3.7.8 Further RRC Measurement Groups 248 -- 3.7.9 Changing Reporting Conditions After Transition to CELL FACH 249 -- 3.8 Iub / Physical Channel Reconfiguration (PDPC) 250 -- 3.8.1 Message Flow 251 -- 3.9 Channel Type Switching 259 -- 3.9.1 Overview 259 -- 3.9.2 Message Flow 261 -- 3.10 Iub / Mobile-Originated Call with Soft Handover (Inter-Node B, Intra-RNC) 272 -- 3.10.1 Overview 272 -- 3.10.2 Message Flow (Figure 3.70) 273 -- 3.11 Iub / Softer Handover 286 -- 3.11.1 Overview 286 -- 3.11.2 Message Flow 287 -- 3.12 Iub Interfrequency Hard Handover FDD 290 -- 3.12.1 Interfrequency Hard Handover Overview 291 -- 3.12.2 FDD Interfrequency Inter-Node B Hard Handover Call Flow 292 -- 3.13 RRC Measurements in Compressed Mode and Typical Call Drop 296 -- 3.13.1 Message Flow 296 -- 3.14 High Speed Downlink Packet Access (HSDPA) 301 -- 3.14.1 HSDPA Cell Setup 302 -- 3.14.2 HSDPA Basic Call 304 -- 3.14.3 Mobility Management and Handover Procedures in HSDPA 310 -- 3.14.4 Troubleshooting HSDPA Calls 318 -- 3.14.5 Proprietary Descriptions of HSDPA Call/Mobility Scenarios 320 -- 3.15 High Speed Uplink Packet Access (HSUPA) 323 -- 3.15.1 HSUPA Cell Setup 324 -- 3.15.2 HSUPA Call Scenarios 325 -- 3.15.3 HSUPA Basic Call 328 -- 3.16 NBAP Measurements 330 -- 3.16.1 NBAP Common Measurements 331 -- 3.16.2 NBAP Dedicated Measurements 334 -- 4 TDD (TD-SCDMA) Iub Signaling Procedures 339 -- 4.1 TD-SCDMA Radio Interface Structure and Radio Resource Allocation 340 -- 4.1.1 TD-SCDMA Mobile Originated Speech Call Setup 343 -- 4.1.2 RRC Measurements in TD-SCDMA Radio Mode 349 -- 4.1.3 Intra-Cell Interfrequency Handover in TD-SCDMA 352 -- 4.1.4 Inter-Cell Interfrequency Handover 353 -- 4.1.5 Multi-Service Call CS/PS with Inter-Node B Handover 356 -- 5 Iu and Iur Signaling Procedures 363.
5.1 Iub-Iu / Location Update 363 -- 5.1.1 Message Flow 364 -- 5.2 Iub-Iu / Mobile-Originated Call 370 -- 5.2.1 Overview 370 -- 5.2.2 Message Flow 372 -- 5.3 Iub-Iu / Mobile-Terminated Call 378 -- 5.3.1 Overview 378 -- 5.3.2 Message Flow 379 -- 5.4 Iub-Iu / Attach 384 -- 5.4.1 Overview 384 -- 5.4.2 Message Flow 385 -- 5.5 Iub-Iu / PDPC Activation/Deactivation 387 -- 5.5.1 Overview 387 -- 5.5.2 Message Flow 388 -- 5.6 Streaming PS Service and Secondary PDP Context 394 -- 5.6.1 Message Flow 395 -- 5.7 Iub-Iu / Detach 398 -- 5.7.1 Overview 398 -- 5.7.2 Message Flow 399 -- 5.8 Iub-Iur / Soft Handover (Inter-Node B, Inter-RNC) 401 -- 5.8.1 Overview 401 -- 5.8.2 Message Flow 402 -- 5.9 Iub-Iu / RRC Re-Establishment (Inter-Node B, Inter-RNC) 412 -- 5.9.1 Overview 412 -- 5.9.2 Message Flow 414 -- 5.10 SRNS Relocation (UE not Involved) 419 -- 5.10.1 Overview 420 -- 