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1.

電子ブック

EB
Catherine Mulligan, Magnus Olsson
出版情報: Elsevier ScienceDirect Books , Academic Press, 2012
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目次情報: 続きを見る
Foreword / Dr. Kalyani Bogineni
Preface / Dr. Ulf Nilsson
Acknowledgements
List of Abbreviations
Introduction - Background and Vision of EPC / Part I:
Mobile Broadband and the Core Network Evolution / Chapter 1:
A Global Standard / 1.1:
Origins of the Evolved Packet Core / 1.2:
3GPP Radio Access Technologies / 1.2.1:
3GPP2 Radio Access Technologies / 1.2.2:
SAE - Building Bridges Between Different Networks / 1.2.3:
A Shifting Value Chain / 1.3:
Terminology Used in This Book / 1.4:
Overview of EPS / Part II:
Architecture Overview / Chapter 2:
EPS Architecture / 2.1:
Basic LP Connectivity Over LTE Access / 2.1.1:
Adding More Advanced Functionality for LTE Access / 2.1.2:
Interworking Between LTE and GSM/GPRS or WCDMA/HSPA / 2.1.3:
Support for 3GPP Voice Services / 2.1.4:
Interworking Between LTE and CDMA Networks / 2.1.5:
Interworking Between 3GPP Access Technologies and Non-3GPP Access Technologies / 2.1.6:
Support for Broadcasting in Cellular Networks / 2.1.7:
Positioning Services / 2.1.8:
Optimizations for Small Cells and Local Access / 2.1.9:
Miscellaneous Features / 2.1.10:
Summary of the Architecture Overview / 2.1.11:
Mobile Network Radio Technologies / 2.2:
Overview of Radio Networks for Mobile Services / 2.2.1:
Radio Network Functionality / 2.2.2:
GSM / 2.2.3:
WCDMA / 2.2.4:
LTE / 2.2.5:
EPS Deployment Scenarios and Operator Cases / Chapter 3:
Scenario 1: Existing GSM/GPRS and/or WCDMA/HSPA Operators Deploying LTE/EPC / 3.1:
First Phase - Initial EPC Deployment / 3.1.1:
Second Phase - Integration with Existing Packet Core / 3.1.2:
Third Phase - Further Optimizations Towards the Common Core / 3.1.3:
Scenario 2: Existing CDMA Operators Deploying LTE/EPC / 3.2:
Scenario 3: New Operators Deploying LTE/EPC / 3.3:
Data Services in EPS / Chapter 4:
Messaging Services / 4.1:
Machine Type Communication / 4.2:
Industrial and Corporate Uses / 4.2.1:
Societal - M2M and Sustainable Development / 4.2.2:
Voice Services in EPS / Chapter 5:
Realization of Voice Over LTE / 5.1:
Voice Services Using IMS Technology / 5.2:
Single-Radio Voice Call Continuity (SRVCC) / 5.3:
Circuit-Switched Fallback / 5.4:
Comparing MMTel/SRVCC and CSFB / 5.5:
IMS Emergency Calls and Priority Services / 5.6:
Key Concepts and Services / Part III:
Session Management and Mobility / Chapter 6:
IP Connectivity and Session Management / 6.1:
The LP Connection / 6.1.1:
Session Management, Bearers, and QoS Aspects / 6.2:
General / 6.2.1:
The EPS Bearer for E-UTRAN Access / 6.2.2:
Session Management for EPS and GERAN/UTRAN Accesses / 6.2.3:
Session Management for Other Accesses / 6.2.4:
Subscriber Identifiers and Corresponding Legacy Identities / 6.3:
Permanent Subscriber Identifiers / 6.3.1:
Temporary Subscriber Identifiers / 6.3.2:
Relation to Subscription Identifiers in 2G/3G / 6.3.3:
Mobility Principles / 6.4:
Mobility within 3GPP Family of Accesses / 6.4.1:
Idle-Mode Signaling Reduction (ISR) / 6.4.3:
Closed Subscriber Group / 6.4.4:
Mobility Between E-UTRAN and HRPD / 6.4.5:
Generic Mobility Between 3GPP and Non-3GPP Accesses / 6.4.6:
Access Network Discovery and Selection / 6.4.7:
Interworking with Managed WLAN Networks / 6.5:
Pooling, Overload Protection, and Congestion Control / 6.6:
Security / Chapter 7:
Introduction / 7.1:
Security Services / 7.2:
Security Domains / 7.2.1:
Network Access Security / 7.3:
Access Security in E-UTRAN / 7.3.1:
Interworking with GERAN/UTRAN / 7.3.2:
Special Consideration for IMS Emergency Calls / 7.3.3:
Trusted and Untrusted Non-3GPP Accesses / 7.3.4:
Access Security in Trusted Non-3GPP Accesses / 7.3.5:
Access Security in Untrusted Non-3GPP Access / 7.3.6:
Special Considerations for Host-Based Mobility DSMIPv6 / 7.3.7:
Network Domain Security / 7.4:
User Domain Security / 7.5:
Security Aspects of Home eNBs and Home NBs / 7.6:
H(e)NB Security Architecture / 7.6.1:
Closed Subscriber Groups / 7.6.2:
Device Authentication / 7.6.3:
Hosting Party Authentication / 7.6.4:
Backhaul Link Security / 7.6.5:
Location Verification / 7.6.6:
Lawful Intercept / 7.7:
Quality of Service, Charging, and Policy Control / Chapter 8:
Quality of Service / 8.1:
QoS in E-UTRAN / 8.1.1:
QoS Aspects When Interworking with Other Accesses / 8.1.2:
Policy and Charging Control / 8.2:
The PCC Architecture / 8.2.1:
Basic PCC Concepts / 8.2.2:
Network vs. Terminal-Initiated QoS Control / 8.2.3:
PCC and Roaming / 8.2.4:
Additional PCC Features Developed Since Release 8 / 8.2.5:
PCC Support for Fixed Broadband Access / 8.2.6:
Charging / 8.3:
Selection Functions / Chapter 9:
Architecture Overview for Selection Functions / 9.1:
Selection of MME, SGSN, Serving GW, and PDN GW / 9.2:
Selection Procedure at a Glance / 9.2.1:
Use of DNS Infrastructure / 9.2.2:
MME Selection / 9.2.3:
