UMTS networks and beyond

An all-encompassing coverage on UMTS Networks including an in-depth discussion of current work on UMTS evolution and 4G . UMTS Networks and Beyond offers a comprehensive introduction to the networking aspects of UMTS and the networks coming after UMTS. The book is unique in that it systematically compares how a particular problem, e.g. obtaining connectivity, is solved in UMTS and how the same problem is solved in a Computer Network such as the Internet. It also highlights why the respective solutions are so different. The first part of the book provides a detailed technical discussion of UMTS, including original vision, architecture, protocol stacks and overall functionality. It places UMTS in the context of its evolution of from GSM and its convergence with Computer Networks. The second part of the book discusses today's vision of 4G, and introduces upcoming networking technologies. Emphasis is on LTE / SAE as successor of UMTS; UMB, WiMAX and NGN are also discussed. The book gives an overview of what these technologies are likely to offer, of their architectures, protocols and functionality. It also discusses their differences and similarities, and whether they will qualify as 4G. Key Features: Provides readers, particularly those with a background in IP-based networks, with a technical understanding of what UMTS does, how it works and how it is likely to evolve Explains the differences in design between UMTS Networks and Computer Networks and discusses how these design divergences can be reconciled in the future Shows how economic considerations shape the design of UMTS Motivates why particular design choices are made in UMTS Gives an in-depth introduction to LTE / SAE Provides a detailed picture of the state of the art in 4G Illustrates the theory with numerous tables and figures This comprehensive textbook is essential reading for advanced students and lecturers in communications systems and networking. It is also of interest to engineers and researchers in the field of UMTS and communications systems.

Preface xv Acknowledgement xxi About the Author xxiii Acronyms xxv Part I UMTS Networks 1 Introduction 3 1.1 Mobile Telecommunication Networks and Computer Networks 4 1.2 Network Design Principles and Business Models 5 1.2.1 Business Models 5 1.2.2 The Cathedral and the Bazaar 5 1.2.3 Operator Control and User Control 6 1.2.4 In the Beginning is the Architecture and In the Beginning is the Protocol 7 1.2.5 Convergence 8 1.3 Summary 8 2 UMTS Motivation and Context 11 2.1 The Evolution of the Mobile Telecommunication Market 12 2.1.1 Overall Market Evolution 12 2.1.2 Service Evolution 14 2.2 The Evolution of Mobile Telecommunication Technology 15 2.3 The Genesis of UMTS 17 2.3.1 UMTS Services 18 2.3.2 UMTS Technical Requirements 19 2.4 Comparison of UMTS with Other Mobile Technologies 21 2.4.1 Wlan 21 2.4.2 Other Mobile Technologies 21 2.5 Summary 24 3 Standardization 25 3.1 The Importance of Standardization 26 3.2 Standardization Bodies 27 3.2.1 Itu 27 3.2.2 3gpp 27 3.2.3 3gpp2 29 3.2.4 Ietf 29 3.2.5 Ieee 30 3.3 Summary 31 4 UMTS Architecture and Functionality 33 4.1 Overview of Telecommunication Network Architecture 34 4.1.1 Overview of Mobile Network Functionality 34 4.1.2 User-Plane, Control-Plane and Management Plane 35 4.2 High-Level Architecture of 3G Networks 36 4.3 GSM Architecture 37 4.4 GPRS Architecture 38 4.4.1 PS Domain and CS Domain 39 4.5 UMTS Architecture 39 4.5.1 Ims 40 4.6 3GPP System Architecture 40 4.7 WLAN Architecture 41 4.8 Summary 42 5 UMTS Radio Interface Technology-the Physical Layer 45 5.1 Information Coding 46 5.2 Sharing the Electromagnetic Spectrum 49 5.2.1 Frequency Division 49 5.2.2 Time Division 50 5.2.3 Space Division 50 5.2.4 Code Division 51 5.2.4.1 