5.10.2 Message Flow 421 -- 5.11 SRNS Relocation (UE Involved) 426 -- 5.11.1 Overview 427 -- 5.11.2 Message Flow 429 -- 5.12 Short Message Service (SMS) in UMTS Networks 437 -- 5.12.1 SMS Network Architecture Overview 437 -- 5.12.2 SMS Protocol Architecture 438 -- 5.12.3 Mobile-Originated Short Message 439 -- 5.12.4 Mobile-Terminated Short Message 446 -- 6 Signaling Procedures in the 3G Core Network 453 -- 6.1 ISUP/BICC Call Setup 453 -- 6.1.1 Address Parameters for ISUP/BICC Messages 454 -- 6.1.2 ISUP Call (Successful) 454 -- 6.1.3 ISUP Call (Unsuccessful) 455 -- 6.1.4 BICC Call Setup on E Interface Including IuCS Signaling 458 -- 6.2 Gn Interface Signaling 462 -- 6.2.1 PDF Context Creation on Gn (GTP-C and GTP-U) 464 -- 6.2.2 GTP-C Location Management 465 -- 6.2.3 GTP-C Mobility Management 465 -- 6.2.4 SGSN Relocation 467 -- 6.2.5 Example GTP 467 -- 6.3 Procedures on the Gs Interface 469 -- 6.3.1 Location Update via Gs 469 -- 6.3.2 Detach Indication via Gs 470 -- 6.3.3 Paging via Gs 470 -- 6.4 Signaling on Interfaces Toward HLR 470 -- 6.4.1 Addressing on MAP Interfaces 472 -- 6.4.2 MAP Architecture 473 -- 6.4.3 MAP Signaling Example 475.
6.5 Inter-3G MSC Handover Procedure 477 -- 6.5.1 Inter-3G MSC Handover Overview 480 -- 6.5.2 Inter-3G MSC Handover Call Flow 482 -- 6.6 Inter-3G-2G-3G MSC Handover Procedure 486 -- 6.6.1 Inter-3G-2G MSC Handover/Relocation Overview (Figure 6.42) 489 -- 6.6.2 Inter-3G-2G MSC Handover Call Flow 490 -- 6.6.3 Inter-3G-2G MSC Handover Messages on E Interface 494 -- 6.6.4 Inter-2G-3G MSC Handover/Relocation Overview 495 -- 6.6.5 Inter-2G-3G MSC Subsequent Handover Messages on the E Interface 500 -- 6.6.6 2G-3G CS Inter-RAT Handover on IuCS and Iub Interface 501 -- 6.6.7 PS Inter-RAT Mobility 506 -- 6.7 Customized Application for Mobile Network Enhanced Logic (CAMEL) 509 -- 6.7.1 IN/CAMEL Network Architecture 510 -- 6.7.2 CAMEL Basic Call State Model 511 -- 6.7.3 Charging Operation Using CAMEL 512 -- 6.7.4 CAMEL Signaling Example for GPRS Charging 513 -- 6.8 IP Multimedia Subsystem (IMS) 517 -- 6.8.1 IMS PDP Context Activation Basics 517 -- 6.8.2 IMS UE-UE Call Basics 518 -- Glossary 521 -- Bibliography 537 -- Index 541.
Record Nr. UNINA-9910208839603321
Kreher Ralf  
Chichester, West Sussex, England ; , : John Wiley & Sons, , 2007
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UMTS signaling : UMTS interfaces, protocols, message flows and procedures analyzed and explained / / Ralf Kreher and Torsten Rèudebusch
UMTS signaling : UMTS interfaces, protocols, message flows and procedures analyzed and explained / / Ralf Kreher and Torsten Rèudebusch
Autore Kreher Ralf
Edizione [2nd ed.]