SGSN Selection Function for EPS / 9.2.4:
GW Selection Overview / 9.2.5:
PDN GW Selection Function / 9.2.6:
Serving GW Selection Function / 9.2.7:
Handover (Non-3GPP Access) and PDN GW Selection / 9.2.8:
PCRF Selection / 9.3:
Subscriber Data Management. / Chapter 10:
Home Subscriber Server (HSS) / 10.1:
Subscriber Profile Repository (SPR) / 10.2:
User Data Convergence (UDC) / 10.3:
UDC Overall Description / 10.3.1:
Front-Ends and User Data Repository / 10.3.2:
Voice and Emergency Services / Chapter 11:
Voice Services Based on Circuit-Switched Technology / 11.1:
Voice Services with IMS Technology / 11.2:
MMTel / 11.3:
MMTel Architecture / 11.3.1:
VoLTE / 11.4:
T-ADS / 11.5:
Ensuring Service Coverage / 11.5.1:
Single Radio Voice Call Continuity (SRVCC) / 11.6:
Entities with Additional Functions to Support SRVCC / 11.6.1:
IMS Centralized Services (ICS) / 11.7:
Service Centralization and Continuity Application Server (SCC-AS) / 11.7.1:
SRVCC from E-UTRAN to GERAN or UTRAN / 11.7.2:
SRVCC from E-UTRAN to CDMA 1×RTT / 11.8:
Migration Paths and Coexistence of Circuit-Switched and VoLTE / 11.9:
EPS Emergency Bearer Service for IMS Emergency / 11.11:
Multimedia Priority Service (MPS) / 11.12:
LTE Broadcasting / Chapter 12:
Background and Main Concepts / 12.1:
MBMS Solution Overview / 12.2:
MBMS User Services / 12.3:
Associated Delivery Procedures / 12.3.1:
Mobile Network Architecture for MBMS / 12.4:
Interfaces / 12.4.1:
MBMS Bearer Services / 12.5:
Session Start / 12.5.1:
Session Stop / 12.5.2:
Session Update / 12.5.3:
Positioning / Chapter 13:
Positioning Solutions / 13.1:
Positioning Architecture and Protocols / 13.2:
Positioning Methods / 13.3:
Position-Reporting Formats / 13.4:
EPS Positioning Entities and Interfaces / 13.5:
GMLC / 13.5.1:
E-SMLC / 13.5.2:
SLP / 13.5.3:
Le Interface / 13.5.4:
SLg Interface / 13.5.5:
SLs Interface / 13.5.6:
LTE Positioning Protocol (LPP) / 13.5.7:
LTE Positioning Protocol Annex (LPPa) / 13.5.8:
Positioning Procedure / 13.6:
Offload Functions and Simultaneous Multi-Access / Chapter 14:
Offloading the 3GPP RAN - Simultaneous Multi-Access / 14.1:
Multi-Access PDN Connectivity (MAPCON) / 14.2.1:
LP Flow Mobility (LFOM) / 14.2.2:
Non-Seamless WLAN Offloading (NSWO) / 14.2.3:
Offloading the Core and Transport Network - Selected IP Traffic Offload (SLPTO) / 14.3:
Access to Local Networks - Local LP Access (LLPA) / 14.4:
The Nuts and Bolts of EPC / Part IV:
EPS Network Entities and Interfaces / Chapter 15:
Network Entities / 15.1:
eNodeB / 15.1.1:
Mobility Management Entity / 15.1.2:
Serving GW / 15.1.3:
PDN GW / 15.1.4:
Policy and Charging Rules Function / 15.1.5:
Home eNodeB Subsystem and Related Entities / 15.1.6:
Control Plane Between UE, eNodeB, and MME / 15.2:
S1-MME / 15.2.1:
GTP-Based Interfaces / 15.3:
Control Plane / 15.3.1:
MME↔MME(SIO) / 15.3.2:
MME↔Serving GW(S 11) / 15.3.3:
Serving GW↔PDN GW (S5/S8) / 15.3.4:
SGSN↔MME (S3) / 15.3.5:
SGSN↔Serving GW (S4) / 15.3.6:
SGSN↔SGSN (S16) / 15.3.7:
Trusted WLAN Access Network ↔ PDN GW (S2a) / 15.3.8:
ePDG PDN GW (S2b) / 15.3.9:
User Plane / 15.3.10:
eNodeB Serving GW (S1-U) / 15.3.11:
UE ↔ eNodeB Serving GW PDN GW (GTP-TJ) / 15.3.12:
UE ↔ BSS ↔ SGSN ↔ Serving GW ↔ PDN GW (GTP-U) / 15.3.13:
UE ↔ UTRAN ↔ Serving GW ↔ PDN GW (GTP-U) / 15.3.14:
UE ↔ UTRAN ↔ SGSN Serving GW ↔ PDN GW (GTP-U) / 15.3.15:
UE ↔ Trusted WLAN Access Network ↔ PDN GW (GTP-U) / 15.3.16:
UE ↔ ePDG ↔ PDN GW (GTP-U) / 15.3.17:
PMLP-Based Interfaces / 15.4:
Serving GW-PDN GW (S5/S8) / 15.4.1:
Trusted Non-3GPP IP Access-PDN GW (S2a) / 15.4.2:
ePDG-PDN GW (S2b) / 15.4.3:
DSMLPv6-Based Interfaces / 15.5:
UE-PDN GW (S2c) / 15.5.1:
HSS-Related Interfaces and Protocols / 15.6:
MME-HSS (S6a) and SGSN-HSS (S6d) / 15.6.1:
AAA-Related Interfaces / 15.7:
AAA Server-HSS (SWx) / 15.7.1:
Trusted Non-3GPP Access-3GPP AAA Server/Proxy (STa) / 15.7.3:
Untrusted Non-3GPP BP Access-3GPP AAA Server/Proxy (SWa) / 15.7.4:
ePDG-3GPP AAA Server/Proxy (SWm) / 15.7.5:
PDN GW-3GPP AAA Server/Proxy (S6b) / 15.7.6:
3GPP AAA Proxy-3GPP AAA Server/Proxy (SWd) / 15.7.7:
PCC-Related Interfaces / 15.8:
PCEF-PCRF (Gx) / 15.8.1:
BBERF-PCRF (Gxa/Gxc) / 15.8.3:
PCRF-AE (Rx) / 15.8.4:
TDF-PCRF (Sd) / 15.8.5:
OCS-PCRF (Sy) / 15.8.6:
PCRF-PCRF (S9) / 15.8.7:
BPCF-PCRF (S9a) / 15.8.8:
SPR-PCRF(Sp) / 15.8.9:
EIR-Related Interfaces / 15.9:
MME-EIR and SGSN-EIR Interfaces (S13 and S13') / 15.9.1:
I-WLAN-Related Interfaces / 15.10:
UE-ePDG (SWu) / 15.10.1:
ANDSF-Related Interfaces / 15.11:
ISMP Policy Node / 15.11.1:
Discovery Information Node / 15.11.2:
UE Location Node / 15.11.3:
ISRP Node / 15.11.4:
Ext Node / 15.11.5:
HRPD IW-Related Interfaces / 15.12:
Optimized Handover and Related Interfaces (S101 and S103) / 15.12.1:
MME ↔ eHRPD Access Network (S101) / 15.12.2:
Serving GW ↔ HSGW (S103) / 15.12.3:
Interface to External Networks / 15.13:
Functions / 15.13.1:
CSS Interface / 15.14:
MME-CSS Interface (S7a) / 15.14.1:
Protocols / Chapter 16:
GPRS Tunneling Protocol Overview / 16.1:
Protocol Structure / 16.2.1:
Control Plane (GTPv2-C) / 16.2.2:
User Plane (GTPv1-U) / 16.2.3:
Protocol Format / 16.2.4:
Mobile IP / 16.3:
Host-Based and Network-Based Mobility Mechanisms / 16.3.1:
Basic Principles of Mobile IP / 16.3.3:
Mobile IPv6 Security / 16.3.4:
Packet Format / 16.3.5:
Dual-Stack Operation / 16.3.6:
Additional MLPv6 Features - Route Optimization / 16.3.7:
Proxy Mobile IPv6 / 16.4:
Basic Principles / 16.4.1:
PMLPv6 Security / 16.4.3:
PMLPv6 Packet Format / 16.4.4:
Diameter / 16.4.5:
Background / 16.5.1:
Diameter Nodes / 16.5.2:
Diameter Sessions, Connections, and Transport / 16.5.4:
Diameter Request Routing / 16.5.5:
Peer Discovery / 16.5.6:
Diameter Message Format / 16.5.7:
Generic Routing Encapsulation / 16.6:
Basic Protocol Aspects / 16.6.1:
GRE Packet Format / 16.6.3:
S1-AP / 16.7:
Non-Access Stratum (NAS) / 16.8:
EPS Mobility Management / 16.8.1:
EPS Session Management / 16.8.2:
Message Structure / 16.8.3:
Security-Protected NAS Messages / 16.8.4:
Message Transport / 16.8.5:
Future Extensions and Backward Compatibility / 16.8.6:
IP Security / 16.9:
Encapsulated Security Payload and Authentication Header / 16.9.1:
Internet Key Exchange / 16.9.3:
IKEv2 Mobility and Multi-Homing / 16.9.4:
Extensible Authentication Protocol / 16.10:
Overview / 16.10.1:
Protocol / 16.10.2:
Stream Control Transmission Protocol / 16.11:
Basic Protocol Features / 16.11.1:
Multi-Steaming / 16.11.3:
Multi-Homing / 16.11.4:
Packet Structure / 16.11.5:
Procedures / Chapter 17:
Attachment and Detachment for E-UTRAN / 17.1:
Attachment Procedure for E-UTRAN / 17.1.1:
Detachment Procedure for E-UTRAN / 17.1.2:
Tracking Area Update for E-UTRAN / 17.2:
Tracking Area Update Procedure / 17.2.1:
TA Update with MME Change / 17.2.2:
Service Request for E-UTRAN / 17.3:
UE Triggered Service Request / 17.3.1:
Network Triggered Service Request / 17.3.2:
Intra- and Inter-3GPP Access Handover / 17.4:
Phases of the Handover Procedures / 17.4.1:
Handover Cases in EPS for 3GPP Accesses / 17.4.2:
Handover within E-UTRAN Access / 17.4.3:
Handover between E-UTRAN and Other 3GPP Accesses (GERAN, UTRAN) with S4-SGSN / 17.4.4:
Handover for Gn/Gp-Based SGSN / 17.4.5:
Handover between GERAN and UTRAN Access Using S4 SGSN and GTP/PMTP Protocol / 17.4.6:
Bearer and QoS-Related Procedures / 17.5:
Bearer Procedures for E-UTRAN / 17.5.1:
Bearer Procedures for GERAN/UTRAN / 17.5.2:
Attachment and Detachment for Non-3GPP Accesses / 17.6:
Attachment Procedure in Trusted WLAN Access Network (TWAN) Using GTPv2 on S2a / 17.6.1:
Detachment Procedure in Trusted WLAN Access Network (TWAN) Using GTPv2 on S2a / 17.6.2:
Attachment Procedure in Untrusted Non-3GPP Access Using PMJPv6 (S2b) / 17.6.3:
Detachment Procedure in Untrusted Non-3GPP Access Using PMIPv6 (S2b) / 17.6.4:
Attachment Procedure in Trusted Non-3GPP Access Using DSMTPv6 (S2c) / 17.6.5:
Detachment Procedure in Trusted Non-3GPP Access Using DSMJPv6 (S2c) / 17.6.6:
Intersystem Handover Between 3GPP and Non-3GPP Accesses / 17.7:
Details of Handover in EPS with Non-3GPP Accesses / 17.7.1:
QoS-Related Procedures in Non-3GPP Accesses / 17.8:
Conclusion and Future of EPS / Part V:
Conclusions and Looking Ahead / Chapter 18:
Standards Bodies Associated with EPS / Appendix A:
References
Index
Foreword / Dr. Kalyani Bogineni
Preface / Dr. Ulf Nilsson
Acknowledgements
2.

電子ブック

EB
Catherine Mulligan, Magnus Olsson
出版情報: Elsevier ScienceDirect Books , Academic Press, 2012
所蔵情報: loading…
目次情報: 続きを見る
Foreword / Dr. Kalyani Bogineni
Preface / Dr. Ulf Nilsson
Acknowledgements
List of Abbreviations
Introduction - Background and Vision of EPC / Part I:
Mobile Broadband and the Core Network Evolution / Chapter 1:
A Global Standard / 1.1:
Origins of the Evolved Packet Core / 1.2:
3GPP Radio Access Technologies / 1.2.1:
3GPP2 Radio Access Technologies / 1.2.2:
SAE - Building Bridges Between Different Networks / 1.2.3:
A Shifting Value Chain / 1.3:
Terminology Used in This Book / 1.4:
Overview of EPS / Part II:
Architecture Overview / Chapter 2:
EPS Architecture / 2.1:
Basic LP Connectivity Over LTE Access / 2.1.1:
Adding More Advanced Functionality for LTE Access / 2.1.2:
Interworking Between LTE and GSM/GPRS or WCDMA/HSPA / 2.1.3:
Support for 3GPP Voice Services / 2.1.4:
Interworking Between LTE and CDMA Networks / 2.1.5:
Interworking Between 3GPP Access Technologies and Non-3GPP Access Technologies / 2.1.6:
Support for Broadcasting in Cellular Networks / 2.1.7:
Positioning Services / 2.1.8:
Optimizations for Small Cells and Local Access / 2.1.9:
Miscellaneous Features / 2.1.10:
Summary of the Architecture Overview / 2.1.11:
Mobile Network Radio Technologies / 2.2:
Overview of Radio Networks for Mobile Services / 2.2.1:
Radio Network Functionality / 2.2.2:
GSM / 2.2.3:
WCDMA / 2.2.4:
LTE / 2.2.5:
EPS Deployment Scenarios and Operator Cases / Chapter 3:
Scenario 1: Existing GSM/GPRS and/or WCDMA/HSPA Operators Deploying LTE/EPC / 3.1:
First Phase - Initial EPC Deployment / 3.1.1:
Second Phase - Integration with Existing Packet Core / 3.1.2:
Third Phase - Further Optimizations Towards the Common Core / 3.1.3:
Scenario 2: Existing CDMA Operators Deploying LTE/EPC / 3.2:
Scenario 3: New Operators Deploying LTE/EPC / 3.3:
Data Services in EPS / Chapter 4:
Messaging Services / 4.1:
Machine Type Communication / 4.2:
Industrial and Corporate Uses / 4.2.1:
Societal - M2M and Sustainable Development / 4.2.2:
Voice Services in EPS / Chapter 5:
Realization of Voice Over LTE / 5.1:
Voice Services Using IMS Technology / 5.2:
Single-Radio Voice Call Continuity (SRVCC) / 5.3:
Circuit-Switched Fallback / 5.4:
Comparing MMTel/SRVCC and CSFB / 5.5:
IMS Emergency Calls and Priority Services / 5.6:
Key Concepts and Services / Part III:
Session Management and Mobility / Chapter 6:
IP Connectivity and Session Management / 6.1:
The LP Connection / 6.1.1:
Session Management, Bearers, and QoS Aspects / 6.2:
General / 6.2.1:
The EPS Bearer for E-UTRAN Access / 6.2.2:
Session Management for EPS and GERAN/UTRAN Accesses / 6.2.3:
Session Management for Other Accesses / 6.2.4:
Subscriber Identifiers and Corresponding Legacy Identities / 6.3:
Permanent Subscriber Identifiers / 6.3.1:
Temporary Subscriber Identifiers / 6.3.2:
Relation to Subscription Identifiers in 2G/3G / 6.3.3:
Mobility Principles / 6.4:
Mobility within 3GPP Family of Accesses / 6.4.1:
Idle-Mode Signaling Reduction (ISR) / 6.4.3:
Closed Subscriber Group / 6.4.4:
Mobility Between E-UTRAN and HRPD / 6.4.5:
Generic Mobility Between 3GPP and Non-3GPP Accesses / 6.4.6:
Access Network Discovery and Selection / 6.4.7:
Interworking with Managed WLAN Networks / 6.5:
Pooling, Overload Protection, and Congestion Control / 6.6:
Security / Chapter 7:
Introduction / 7.1:
Security Services / 7.2:
Security Domains / 7.2.1:
Network Access Security / 7.3:
Access Security in E-UTRAN / 7.3.1:
Interworking with GERAN/UTRAN / 7.3.2:
Special Consideration for IMS Emergency Calls / 7.3.3:
Trusted and Untrusted Non-3GPP Accesses / 7.3.4:
Access Security in Trusted Non-3GPP Accesses / 7.3.5:
Access Security in Untrusted Non-3GPP Access / 7.3.6:
Special Considerations for Host-Based Mobility DSMIPv6 / 7.3.7:
Network Domain Security / 7.4:
User Domain Security / 7.5:
Security Aspects of Home eNBs and Home NBs / 7.6:
H(e)NB Security Architecture / 7.6.1:
Closed Subscriber Groups / 7.6.2:
Device Authentication / 7.6.3:
Hosting Party Authentication / 7.6.4:
Backhaul Link Security / 7.6.5:
Location Verification / 7.6.6:
Lawful Intercept / 7.7:
Quality of Service, Charging, and Policy Control / Chapter 8:
Quality of Service / 8.1:
QoS in E-UTRAN / 8.1.1:
QoS Aspects When Interworking with Other Accesses / 8.1.2:
Policy and Charging Control / 8.2:
The PCC Architecture / 8.2.1:
Basic PCC Concepts / 8.2.2:
Network vs. Terminal-Initiated QoS Control / 8.2.3:
PCC and Roaming / 8.2.4:
Additional PCC Features Developed Since Release 8 / 8.2.5:
PCC Support for Fixed Broadband Access / 8.2.6:
Charging / 8.3:
Selection Functions / Chapter 9:
Architecture Overview for Selection Functions / 9.1:
Selection of MME, SGSN, Serving GW, and PDN GW / 9.2:
Selection Procedure at a Glance / 9.2.1:
Use of DNS Infrastructure / 9.2.2:
MME Selection / 9.2.3:
SGSN Selection Function for EPS / 9.2.4:
GW Selection Overview / 9.2.5:
PDN GW Selection Function / 9.2.6:
Serving GW Selection Function / 9.2.7:
Handover (Non-3GPP Access) and PDN GW Selection / 9.2.8:
PCRF Selection / 9.3:
Subscriber Data Management. / Chapter 10:
Home Subscriber Server (HSS) / 10.1:
Subscriber Profile Repository (SPR) / 10.2:
User Data Convergence (UDC) / 10.3:
UDC Overall Description / 10.3.1:
Front-Ends and User Data Repository / 10.3.2:
Voice and Emergency Services / Chapter 11:
Voice Services Based on Circuit-Switched Technology / 11.1:
Voice Services with IMS Technology / 11.2:
MMTel / 11.3:
MMTel Architecture / 11.3.1:
VoLTE / 11.4:
T-ADS / 11.5:
Ensuring Service Coverage / 11.5.1:
Single Radio Voice Call Continuity (SRVCC) / 11.6:
Entities with Additional Functions to Support SRVCC / 11.6.1:
IMS Centralized Services (ICS) / 11.7:
Service Centralization and Continuity Application Server (SCC-AS) / 11.7.1:
SRVCC from E-UTRAN to GERAN or UTRAN / 11.7.2:
SRVCC from E-UTRAN to CDMA 1×RTT / 11.8:
Migration Paths and Coexistence of Circuit-Switched and VoLTE / 11.9:
EPS Emergency Bearer Service for IMS Emergency / 11.11:
Multimedia Priority Service (MPS) / 11.12:
LTE Broadcasting / Chapter 12:
Background and Main Concepts / 12.1:
MBMS Solution Overview / 12.2:
MBMS User Services / 12.3:
Associated Delivery Procedures / 12.3.1:
Mobile Network Architecture for MBMS / 12.4:
Interfaces / 12.4.1:
MBMS Bearer Services / 12.5:
Session Start / 12.5.1:
Session Stop / 12.5.2:
Session Update / 12.5.3:
Positioning / Chapter 13:
Positioning Solutions / 13.1:
Positioning Architecture and Protocols / 13.2:
Positioning Methods / 13.3:
Position-Reporting Formats / 13.4:
EPS Positioning Entities and Interfaces / 13.5:
GMLC / 13.5.1:
E-SMLC / 13.5.2:
SLP / 13.5.3:
Le Interface / 13.5.4:
SLg Interface / 13.5.5:
SLs Interface / 13.5.6:
LTE Positioning Protocol (LPP) / 13.5.7:
LTE Positioning Protocol Annex (LPPa) / 13.5.8:
Positioning Procedure / 13.6:
Offload Functions and Simultaneous Multi-Access / Chapter 14:
Offloading the 3GPP RAN - Simultaneous Multi-Access / 14.1:
Multi-Access PDN Connectivity (MAPCON) / 14.2.1:
LP Flow Mobility (LFOM) / 14.2.2:
Non-Seamless WLAN Offloading (NSWO) / 14.2.3:
Offloading the Core and Transport Network - Selected IP Traffic Offload (SLPTO) / 14.3:
Access to Local Networks - Local LP Access (LLPA) / 14.4:
The Nuts and Bolts of EPC / Part IV:
EPS Network Entities and Interfaces / Chapter 15:
Network Entities / 15.1:
eNodeB / 15.1.1:
Mobility Management Entity / 15.1.2:
Serving GW / 15.1.3:
PDN GW / 15.1.4:
Policy and Charging Rules Function / 15.1.5:
Home eNodeB Subsystem and Related Entities / 15.1.6:
Control Plane Between UE, eNodeB, and MME / 15.2:
S1-MME / 15.2.1:
GTP-Based Interfaces / 15.3:
Control Plane / 15.3.1:
MME↔MME(SIO) / 15.3.2:
MME↔Serving GW(S 11) / 15.3.3:
Serving GW↔PDN GW (S5/S8) / 15.3.4:
SGSN↔MME (S3) / 15.3.5:
SGSN↔Serving GW (S4) / 15.3.6:
SGSN↔SGSN (S16) / 15.3.7:
Trusted WLAN Access Network ↔ PDN GW (S2a) / 15.3.8:
ePDG PDN GW (S2b) / 15.3.9:
User Plane / 15.3.10:
eNodeB Serving GW (S1-U) / 15.3.11:
UE ↔ eNodeB Serving GW PDN GW (GTP-TJ) / 15.3.12:
UE ↔ BSS ↔ SGSN ↔ Serving GW ↔ PDN GW (GTP-U) / 15.3.13:
UE ↔ UTRAN ↔ Serving GW ↔ PDN GW (GTP-U) / 15.3.14:
UE ↔ UTRAN ↔ SGSN Serving GW ↔ PDN GW (GTP-U) / 15.3.15:
UE ↔ Trusted WLAN Access Network ↔ PDN GW (GTP-U) / 15.3.16:
UE ↔ ePDG ↔ PDN GW (GTP-U) / 15.3.17:
PMLP-Based Interfaces / 15.4:
Serving GW-PDN GW (S5/S8) / 15.4.1:
Trusted Non-3GPP IP Access-PDN GW (S2a) / 15.4.2:
ePDG-PDN GW (S2b) / 15.4.3:
DSMLPv6-Based Interfaces / 15.5:
UE-PDN GW (S2c) / 15.5.1:
HSS-Related Interfaces and Protocols / 15.6:
MME-HSS (S6a) and SGSN-HSS (S6d) / 15.6.1:
AAA-Related Interfaces / 15.7:
AAA Server-HSS (SWx) / 15.7.1:
Trusted Non-3GPP Access-3GPP AAA Server/Proxy (STa) / 15.7.3:
Untrusted Non-3GPP BP Access-3GPP AAA Server/Proxy (SWa) / 15.7.4:
ePDG-3GPP AAA Server/Proxy (SWm) / 15.7.5:
PDN GW-3GPP AAA Server/Proxy (S6b) / 15.7.6:
3GPP AAA Proxy-3GPP AAA Server/Proxy (SWd) / 15.7.7:
PCC-Related Interfaces / 15.8:
PCEF-PCRF (Gx) / 15.8.1:
BBERF-PCRF (Gxa/Gxc) / 15.8.3:
PCRF-AE (Rx) / 15.8.4:
TDF-PCRF (Sd) / 15.8.5:
OCS-PCRF (Sy) / 15.8.6:
PCRF-PCRF (S9) / 15.8.7:
BPCF-PCRF (S9a) / 15.8.8:
SPR-PCRF(Sp) / 15.8.9:
EIR-Related Interfaces / 15.9:
MME-EIR and SGSN-EIR Interfaces (S13 and S13') / 15.9.1:
I-WLAN-Related Interfaces / 15.10:
UE-ePDG (SWu) / 15.10.1:
ANDSF-Related Interfaces / 15.11:
ISMP Policy Node / 15.11.1:
Discovery Information Node / 15.11.2:
UE Location Node / 15.11.3:
ISRP Node / 15.11.4:
Ext Node / 15.11.5:
HRPD IW-Related Interfaces / 15.12:
Optimized Handover and Related Interfaces (S101 and S103) / 15.12.1:
MME ↔ eHRPD Access Network (S101) / 15.12.2:
Serving GW ↔ HSGW (S103) / 15.12.3:
Interface to External Networks / 15.13:
Functions / 15.13.1:
CSS Interface / 15.14:
MME-CSS Interface (S7a) / 15.14.1:
Protocols / Chapter 16:
GPRS Tunneling Protocol Overview / 16.1:
Protocol Structure / 16.2.1:
Control Plane (GTPv2-C) / 16.2.2:
User Plane (GTPv1-U) / 16.2.3:
Protocol Format / 16.2.4:
Mobile IP / 16.3:
Host-Based and Network-Based Mobility Mechanisms / 16.3.1:
Basic Principles of Mobile IP / 16.3.3:
Mobile IPv6 Security / 16.3.4:
Packet Format / 16.3.5:
Dual-Stack Operation / 16.3.6:
Additional MLPv6 Features - Route Optimization / 16.3.7:
Proxy Mobile IPv6 / 16.4:
Basic Principles / 16.4.1:
PMLPv6 Security / 16.4.3:
PMLPv6 Packet Format / 16.4.4:
Diameter / 16.4.5:
Background / 16.5.1:
Diameter Nodes / 16.5.2:
Diameter Sessions, Connections, and Transport / 16.5.4:
Diameter Request Routing / 16.5.5:
Peer Discovery / 16.5.6:
Diameter Message Format / 16.5.7:
Generic Routing Encapsulation / 16.6:
Basic Protocol Aspects / 16.6.1:
GRE Packet Format / 16.6.3:
S1-AP / 16.7:
Non-Access Stratum (NAS) / 16.8:
EPS Mobility Management / 16.8.1:
EPS Session Management / 16.8.2:
Message Structure / 16.8.3:
Security-Protected NAS Messages / 16.8.4:
Message Transport / 16.8.5:
Future Extensions and Backward Compatibility / 16.8.6:
IP Security / 16.9:
Encapsulated Security Payload and Authentication Header / 16.9.1:
Internet Key Exchange / 16.9.3:
IKEv2 Mobility and Multi-Homing / 16.9.4:
Extensible Authentication Protocol / 16.10:
Overview / 16.10.1:
Protocol / 16.10.2:
Stream Control Transmission Protocol / 16.11:
Basic Protocol Features / 16.11.1:
Multi-Steaming / 16.11.3:
Multi-Homing / 16.11.4:
Packet Structure / 16.11.5:
Procedures / Chapter 17:
Attachment and Detachment for E-UTRAN / 17.1:
Attachment Procedure for E-UTRAN / 17.1.1:
Detachment Procedure for E-UTRAN / 17.1.2:
Tracking Area Update for E-UTRAN / 17.2:
Tracking Area Update Procedure / 17.2.1:
TA Update with MME Change / 17.2.2:
Service Request for E-UTRAN / 17.3:
UE Triggered Service Request / 17.3.1:
Network Triggered Service Request / 17.3.2:
Intra- and Inter-3GPP Access Handover / 17.4:
Phases of the Handover Procedures / 17.4.1:
Handover Cases in EPS for 3GPP Accesses / 17.4.2:
Handover within E-UTRAN Access / 17.4.3:
Handover between E-UTRAN and Other 3GPP Accesses (GERAN, UTRAN) with S4-SGSN / 17.4.4:
Handover for Gn/Gp-Based SGSN / 17.4.5:
Handover between GERAN and UTRAN Access Using S4 SGSN and GTP/PMTP Protocol / 17.4.6:
Bearer and QoS-Related Procedures / 17.5:
Bearer Procedures for E-UTRAN / 17.5.1:
Bearer Procedures for GERAN/UTRAN / 17.5.2:
Attachment and Detachment for Non-3GPP Accesses / 17.6:
Attachment Procedure in Trusted WLAN Access Network (TWAN) Using GTPv2 on S2a / 17.6.1:
Detachment Procedure in Trusted WLAN Access Network (TWAN) Using GTPv2 on S2a / 17.6.2:
Attachment Procedure in Untrusted Non-3GPP Access Using PMJPv6 (S2b) / 17.6.3:
Detachment Procedure in Untrusted Non-3GPP Access Using PMIPv6 (S2b) / 17.6.4:
Attachment Procedure in Trusted Non-3GPP Access Using DSMTPv6 (S2c) / 17.6.5:
Detachment Procedure in Trusted Non-3GPP Access Using DSMJPv6 (S2c) / 17.6.6:
Intersystem Handover Between 3GPP and Non-3GPP Accesses / 17.7:
Details of Handover in EPS with Non-3GPP Accesses / 17.7.1:
QoS-Related Procedures in Non-3GPP Accesses / 17.8:
Conclusion and Future of EPS / Part V:
Conclusions and Looking Ahead / Chapter 18:
Standards Bodies Associated with EPS / Appendix A:
References
Index
Foreword / Dr. Kalyani Bogineni
Preface / Dr. Ulf Nilsson
Acknowledgements
3.

電子ブック

EB
Magnus Olsson, Catherine Mulligan, Magnus Olsson
出版情報: Elsevier ScienceDirect Books Complete , Academic Press, 2013
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Foreword / Dr. Kalyani Bogineni
Preface / Dr. Ulf Nilsson
Acknowledgements
List of Abbreviations
Introduction - Background and Vision of EPC / Part I:
Mobile Broadband and the Core Network Evolution / Chapter 1:
A Global Standard / 1.1:
Origins of the Evolved Packet Core / 1.2:
3GPP Radio Access Technologies / 1.2.1:
3GPP2 Radio Access Technologies / 1.2.2:
SAE - Building Bridges Between Different Networks / 1.2.3:
A Shifting Value Chain / 1.3:
Terminology Used in This Book / 1.4:
Overview of EPS / Part II:
Architecture Overview / Chapter 2:
EPS Architecture / 2.1:
Basic LP Connectivity Over LTE Access / 2.1.1:
Adding More Advanced Functionality for LTE Access / 2.1.2:
Interworking Between LTE and GSM/GPRS or WCDMA/HSPA / 2.1.3:
Support for 3GPP Voice Services / 2.1.4:
Interworking Between LTE and CDMA Networks / 2.1.5:
Interworking Between 3GPP Access Technologies and Non-3GPP Access Technologies / 2.1.6:
Support for Broadcasting in Cellular Networks / 2.1.7:
Positioning Services / 2.1.8:
Optimizations for Small Cells and Local Access / 2.1.9:
Miscellaneous Features / 2.1.10:
Summary of the Architecture Overview / 2.1.11:
Mobile Network Radio Technologies / 2.2:
Overview of Radio Networks for Mobile Services / 2.2.1:
Radio Network Functionality / 2.2.2:
GSM / 2.2.3:
WCDMA / 2.2.4:
LTE / 2.2.5:
EPS Deployment Scenarios and Operator Cases / Chapter 3:
Scenario 1: Existing GSM/GPRS and/or WCDMA/HSPA Operators Deploying LTE/EPC / 3.1:
First Phase - Initial EPC Deployment / 3.1.1:
Second Phase - Integration with Existing Packet Core / 3.1.2:
Third Phase - Further Optimizations Towards the Common Core / 3.1.3:
Scenario 2: Existing CDMA Operators Deploying LTE/EPC / 3.2:
Scenario 3: New Operators Deploying LTE/EPC / 3.3:
Data Services in EPS / Chapter 4:
Messaging Services / 4.1:
Machine Type Communication / 4.2:
Industrial and Corporate Uses / 4.2.1:
Societal - M2M and Sustainable Development / 4.2.2:
Voice Services in EPS / Chapter 5:
Realization of Voice Over LTE / 5.1:
Voice Services Using IMS Technology / 5.2:
Single-Radio Voice Call Continuity (SRVCC) / 5.3:
Circuit-Switched Fallback / 5.4:
Comparing MMTel/SRVCC and CSFB / 5.5:
IMS Emergency Calls and Priority Services / 5.6:
Key Concepts and Services / Part III:
Session Management and Mobility / Chapter 6:
IP Connectivity and Session Management / 6.1:
The LP Connection / 6.1.1:
Session Management, Bearers, and QoS Aspects / 6.2:
General / 6.2.1:
The EPS Bearer for E-UTRAN Access / 6.2.2:
Session Management for EPS and GERAN/UTRAN Accesses / 6.2.3:
Session Management for Other Accesses / 6.2.4:
Subscriber Identifiers and Corresponding Legacy Identities / 6.3:
Permanent Subscriber Identifiers / 6.3.1:
Temporary Subscriber Identifiers / 6.3.2:
Relation to Subscription Identifiers in 2G/3G / 6.3.3:
Mobility Principles / 6.4:
Mobility within 3GPP Family of Accesses / 6.4.1:
Idle-Mode Signaling Reduction (ISR) / 6.4.3:
Closed Subscriber Group / 6.4.4:
Mobility Between E-UTRAN and HRPD / 6.4.5:
Generic Mobility Between 3GPP and Non-3GPP Accesses / 6.4.6:
Access Network Discovery and Selection / 6.4.7:
Interworking with Managed WLAN Networks / 6.5:
Pooling, Overload Protection, and Congestion Control / 6.6:
Security / Chapter 7:
Introduction / 7.1:
Security Services / 7.2:
Security Domains / 7.2.1:
Network Access Security / 7.3:
Access Security in E-UTRAN / 7.3.1:
Interworking with GERAN/UTRAN / 7.3.2:
Special Consideration for IMS Emergency Calls / 7.3.3:
Trusted and Untrusted Non-3GPP Accesses / 7.3.4:
Access Security in Trusted Non-3GPP Accesses / 7.3.5:
Access Security in Untrusted Non-3GPP Access / 7.3.6:
Special Considerations for Host-Based Mobility DSMIPv6 / 7.3.7:
Network Domain Security / 7.4:
User Domain Security / 7.5:
Security Aspects of Home eNBs and Home NBs / 7.6:
H(e)NB Security Architecture / 7.6.1:
Closed Subscriber Groups / 7.6.2:
Device Authentication / 7.6.3:
Hosting Party Authentication / 7.6.4:
Backhaul Link Security / 7.6.5:
Location Verification / 7.6.6:
Lawful Intercept / 7.7:
Quality of Service, Charging, and Policy Control / Chapter 8:
Quality of Service / 8.1:
QoS in E-UTRAN / 8.1.1:
QoS Aspects When Interworking with Other Accesses / 8.1.2:
Policy and Charging Control / 8.2:
The PCC Architecture / 8.2.1:
Basic PCC Concepts / 8.2.2:
Network vs. Terminal-Initiated QoS Control / 8.2.3:
PCC and Roaming / 8.2.4:
Additional PCC Features Developed Since Release 8 / 8.2.5:
PCC Support for Fixed Broadband Access / 8.2.6:
Charging / 8.3:
Selection Functions / Chapter 9:
Architecture Overview for Selection Functions / 9.1:
Selection of MME, SGSN, Serving GW, and PDN GW / 9.2:
Selection Procedure at a Glance / 9.2.1:
Use of DNS Infrastructure / 9.2.2:
MME Selection / 9.2.3:
SGSN Selection Function for EPS / 9.2.4:
GW Selection Overview / 9.2.5:
PDN GW Selection Function / 9.2.6:
Serving GW Selection Function / 9.2.7:
Handover (Non-3GPP Access) and PDN GW Selection / 9.2.8:
PCRF Selection / 9.3:
Subscriber Data Management. / Chapter 10:
Home Subscriber Server (HSS) / 10.1:
Subscriber Profile Repository (SPR) / 10.2:
User Data Convergence (UDC) / 10.3:
UDC Overall Description / 10.3.1:
Front-Ends and User Data Repository / 10.3.2:
Voice and Emergency Services / Chapter 11:
Voice Services Based on Circuit-Switched Technology / 11.1:
Voice Services with IMS Technology / 11.2:
MMTel / 11.3:
MMTel Architecture / 11.3.1:
VoLTE / 11.4:
T-ADS / 11.5:
Ensuring Service Coverage / 11.5.1:
Single Radio Voice Call Continuity (SRVCC) / 11.6:
Entities with Additional Functions to Support SRVCC / 11.6.1:
IMS Centralized Services (ICS) / 11.7:
Service Centralization and Continuity Application Server (SCC-AS) / 11.7.1:
SRVCC from E-UTRAN to GERAN or UTRAN / 11.7.2:
SRVCC from E-UTRAN to CDMA 1×RTT / 11.8:
Migration Paths and Coexistence of Circuit-Switched and VoLTE / 11.9:
EPS Emergency Bearer Service for IMS Emergency / 11.11:
Multimedia Priority Service (MPS) / 11.12:
LTE Broadcasting / Chapter 12:
Background and Main Concepts / 12.1:
MBMS Solution Overview / 12.2:
MBMS User Services / 12.3:
Associated Delivery Procedures / 12.3.1:
Mobile Network Architecture for MBMS / 12.4:
Interfaces / 12.4.1:
MBMS Bearer Services / 12.5:
Session Start / 12.5.1:
Session Stop / 12.5.2:
Session Update / 12.5.3:
Positioning / Chapter 13:
Positioning Solutions / 13.1:
Positioning Architecture and Protocols / 13.2:
Positioning Methods / 13.3:
Position-Reporting Formats / 13.4:
EPS Positioning Entities and Interfaces / 13.5:
GMLC / 13.5.1:
E-SMLC / 13.5.2:
SLP / 13.5.3:
Le Interface / 13.5.4:
SLg Interface / 13.5.5:
SLs Interface / 13.5.6:
LTE Positioning Protocol (LPP) / 13.5.7:
LTE Positioning Protocol Annex (LPPa) / 13.5.8:
Positioning Procedure / 13.6:
Offload Functions and Simultaneous Multi-Access / Chapter 14:
Offloading the 3GPP RAN - Simultaneous Multi-Access / 14.1:
Multi-Access PDN Connectivity (MAPCON) / 14.2.1:
LP Flow Mobility (LFOM) / 14.2.2:
Non-Seamless WLAN Offloading (NSWO) / 14.2.3:
Offloading the Core and Transport Network - Selected IP Traffic Offload (SLPTO) / 14.3:
Access to Local Networks - Local LP Access (LLPA) / 14.4:
The Nuts and Bolts of EPC / Part IV:
EPS Network Entities and Interfaces / Chapter 15:
Network Entities / 15.1:
eNodeB / 15.1.1:
Mobility Management Entity / 15.1.2:
Serving GW / 15.1.3:
PDN GW / 15.1.4:
Policy and Charging Rules Function / 15.1.5:
Home eNodeB Subsystem and Related Entities / 15.1.6:
Control Plane Between UE, eNodeB, and MME / 15.2:
S1-MME / 15.2.1:
GTP-Based Interfaces / 15.3:
Control Plane / 15.3.1:
MME↔MME(SIO) / 15.3.2:
MME↔Serving GW(S 11) / 15.3.3:
Serving GW↔PDN GW (S5/S8) / 15.3.4:
SGSN↔MME (S3) / 15.3.5:
SGSN↔Serving GW (S4) / 15.3.6:
SGSN↔SGSN (S16) / 15.3.7:
Trusted WLAN Access Network ↔ PDN GW (S2a) / 15.3.8:
ePDG PDN GW (S2b) / 15.3.9:
User Plane / 15.3.10:
eNodeB Serving GW (S1-U) / 15.3.11:
UE ↔ eNodeB Serving GW PDN GW (GTP-TJ) / 15.3.12:
UE ↔ BSS ↔ SGSN ↔ Serving GW ↔ PDN GW (GTP-U) / 15.3.13:
UE ↔ UTRAN ↔ Serving GW ↔ PDN GW (GTP-U) / 15.3.14:
UE ↔ UTRAN ↔ SGSN Serving GW ↔ PDN GW (GTP-U) / 15.3.15:
UE ↔ Trusted WLAN Access Network ↔ PDN GW (GTP-U) / 15.3.16:
UE ↔ ePDG ↔ PDN GW (GTP-U) / 15.3.17:
PMLP-Based Interfaces / 15.4:
Serving GW-PDN GW (S5/S8) / 15.4.1:
Trusted Non-3GPP IP Access-PDN GW (S2a) / 15.4.2:
ePDG-PDN GW (S2b) / 15.4.3:
DSMLPv6-Based Interfaces / 15.5:
UE-PDN GW (S2c) / 15.5.1:
HSS-Related Interfaces and Protocols / 15.6:
MME-HSS (S6a) and SGSN-HSS (S6d) / 15.6.1:
AAA-Related Interfaces / 15.7:
AAA Server-HSS (SWx) / 15.7.1:
Trusted Non-3GPP Access-3GPP AAA Server/Proxy (STa) / 15.7.3:
Untrusted Non-3GPP BP Access-3GPP AAA Server/Proxy (SWa) / 15.7.4:
ePDG-3GPP AAA Server/Proxy (SWm) / 15.7.5:
PDN GW-3GPP AAA Server/Proxy (S6b) / 15.7.6:
3GPP AAA Proxy-3GPP AAA Server/Proxy (SWd) / 15.7.7:
PCC-Related Interfaces / 15.8:
PCEF-PCRF (Gx) / 15.8.1:
BBERF-PCRF (Gxa/Gxc) / 15.8.3:
PCRF-AE (Rx) / 15.8.4:
TDF-PCRF (Sd) / 15.8.5:
OCS-PCRF (Sy) / 15.8.6:
PCRF-PCRF (S9) / 15.8.7:
BPCF-PCRF (S9a) / 15.8.8:
SPR-PCRF(Sp) / 15.8.9:
EIR-Related Interfaces / 15.9:
MME-EIR and SGSN-EIR Interfaces (S13 and S13') / 15.9.1:
I-WLAN-Related Interfaces / 15.10:
UE-ePDG (SWu) / 15.10.1:
ANDSF-Related Interfaces / 15.11:
ISMP Policy Node / 15.11.1:
Discovery Information Node / 15.11.2:
UE Location Node / 15.11.3:
ISRP Node / 15.11.4:
Ext Node / 15.11.5:
HRPD IW-Related Interfaces / 15.12:
Optimized Handover and Related Interfaces (S101 and S103) / 15.12.1:
MME ↔ eHRPD Access Network (S101) / 15.12.2:
Serving GW ↔ HSGW (S103) / 15.12.3:
Interface to External Networks / 15.13:
Functions / 15.13.1:
CSS Interface / 15.14:
MME-CSS Interface (S7a) / 15.14.1:
Protocols / Chapter 16:
GPRS Tunneling Protocol Overview / 16.1:
Protocol Structure / 16.2.1:
Control Plane (GTPv2-C) / 16.2.2:
User Plane (GTPv1-U) / 16.2.3:
Protocol Format / 16.2.4:
Mobile IP / 16.3:
Host-Based and Network-Based Mobility Mechanisms / 16.3.1:
Basic Principles of Mobile IP / 16.3.3:
Mobile IPv6 Security / 16.3.4:
Packet Format / 16.3.5:
Dual-Stack Operation / 16.3.6:
Additional MLPv6 Features - Route Optimization / 16.3.7:
Proxy Mobile IPv6 / 16.4:
Basic Principles / 16.4.1:
PMLPv6 Security / 16.4.3:
PMLPv6 Packet Format / 16.4.4:
Diameter / 16.4.5:
Background / 16.5.1:
Diameter Nodes / 16.5.2:
Diameter Sessions, Connections, and Transport / 16.5.4:
Diameter Request Routing / 16.5.5:
Peer Discovery / 16.5.6:
Diameter Message Format / 16.5.7:
Generic Routing Encapsulation / 16.6:
Basic Protocol Aspects / 16.6.1:
GRE Packet Format / 16.6.3:
S1-AP / 16.7:
Non-Access Stratum (NAS) / 16.8:
EPS Mobility Management / 16.8.1:
EPS Session Management / 16.8.2:
Message Structure / 16.8.3:
Security-Protected NAS Messages / 16.8.4:
Message Transport / 16.8.5:
Future Extensions and Backward Compatibility / 16.8.6:
IP Security / 16.9:
Encapsulated Security Payload and Authentication Header / 16.9.1:
Internet Key Exchange / 16.9.3:
IKEv2 Mobility and Multi-Homing / 16.9.4:
Extensible Authentication Protocol / 16.10:
Overview / 16.10.1:
Protocol / 16.10.2:
Stream Control Transmission Protocol / 16.11:
Basic Protocol Features / 16.11.1:
Multi-Steaming / 16.11.3:
Multi-Homing / 16.11.4:
Packet Structure / 16.11.5:
Procedures / Chapter 17:
Attachment and Detachment for E-UTRAN / 17.1:
Attachment Procedure for E-UTRAN / 17.1.1:
Detachment Procedure for E-UTRAN / 17.1.2:
Tracking Area Update for E-UTRAN / 17.2:
Tracking Area Update Procedure / 17.2.1:
TA Update with MME Change / 17.2.2:
Service Request for E-UTRAN / 17.3:
UE Triggered Service Request / 17.3.1:
Network Triggered Service Request / 17.3.2:
Intra- and Inter-3GPP Access Handover / 17.4:
Phases of the Handover Procedures / 17.4.1:
Handover Cases in EPS for 3GPP Accesses / 17.4.2:
Handover within E-UTRAN Access / 17.4.3:
Handover between E-UTRAN and Other 3GPP Accesses (GERAN, UTRAN) with S4-SGSN / 17.4.4:
Handover for Gn/Gp-Based SGSN / 17.4.5:
Handover between GERAN and UTRAN Access Using S4 SGSN and GTP/PMTP Protocol / 17.4.6:
Bearer and QoS-Related Procedures / 17.5:
Bearer Procedures for E-UTRAN / 17.5.1:
Bearer Procedures for GERAN/UTRAN / 17.5.2:
Attachment and Detachment for Non-3GPP Accesses / 17.6:
Attachment Procedure in Trusted WLAN Access Network (TWAN) Using GTPv2 on S2a / 17.6.1:
Detachment Procedure in Trusted WLAN Access Network (TWAN) Using GTPv2 on S2a / 17.6.2:
Attachment Procedure in Untrusted Non-3GPP Access Using PMJPv6 (S2b) / 17.6.3:
Detachment Procedure in Untrusted Non-3GPP Access Using PMIPv6 (S2b) / 17.6.4:
Attachment Procedure in Trusted Non-3GPP Access Using DSMTPv6 (S2c) / 17.6.5:
Detachment Procedure in Trusted Non-3GPP Access Using DSMJPv6 (S2c) / 17.6.6:
Intersystem Handover Between 3GPP and Non-3GPP Accesses / 17.7:
Details of Handover in EPS with Non-3GPP Accesses / 17.7.1:
QoS-Related Procedures in Non-3GPP Accesses / 17.8:
Conclusion and Future of EPS / Part V:
Conclusions and Looking Ahead / Chapter 18:
Standards Bodies Associated with EPS / Appendix A:
References
Index
Foreword / Dr. Kalyani Bogineni
Preface / Dr. Ulf Nilsson
Acknowledgements
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