The Near-Far Effect 52 5.2.4.2 Macrodiversity 53 5.2.4.3 Channelization Code and Scrambling Code 54 5.2.5 Advanced Division Techniques 55 5.2.5.1 Orthogonal Frequency Division Multiple Access 55 5.2.5.2 Single-Carrier Frequency Division Multiplex Access 56 5.3 Summary 57 6 Packet-switched Domain-Architecture and Protocols 59 6.1 Architecture 60 6.1.1 Serving GPRS Support Node (SGSN) 61 6.1.2 Gateway GPRS Support Node (GGSN) 62 6.1.3 Home Location Register (HLR) 62 6.2 Protocols 62 6.2.1 User-Plane 62 6.2.2 Control-Plane 64 6.2.3 Discussion 65 6.3 Summary 66 7 Circuit-switched Domain-Architecture and Protocols 67 7.1 Architecture 68 7.2 Protocols 69 7.2.1 User-Plane 70 7.2.2 Control-Plane 70 7.3 Summary 72 8 UMTS Terrestrial Radio Access Network-Architecture and Protocols 73 8.1 Architecture 73 8.1.1 Node B 75 8.1.2 Rnc 75 8.2 Protocols and Channels 76 8.2.1 User-Plane 77 8.2.2 Control-Plane 77 8.2.3 Lower Layers and Channels 78 8.3 Summary 80 9 User Equipment-Architecture and Protocols 81 9.1 Architecture 81 9.1.1 Te 82 9.1.2 Mt 82 9.1.3 Uicc 83 9.2 Summary 84 10 IP Multimedia Subsystem-Architecture and Protocols 85 10.1 IMS Service Support 86 10.1.1 Basic Service Support 87 10.1.2 Advanced Service Support 87 10.2 Architecture 87 10.2.1 Cscf 89 10.2.2 IP Connectivity Access Network 89 10.3 Protocols 90 10.3.1 User-Plane 90 10.3.2 Control-Plane 90 10.4 Summary 91 10.4.1 Introduction to Chapters 11-17 92 11 Basic UMTS Functionality 93 11.1 Public Land Mobile Network (PLMN) 95 11.2 The Bearer Concept 96 11.3 UE Preparation 96 11.3.1 Searching for a Suitable Cell 97 11.3.2 Searching for a Suitable Network 97 11.4 RRC Connection Set-up Procedure 98 11.4.1 Message Flow for RRC Connection Set-up 98 11.5 GPRS Attach Procedure 99 11.5.1 Mobility Management States 99 11.5.2 Determining the Location of the UE 100 11.5.3 Message Flow for GPRS Attach 101 11.5.4 Combined GPRS/IMSI Attach 102 11.6 PDP Context Establishment Procedure 103 11.6.1 The PDP Context 103 11.6.2 PDP States 104 11.6.3 Message Flow for PDP Context Establishment 104 11.7 Detaching from the Network 105 11.8 Basic UMTS Functionality in Roaming Scenarios 106 11.9 Basic WLAN Functionality 106 11.9.1 Mobile Station Preparation 106 11.9.2 Establishing Radio Connectivity 108 11.9.3 Establishing IP Connectivity 108 11.10 Discussion 108 11.11 Summary 109 12 Mobility 111 12.1 Description of the Problems 112 12.2 Mobility in UMTS 113 12.2.1 Mobility in PMM-IDLE State 114 12.2.1.1 Routing Area Updates 114 12.2.1.2 Paging 116 12.2.2 Mobility in PMM-CONNECTED State 117 12.2.2.1 Handover 117 12.2.2.2 SRNC Relocation 117 12.3 Link-Layer Mobility in a WLAN 118 12.4 Mobility in Computer Networks 119 12.4.1 Basic Mobility Support by the IETF 120 12.4.1.1 Mobile IPv 6 120 12.4.1.2 Mobile IPv 4 121 12.4.2 Advanced Mobility Support by the IETF 122 12.4.2.1 Context Transfer Between Old Access Router and New Access Router 122 12.4.2.2 Seamless Mobility 123 12.4.2.3 Power-Saving Mode and Paging 124 12.5 Discussion 124 12.6 Summary 125 13 Security 127 13.1 Description of the Problems 128 13.1.1 Information Disclosure 129 13.1.2 Information Forgery 129 13.1.3 Theft of Service 130 13.1.4 Denial of Service 131 13.2 General Approach to Solutions 131 13.2.1 Secret Keys 131 13.2.2 Integrity Protection 132 13.2.3 Encryption 133 13.2.4 Authentication 133 13.2.5 Authorization 134 13.2.6 Discussion 134 13.3 Security in UMTS 134 13.3.1 Secret Keys 135 13.3.2 Authentication and Authorization in the PS Domain 135 13.3.3 Authentication and Authorization in the IMS 137 13.3.4 Integrity Protection 137 13.3.4.1 Integrity Protection on the Air Interface 137 13.3.4.2 Integrity Protection in Inter-PLMN Scenarios 138 13.3.5 Encryption 138 13.4 Security in a WLAN 138 13.4.1 Secret Keys 138 13.4.2 