Pubbl/distr/stampa Chichester, West Sussex, England ; , : John Wiley & Sons, , 2007
Descrizione fisica 1 online resource (xv, 553 p. ) : ill
Disciplina 621.38223
Altri autori (Persone) RèudebuschTorsten
Soggetto topico Universal Mobile Telecommunications System
Telecommunication - Message processing
Telecommunication - Quality control
ISBN 1-118-40858-6
1-118-40860-8
1-118-40859-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto -- Preface xiii -- Acknowledgments xvii -- About the Authors xix -- 1 UMTS Basics 1 -- 1.1 Standards 2 -- 1.2 Network Architecture 4 -- 1.2.1 GSM 4 -- 1.2.2 UMTS Release 99 5 -- 1.2.3 UMTS Release 4 7 -- 1.2.4 UMTS Release 5 8 -- 1.2.5 HSPA 12 -- 1.2.6 UMTS Release 6 21 -- 1.2.7 UMTS Release 7 and Beyond 24 -- 1.2.8 TD-SCDMA 26 -- 1.3 UMTS Interfaces 28 -- 1.3.1 Iu Interface 28 -- 1.3.2 Iub Interface 29 -- 1.3.3 Iur Interface 29 -- 1.4 UMTS Domain Architecture 31 -- 1.5 UTRAN 31 -- 1.5.1 RNC 33 -- 1.5.2 Node B 35 -- 1.5.3 Area Concept 35 -- 1.5.4 UMTS User Equipment and USIM 36 -- 1.5.5 Mobiles 38 -- 1.5.6 QoS Architecture 39 -- 1.6 UMTS Security 41 -- 1.6.1 Historic Development 41 -- 1.6.2 UMTS Security Architecture 46 -- 1.6.3 Authentication and Key Agreement (AKA) 48 -- 1.6.4 Kasumi/Misty 53 -- 1.6.5 Integrity / Air Interface Integrity Mechanism 55 -- 1.6.6 Confidentiality / Encryption (Ciphering) on Uu and Iub 58 -- 1.6.7 UMTS Network Transactions 63 -- 1.7 Radio Interface Basics 63 -- 1.7.1 Duplex Methods 64 -- 1.7.2 Multiple Access Methods 64 -- 1.7.3 UMTS CDMA 65 -- 1.7.4 CDMA Spreading/Channelization 66 -- 1.7.5 Microdiversity / Multipath (FDD and TDD) 67 -- 1.7.6 Microdiversity / Softer Handover (FDD) 67 -- 1.7.7 Macrodiversity / Soft Handover (FDD) 68 -- 1.7.8 UMTS Spreading (FDD and TDD) 68 -- 1.7.9 Scrambling 69 -- 1.7.10 Coding Summary (FDD) 69 -- 1.7.11 Signal to Interference (FDD) 69 -- 1.7.12 Cell Breathing (FDD) 70 -- 1.7.13 UMTS Channels (FDD and TDD) 72 -- 1.7.14 Transport Channels (FDD and TDD) 74 -- 1.7.15 Common Transport Channels (FDD and TDD) 74 -- 1.7.16 Dedicated Transport Channels (FDD and TDD) 75 -- 1.7.17 Initial UE Radio Access (FDD) 76 -- 1.7.18 Power Control (FDD and TDD) 77 -- 1.7.19 UE Random Access (FDD) 79 -- 1.7.20 Power Control in Soft Handover (FDD) 80 -- 1.8 UMTS Network Protocol Architecture 81 -- 1.8.1 Iub / Control Plane 82 -- 1.8.2 Iub / User Plane 83 -- 1.8.3 Iur / User/Control Plane 84 -- 1.8.4 luCS / User/Control Plane 85.