Authentication and Authorization 139 13.4.3 Integrity Protection and Encryption 140 13.5 Security Computer Networks 140 13.5.1 Authentication and Authorization 140 13.5.1.1 General Authentication Scenario 140 13.5.1.2 Network Access Authentication Scenario 141 13.5.1.3 Network Access Authentication Scenario with Roaming 141 13.5.1.4 Front end Protocols and back end Protocols 142 13.5.2 Integrity Protection and Encryption 144 13.6 Discussion 144 13.7 Summary 145 14 Quality of Service 147 14.1 Description of the Problems 148 14.1.1 QoS and Scalability 148 14.1.2 QoS Parameterization 149 14.1.3 QoS Signalling and QoS Provisioning 150 14.1.4 QoS and Seamless Mobility 151 14.2 QoS in Computer Networks 151 14.2.1 QoS Provisioning 152 14.2.1.1 Overprovisioning 152 14.2.1.2 Differentiated Services 154 14.2.1.3 Integrated Services 155 14.2.1.4 Mpls 155 14.2.2 QoS Signalling 157 14.2.2.1 Rsvp 157 14.2.2.2 QoS NSLP 160 14.2.2.3 Sip 160 14.2.3 End-to-end QoS Signalling Scenarios 161 14.3 QoS in UMTS 162 14.3.1 UMTS Traffic Classes 162 14.3.2 QoS Signalling for the UMTS Bearer 163 14.3.2.1 UMTS QoS Signalling to the PS Domain 163 14.3.3 UMTS QoS Provisioning 163 14.3.4 QoS of the End-to-End Bearer in UMTS 164 14.3.4.1 Service Level Agreements 164 14.3.4.2 UMTS End-to-end QoS Scenarios 164 14.4 Link-Layer QoS in a WLAN 166 14.5 Discussion 166 14.6 Summary 167 15 Session Control 169 15.1 Description of the Problems 170 15.2 Sip 171 15.2.1 SIP Identifiers 171 15.2.2 SIP Infrastructure 172 15.2.3 SIP Transactions 173 15.2.4 Session Description 174 15.2.5 SIP Example Message Flows 175 15.3 SIP in the IMS 177 15.3.1 SIP Infrastructure in the IMS 178 15.3.1.1 Proxy CSCF 178 15.3.1.2 Serving CSCF 179 15.3.1.3 Interrogating CSCF 179 15.3.1.4 SIP Octagon 179 15.3.2 UE Registration in the IMS 180 15.3.2.1 Message Flow for UE Registration in the IMS 181 15.3.3 Session Creation in the IMS 182 15.3.3.1 Message Flow for Session Creation in the IMS 183 15.3.4 Session Release and UE Deregistration in the IMS 185 15.4 Discussion 186 15.5 Summary 186 16 Charging 189 16.1 Description of the Problems 190 16.2 Charging in Computer Networks and WLAN 192 16.3 Charging in UMTS 192 16.3.1 Offline Charging and Online Charging 193 16.3.2 UMTS Charging Architecture 194 16.3.2.1 Offline Charging Architecture 195 16.3.2.2 Online Charging Architecture 196 16.3.2.3 Flow-based Charging 197 16.3.3 Charging in the PS Domain 200 16.3.3.1 Offline Charging in the PS Domain 201 16.3.3.2 Online Charging in the PS Domain 201 16.3.3.3 Roaming Scenario 202 16.3.4 Charging in the IMS 202 16.3.4.1 Offline Charging in the IMS 202 16.3.4.2 Online Charging in the IMS 204 16.3.4.3 Roaming Scenario 204 16.4 Discussion 204 16.5 Summary 205 17 Policy Control 207 17.1 Description of the Problems 208 17.2 Policy Control in Computer Networks 209 17.2.1 Policy Control in Roaming 209 17.2.2 Policy Control in QoS Authorization 210 17.2.3 The IETF Policy Architecture 210 17.2.4 Policy Push 211 17.3 Policy Control in UMTS 212 17.3.1 Service-based Local Policy 212 17.3.1.1 Message Flow for Service-based Local Policy 213 17.3.2 Policy and Charging Control 215 17.3.2.1 Policy and Charging Control in Roaming Scenarios 217 17.4 Discussion 217 17.5 Summary 219 18 WLAN and Other Alternative Access Methods 221 18.1 Interworking WLAN 222 18.1.1 I-WLAN Scenarios 222 18.1.2 I-WLAN Architecture 223 18.1.2.1 Non-roaming Case 224 18.1.2.2 Roaming Case 226 18.1.3 I-WLAN Basic Functionality 226 18.1.4 I-WLAN Mobility 227 18.1.5 I-WLAN Security 227 18.1.6 I-WLAN QoS 227 18.1.7 I-WLAN Charging 228 18.1.8 I-WLAN Policy Control 228 18.2 Generic Access Network 229 18.2.1 Enhanced GAN 232 18.3 Comparison and Discussion 232 18.4 Femtocells 233 18.5 Summary 234 19 UMTS Releases Summary 235 19.1 Release 99 235 19.2 Release 4 236 19.3 Release 5 236 19.4 Release 6 236 19.5 Release 7 237 19.6 Outlook 239 Part I Epilogue-Convergence 241 Part II Beyond UMTS Networks 20 4G Motivation and Context 245 20.1 Today's Mobile Telecommunication Networks 246 20.1.1 Today's Services and Technology Trends 246 20.1.1.1 Regional Differences 248 20.1.1.2 Summary of Today's Services and Technology Trends 248 20.1.2 Today's Business Models 248 20.1.2.1 Connectivity Provisioning 249 20.1.2.2 Service Provisioning 250 20.1.2.3 Summary of Today's Business Models 251 20.2 Short-term Evolution Towards 4G 251 20.2.1 Short-term Service and Technology Trends 251 20.2.1.1 User Services 251 20.2.1.2 Radio Interface and Bandwidth 252 20.2.1.3 Access Network 252 20.2.1.4 Mobile Stations and Networks of Mobile Stations 255 20.2.1.5 Service Creation 260 20.2.1.6 Summary of Short-term Services and Technology Trends 260 20.2.2 Short-term Business Models 260 20.3 IMT-Advanced 262 20.3.1 IMT-Advanced Services and Technologies 262 20.3.1.1 Radio Interface and Bandwidth 262 20.3.1.2 Access Networks 263 20.3.1.3 Mobile Terminals 263 20.3.1.4 Service Creation 264 20.3.1.5 Other Technical Features 265 20.3.1.6 IMT-Advanced Architecture 265 20.3.2 Summary of IMT-Advanced 266 20.4 Discussion 266 20.5 Summary 267 21 Evolution Towards 4G: 3GPP 269 21.1 3GPP Rel-8-Architecture and Protocols 271 21.2 E-utra 271 21.3 EPC-Architecture and Protocols 273 21.3.1 High-level View of the EPC Architecture and Protocols 273 21.3.2 Detailed EPC Architecture and Protocols 274 21.3.2.1 3GPP Access Network Architecture 274 21.3.2.2 3GPP Access Network Protocols 276 21.3.2.3 Untrusted non-3GPP Access Network Architecture 277 21.3.2.4 Untrusted non-3GPP Access Network Protocols 278 21.3.2.5 Trusted non-3GPP Access Network Architecture 278 21.3.2.6 Trusted non-3GPP Access Network protocols 279 21.3.2.7 Pgw 279 21.3.3 E-UTRAN: Architecture and Protocols 280 21.3.3.1 E-UTRAN Architecture 280 21.3.3.2 Protocols and Channels 280 21.4 3GPP Rel-8 Functionality 281 21.4.1 Basic Functionality 281 21.4.1.1 Proxy Mobile IP 282 21.4.1.2 Network Attach 284 21.4.1.3 Dedicated Bearer Establishment 286 21.4.1.4 Detaching 287 21.4.1.5 Roaming 287 21.4.2 Mobility 288 21.4.2.1 Mobility within 3GPP Access Networks 289 21.4.2.2 Mobility Involving non-3GPP Access Networks 290 21.4.3 Security 291 21.4.3.1 Secret Keys 292 21.4.3.2 Authentication and Authorization 292 21.4.3.3 Encryption and Integrity Protection 292 21.4.4 QoS 293 21.4.4.1 QoS Parameterization 293 21.4.4.2 QoS Signalling 293 21.4.5 Charging 294 21.4.6 Policy Control 294 21.5 Discussion 294 21.6 Summary 294 22 Evolution Towards 4G: Non-3GPP Technologies 297 22.1 cdma 2000 298 22.1.1 cdma2000-1xRTT and cdma2000-1xEV-DO 299 22.1.2 Umb 299 22.1.2.1 Radio Interface 299 22.1.2.2 Architecture and Protocols 299 22.1.2.3 Interworking with Other Technologies 301 22.2 Mobile WiMAX 301 22.2.1 Radio Interface 302 22.2.2 Architecture and Protocols 302 22.2.3 Interworking with Other Technologies 304 22.2.4 Mobile WiMAX and IMT-Advanced 304 22.3 Next Generation Networks 304 22.3.1 Etsi Ngn 305 22.3.1.1 Architecture and Protocols 305 22.3.1.2 Interworking with Other Technologies 307 22.3.2 PacketCable 307 22.3.2.1 Architecture and Protocols 308 22.3.2.2 Protocols 309 22.3.2.3 Interworking with Other Technologies 309 22.4 Discussion 310 22.5 Summary 311 23 Beyond 4G? 313 23.1 Self-managing Networks 313 23.1.1 Self-management in a 3GPP System 315 23.1.2 Discussion 316 23.2 Ubiquitous Computing, the Internet of Things and Ambient Intelligence 316 23.3 Clean Slate Approach 318 23.3.1 Discussion 319 23.4 Summary 319 Part II Epilogue-Convergence Revisited 321 Appendix A: Terminology 323 Appendix B: The Systematics of 3GPP Specification Numbering 327 References 331 Index 337