1.8.5 IuPS / User/Control Plane 86 -- 1.8.6 E / User/Control Plane 86 -- 1.8.7 Gn / User/Control Plane 87 -- 1.9 SIGTRAN 87 -- 1.10 ATM 89 -- 1.10.1 ATM Cell 90 -- 1.10.2 ATM Layer Architecture 91 -- 1.10.3 ATM Adaption Layer (AAL) 91 -- 1.10.4 AAL2 92 -- 1.10.5 AAL5 92 -- 1.11 User Plane Framing Protocol 93 -- 1.11.1 Frame Architecture 93 -- 1.11.2 FP Control Frame Architecture 94 -- 1.12 Medium Access Protocol (MAC) 95 -- 1.12.1 MAC Architecture 95 -- 1.12.2 MAC Data PDU 96 -- 1.12.3 MAC Header Alternatives 98 -- 1.13 Radio Link Control (RLC) 98 -- 1.13.1 RLC Services 99 -- 1.13.2 RLC Functions 100 -- 1.13.3 RLC Architecture 102 -- 1.13.4 RLC Data PDUs 103 -- 1.13.5 Other RLC PDUs 104 -- 1.14 Service Specific Connection Oriented Protocol (SSCOP) 104 -- 1.14.1 Example SSCOP 105 -- 1.15 Service Specific Coordination Function (SSCF) 106 -- 1.16 Message Transfer Part Level 3 / Broadband (MTP3-B) 106 -- 1.17 Internet Protocol (IP) 107 -- 1.17.1 IPv4 Frame Architecture 108 -- 1.18 Signaling Transport Converter (STC) 108 -- 1.19 Signaling Connection Control Part (SCCP) 109 -- 1.19.1 Example SCCP 110 -- 1.20 Abstract Syntax Notation One (ASN.1) in UMTS 111 -- 1.20.1 ASN.1 BER 111 -- 1.20.2 ASN.1 PER 112 -- 1.21 Radio Resource Control (RRC) 112 -- 1.21.1 RRC States (3GPP 25.331) 113 -- 1.21.2 System Information Blocks (SIBs) 118 -- 1.22 Node B Application Part (NBAP) 124 -- 1.22.1 NBAP Functions 124 -- 1.22.2 NBAP Elementary Procedures (EPs) 125 -- 1.22.3 Example / NBAP 126 -- 1.23 Radio Network Subsystem Application Part (RNSAP) 126 -- 1.23.1 RNSAP Functions 126 -- 1.23.2 Example / RNSAP Procedures 127 -- 1.24 Radio Access Network Application Part (RANAP) 128 -- 1.24.1 RANAP Elementary Procedures (EPs) 129 -- 1.24.2 Example / RANAP Procedure 131 -- 1.25 ATM Adaptation Layer Type 2 / Layer 3 (AAL2L3/ALCAP) 131 -- 1.25.1 AAL2L3 Message Format 131 -- 1.25.2 Example / AAL2L3 Procedure 132 -- 1.26 IU User Plane Protocol 134 -- 1.26.1 Iu UP Transparent Mode 134 -- 1.26.2 Iu UP Support Mode Data Frames 134.
1.26.3 Iu UP Support Mode Control Frames 136 -- 1.26.4 Example / Iu UP Support Mode Message Flow 136 -- 1.27 Adaptive Multirate (AMR) Codec 136 -- 1.27.1 AMR IF1 Frame Architecture 138 -- 1.28 Terminal Adaptation Function (TAF) 138 -- 1.29 Radio Link Protocol (RLP) 139 -- 1.30 Packet Data Convergence Protocol (PDCP) 140 -- 1.30.1 PDCP PDU Format 140 -- 1.31 Broadcast/Multicast Control (BMC) 141 -- 1.31.1 BMC Architecture 141 -- 1.32 Circuit-Switched Mobility Management (MM) 141 -- 1.33 Circuit-Switched Call Control (CC) 142 -- 1.34 Example / Mobile Originated Call (Circuit Switched) 143 -- 1.35 Packet-Switched Mobility Management (GMM) 144 -- 1.36 Packet-Switched Session Management (SM) 144 -- 1.37 Example / Activate PDP Context (Packet Switched) 145 -- 2 Short Introduction to Network Monitoring, Troubleshooting, and Network Optimization 147 -- 2.1 Iub Monitoring 147 -- 2.1.1 IMA 147 -- 2.1.2 Fractional ATM 148 -- 2.1.3 Load Sharing and Addressing on Iub 149 -- 2.1.4 Troubleshooting Iub Monitoring Scenarios 150 -- 2.2 Iu Monitoring 151 -- 2.2.1 Troubleshooting Iu Monitoring 154 -- 2.3 Network Optimization and Network Troubleshooting 155 -- 2.3.1 Cell-related Performance Relevant Data 159 -- 2.3.2 Call-related Performance Relevant Data 164 -- 3 UMTS UTRAN Signaling Procedures 171 -- 3.1 Iub / Node B Setup 172 -- 3.1.1 Overview 172 -- 3.1.2 Message Flow 173 -- 3.2 Iub / IMSI/GPRS Attach Procedure 191 -- 3.2.1 Overview 191 -- 3.2.2 Message Flow 192 -- 3.3 Iub CS / Mobile Originated Call 205 -- 3.3.1 Overview 206 -- 3.3.2 Message Flow 207 -- 3.4 Iub CS / Mobile Terminated Call 217 -- 3.4.1 Overview 217 -- 3.4.2 Message Flow 219 -- 3.5 Iub PS / PDP Context Activation/Deactivation 223 -- 3.5.1 Overview 225 -- 3.5.2 Message Flow 226 -- 3.6 Iub / IMSI/GPRS Detach Procedure 235 -- 3.6.1 Overview 235 -- 3.6.2 Message Flow 236 -- 3.7 RRC Measurement Procedures 239 -- 3.7.1 RRC Measurement Types 239 -- 3.7.2 Cell Categories 239 -- 3.7.3 Measurement Initiation for Intrafrequency Measurement 240.
3.7.4 Intrafrequency Measurement Events 241 -- 3.7.5 Intrafrequency Measurement Report 244 -- 3.7.6 Intrafrequency Measurement Modification 245 -- 3.7.7 Measurement Initiation for Interfrequency Measurement 247 -- 3.7.8 Further RRC Measurement Groups 248 -- 3.7.9 Changing Reporting Conditions After Transition to CELL FACH 249 -- 3.8 Iub / Physical Channel Reconfiguration (PDPC) 250 -- 3.8.1 Message Flow 251 -- 3.9 Channel Type Switching 259 -- 3.9.1 Overview 259 -- 3.9.2 Message Flow 261 -- 3.10 Iub / Mobile-Originated Call with Soft Handover (Inter-Node B, Intra-RNC) 272 -- 3.10.1 Overview 272 -- 3.10.2 Message Flow (Figure 3.70) 273 -- 3.11 Iub / Softer Handover 286 -- 3.11.1 Overview 286 -- 3.11.2 Message Flow 287 -- 3.12 Iub Interfrequency Hard Handover FDD 290 -- 3.12.1 Interfrequency Hard Handover Overview 291 -- 3.12.2 FDD Interfrequency Inter-Node B Hard Handover Call Flow 292 -- 3.13 RRC Measurements in Compressed Mode and Typical Call Drop 296 -- 3.13.1 Message Flow 296 -- 3.14 High Speed Downlink Packet Access (HSDPA) 301 -- 3.14.1 HSDPA Cell Setup 302 -- 3.14.2 HSDPA Basic Call 304 -- 3.14.3 Mobility Management and Handover Procedures in HSDPA 310 -- 3.14.4 Troubleshooting HSDPA Calls 318 -- 3.14.5 Proprietary Descriptions of HSDPA Call/Mobility Scenarios 320 -- 3.15 High Speed Uplink Packet Access (HSUPA) 323 -- 3.15.1 HSUPA Cell Setup 324 -- 3.15.2 HSUPA Call Scenarios 325 -- 3.15.3 HSUPA Basic Call 328 -- 3.16 NBAP Measurements 330 -- 3.16.1 NBAP Common Measurements 331 -- 3.16.2 NBAP Dedicated Measurements 334 -- 4 TDD (TD-SCDMA) Iub Signaling Procedures 339 -- 4.1 TD-SCDMA Radio Interface Structure and Radio Resource Allocation 340 -- 4.1.1 TD-SCDMA Mobile Originated Speech Call Setup 343 -- 4.1.2 RRC Measurements in TD-SCDMA Radio Mode 349 -- 4.1.3 Intra-Cell Interfrequency Handover in TD-SCDMA 352 -- 4.1.4 Inter-Cell Interfrequency Handover 353 -- 4.1.5 Multi-Service Call CS/PS with Inter-Node B Handover 356 -- 5 Iu and Iur Signaling Procedures 363.
5.1 Iub-Iu / Location Update 363 -- 5.1.1 Message Flow 364 -- 5.2 Iub-Iu / Mobile-Originated Call 370 -- 5.2.1 Overview 370 -- 5.2.2 Message Flow 372 -- 5.3 Iub-Iu / Mobile-Terminated Call 378 -- 5.3.1 Overview 378 -- 5.3.2 Message Flow 379 -- 5.4 Iub-Iu / Attach 384 -- 5.4.1 Overview 384 -- 5.4.2 Message Flow 385 -- 5.5 Iub-Iu / PDPC Activation/Deactivation 387 -- 5.5.1 Overview 387 -- 5.5.2 Message Flow 388 -- 5.6 Streaming PS Service and Secondary PDP Context 394 -- 5.6.1 Message Flow 395 -- 5.7 Iub-Iu / Detach 398 -- 5.7.1 Overview 398 -- 5.7.2 Message Flow 399 -- 5.8 Iub-Iur / Soft Handover (Inter-Node B, Inter-RNC) 401 -- 5.8.1 Overview 401 -- 5.8.2 Message Flow 402 -- 5.9 Iub-Iu / RRC Re-Establishment (Inter-Node B, Inter-RNC) 412 -- 5.9.1 Overview 412 -- 5.9.2 Message Flow 414 -- 5.10 SRNS Relocation (UE not Involved) 419 -- 5.10.1 Overview 420 -- 5.10.2 Message Flow 421 -- 5.11 SRNS Relocation (UE Involved) 426 -- 5.11.1 Overview 427 -- 5.11.2 Message Flow 429 -- 5.12 Short Message Service (SMS) in UMTS Networks 437 -- 5.12.1 SMS Network Architecture Overview 437 -- 5.12.2 SMS Protocol Architecture 438 -- 5.12.3 Mobile-Originated Short Message 439 -- 5.12.4 Mobile-Terminated Short Message 446 -- 6 Signaling Procedures in the 3G Core Network 453 -- 6.1 ISUP/BICC Call Setup 453 -- 6.1.1 Address Parameters for ISUP/BICC Messages 454 -- 6.1.2 ISUP Call (Successful) 454 -- 6.1.3 ISUP Call (Unsuccessful) 455 -- 6.1.4 BICC Call Setup on E Interface Including IuCS Signaling 458 -- 6.2 Gn Interface Signaling 462 -- 6.2.1 PDF Context Creation on Gn (GTP-C and GTP-U) 464 -- 6.2.2 GTP-C Location Management 465 -- 6.2.3 GTP-C Mobility Management 465 -- 6.2.4 SGSN Relocation 467 -- 6.2.5 Example GTP 467 -- 6.3 Procedures on the Gs Interface 469 -- 6.3.1 Location Update via Gs 469 -- 6.3.2 Detach Indication via Gs 470 -- 6.3.3 Paging via Gs 470 -- 6.4 Signaling on Interfaces Toward HLR 470 -- 6.4.1 Addressing on MAP Interfaces 472 -- 6.4.2 MAP Architecture 473 -- 6.4.3 MAP Signaling Example 475.
6.5 Inter-3G MSC Handover Procedure 477 -- 6.5.1 Inter-3G MSC Handover Overview 480 -- 6.5.2 Inter-3G MSC Handover Call Flow 482 -- 6.6 Inter-3G-2G-3G MSC Handover Procedure 486 -- 6.6.1 Inter-3G-2G MSC Handover/Relocation Overview (Figure 6.42) 489 -- 6.6.2 Inter-3G-2G MSC Handover Call Flow 490 -- 6.6.3 Inter-3G-2G MSC Handover Messages on E Interface 494 -- 6.6.4 Inter-2G-3G MSC Handover/Relocation Overview 495 -- 6.6.5 Inter-2G-3G MSC Subsequent Handover Messages on the E Interface 500 -- 6.6.6 2G-3G CS Inter-RAT Handover on IuCS and Iub Interface 501 -- 6.6.7 PS Inter-RAT Mobility 506 -- 6.7 Customized Application for Mobile Network Enhanced Logic (CAMEL) 509 -- 6.7.1 IN/CAMEL Network Architecture 510 -- 6.7.2 CAMEL Basic Call State Model 511 -- 6.7.3 Charging Operation Using CAMEL 512 -- 6.7.4 CAMEL Signaling Example for GPRS Charging 513 -- 6.8 IP Multimedia Subsystem (IMS) 517 -- 6.8.1 IMS PDP Context Activation Basics 517 -- 6.8.2 IMS UE-UE Call Basics 518 -- Glossary 521 -- Bibliography 537 -- Index 541.
Altri titoli varianti UMTS signalling
Record Nr. UNINA-9910830201503321
Kreher Ralf  
Chichester, West Sussex, England ; , : John Wiley & Sons, , 2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui