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Biblioteca

MARC Lista (tabellare)
Deploying and managing IP over WDM networks / / Joan Serrat, Alex Galis, editors
Deploying and managing IP over WDM networks / / Joan Serrat, Alex Galis, editors
Pubbl/distr/stampa Boston : , : Artech House, , ©2003
Descrizione fisica 1 online resource (312 p.)
Disciplina 004.62
Altri autori (Persone) SerratJoan
GalisAlex
Collana Artech House telecommunications library
Soggetto topico Wavelength division multiplexing
Wireless communication systems - Management
TCP/IP (Computer network protocol)
ISBN 1-58053-673-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto The Importance of IP and WDM Networks -- Historical Perspective -- Current Trends -- Deployment of IP Over WDM -- The Context of the WINMAN Project -- The WINMAN Consortium -- Network and Service Evolution Scenarios -- Requirements of IP-Based Services -- VPNs -- Application-Oriented Services: VoIP and MoIP --
Record Nr. UNINA-9910817047003321
Boston : , : Artech House, , ©2003
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Deploying IPv6 in 3GPP networks : evolving mobile broadband from 2G to LTE and beyond / / Jouni Korhonen, Teemu Savolainen, Jonne Soininen
Deploying IPv6 in 3GPP networks : evolving mobile broadband from 2G to LTE and beyond / / Jouni Korhonen, Teemu Savolainen, Jonne Soininen
Autore Kaorhonen Jouni
Pubbl/distr/stampa Chichester, West Sussex : , : John Wiley & Sons, , 2013
Descrizione fisica 1 online resource (400 p.)
Disciplina 621.3845/6
Altri autori (Persone) KorhonenJouni
SoininenJonne
Collana Nsn/nokia series
Soggetto topico Long-Term Evolution (Telecommunications)
Cell phone systems
Mobile computing
TCP/IP (Computer network protocol)
ISBN 1-118-39833-5
1-118-39832-7
1-299-46522-6
1-118-39831-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto -- Foreword xvii -- Preface xix -- Acknowledgments xxi -- Acronyms xxiii -- Glossary xxxiii -- 1 Introduction 1 -- 1.1 Introduction to Internet and the Internet Protocol 2 -- 1.2 Internet Principles 2 -- 1.3 The Internet Protocol 4 -- 1.3.1 Networks of Networks 6 -- 1.3.2 Routing and Forwarding 7 -- 1.4 Internet Protocol Addresses 9 -- 1.4.1 IPv4 Addresses 9 -- 1.4.2 IPv6 Addresses 11 -- 1.5 Transport Protocols 12 -- 1.5.1 User Datagram Protocol 13 -- 1.5.2 Transmission Control Protocol 13 -- 1.5.3 Port Numbers and Services 14 -- 1.6 Domain Name Service 14 -- 1.6.1 DNS Structure 14 -- 1.6.2 DNS Operation 15 -- 1.6.3 Top Level Domain 16 -- 1.6.4 Internationalized Domain Names 17 -- 1.7 IPv4 Address Exhaustion 17 -- 1.7.1 IP Address Allocation 18 -- 1.7.2 History of IPv4 Address Exhaustion 19 -- 1.8 IPv6 History Thus Far 21 -- 1.8.1 IPv6 Technology Maturity 21 -- 1.8.2 IPv6 Network Deployments 22 -- 1.9 Ongoing Cellular Deployments 23 -- 1.10 Chapter Summary 24 -- 1.11 Suggested Reading 24 -- References 24 -- 2 Basics of the 3GPP Technologies 27 -- 2.1 Standardization and Specifications 27 -- 2.1.1 3GPP Standardization Process 28 -- 2.1.2 IETF Standardization Process 31 -- 2.1.3 Other Important Organizations in the 3GPP-Ecosystem 33 -- 2.2 Introduction to 3GPP Network Architecture and Protocols 34 -- 2.2.1 GSM System 34 -- 2.2.2 General Packet Radio Service 36 -- 2.2.3 Evolved Packet System 41 -- 2.2.4 Control and User Planes, and Transport and User Layer Separation 44 -- 2.3 3GPP Protocols 45 -- 2.3.1 Control-Plane Protocols 46 -- 2.3.2 User-Plane Protocols 53 -- 2.3.3 GPRS Tunneling Protocol Versions 55 -- 2.3.4 PMIP Based EPS Architecture 56 -- 2.4 Mobility and Roaming 58 -- 2.4.1 Mobility Management 59 -- 2.4.2 Roaming 60 -- 2.4.3 Mobility Management Beyond 3GPP 60 -- 2.5 Central Concepts for IP Connectivity 61 -- 2.5.1 PDP Contexts and EPS Bearers 61 -- 2.5.2 Access Point Name 63 -- 2.5.3 Traffic Flow Template 64 -- 2.5.4 3GPP Link Model Principles 65 -- 2.5.5 Multiple Packet Data Network Connections 67.
2.6 User Equipment 68 -- 2.6.1 Traditional 3GPP UE Model 69 -- 2.6.2 Split-UE 69 -- 2.7 Subscription Management Databases and Other Backend Systems 70 -- 2.7.1 Home Location Register and Authentication Center 70 -- 2.7.2 Home Subscriber Server 71 -- 2.7.3 Equipment Identity Register 71 -- 2.7.4 Other Backend Systems 71 -- 2.8 End-to-end View from the User Equipment to the Internet 72 -- 2.8.1 GPRS 72 -- 2.8.2 EPS 73 -- 2.9 Chapter Summary 75 -- 2.10 Suggested Reading 75 -- References 76 -- 3 Introduction to IPv6 79 -- 3.1 IPv6 Addressing Architecture 80 -- 3.1.1 IPv6 Address Format 80 -- 3.1.2 IPv6 Address Types 81 -- 3.1.3 IPv6 Address Scopes 81 -- 3.1.4 IPv6 Addressing Zones 82 -- 3.1.5 IPv6 Addresses on Network Interfaces 82 -- 3.1.6 Interface Identifier and the Modified EUI-64 83 -- 3.1.7 IPv6 Address Space Allocations 84 -- 3.1.8 Special IPv6 Address Formats 84 -- 3.1.9 Textual Presentations of IPv6 Addresses 86 -- 3.2 IPv6 Packet Header Structure and Extensibility 87 -- 3.2.1 Traffic Class and Flow Label 88 -- 3.2.2 IPv6 Extension Headers 90 -- 3.2.3 MTU and Fragmentation 92 -- 3.2.4 Multicast 94 -- 3.3 Internet Control Message Protocol Version 6 97 -- 3.3.1 Error Messages 98 -- 3.3.2 Informational Messages 100 -- 3.4 Neighbor Discovery Protocol 101 -- 3.4.1 Router Discovery 101 -- 3.4.2 Parameter Discovery 102 -- 3.4.3 On-link Determination 104 -- 3.4.4 Link-layer Address Resolution 104 -- 3.4.5 Neighbor Unreachability Detection 105 -- 3.4.6 Next-hop Determination 106 -- 3.4.7 Duplicate Address Detection 106 -- 3.4.8 Redirect 107 -- 3.4.9 Secure Neighbor Discovery 107 -- 3.4.10 Neighbor Discovery Proxies 108 -- 3.5 Address Configuration and Selection Approaches 109 -- 3.5.1 Stateless Address Autoconfiguration 110 -- 3.5.2 Dynamic Host Configuration Protocol Version 6 112 -- 3.5.3 IKEv2 117 -- 3.5.4 Address Selection 118 -- 3.5.5 Privacy and Cryptographically Generated Addresses 120 -- 3.5.6 Router Selection 121 -- 3.6 IPv6 Link Types and Models 122 -- 3.6.1 IPv6 over Point-to-point Links 123.
3.6.2 IPv6 over Shared Media 124 -- 3.6.3 Link Numbering 125 -- 3.6.4 Bridging of Link Types 126 -- 3.7 Mobile IP 126 -- 3.7.1 Detecting Network Attachment 126 -- 3.7.2 Host-based Mobile IP 127 -- 3.7.3 Network-based Mobile IP 128 -- 3.8 IP Security 130 -- 3.8.1 Security Protocols 131 -- 3.8.2 Security Associations 131 -- 3.8.3 Key Management 132 -- 3.8.4 Cryptographic Algorithms 132 -- 3.8.5 MOBIKE 132 -- 3.9 Application Programming Interfaces 133 -- 3.9.1 Socket APIs 133 -- 3.9.2 Address Family Agnostic APIs 133 -- 3.9.3 IP Address Literals and Unique Resource Identifiers 134 -- 3.9.4 Happy Eyeballs 134 -- 3.10 Implications of IPv6 for Other Protocols 136 -- 3.10.1 Transport Layer Protocols 136 -- 3.10.2 Domain Name System 137 -- 3.10.3 Applications 141 -- 3.10.4 Internet Routing 141 -- 3.10.5 Management Information Base 143 -- 3.11 Validation and Certification 144 -- 3.11.1 Test Suites 144 -- 3.11.2 IPv6 Ready Logo 144 -- 3.12 Example IPv6 Packet Flows 145 -- 3.12.1 IPv6 on Ethernet 146 -- 3.12.2 IPv6 with DNS and TCP 153 -- 3.13 Chapter Summary 155 -- References 156 -- 4 IPv6 in 3GPP Networks 163 -- 4.1 PDN Connectivity Service 163 -- 4.1.1 Bearer Concept 164 -- 4.1.2 PDP and PDN Types 166 -- 4.1.3 Link Models in 3GPP 168 -- 4.2 End User IPv6 Service Impact on the 3GPP System 172 -- 4.2.1 User, Control and Transport Planes 172 -- 4.2.2 Affected Networking Elements 173 -- 4.2.3 Charging and Billing 180 -- 4.2.4 External PDN Access and the (S)Gi Interface 182 -- 4.2.5 Roaming Challenges 187 -- 4.3 End User IPv6 Service Impact on GTP and PMIPv6 Protocols 189 -- 4.3.1 GTP Control Plane Version 1 189 -- 4.3.2 GTP Control Plane Version 2 191 -- 4.3.3 GTP User Plane 194 -- 4.3.4 PMIPv6 194 -- 4.4 IP Address Assignment, Configuration, and Management 195 -- 4.4.1 Addressing Assumptions 195 -- 4.4.2 Stateless IPv6 Address Autoconfiguration 197 -- 4.4.3 Stateful IPv6 Address Configuration 200 -- 4.4.4 Deferred Address Allocation 200 -- 4.4.5 Static IPv6 Addressing 201 -- 4.4.6 IPv6 Prefix Delegation 204.
4.4.7 NAS Protocol Signaling and PCO Options 207 -- 4.4.8 Initial E-UTRAN Attach Example with IPv4 and IPv6 Address Configuration 211 -- 4.5 Bearer Establishment and Fallback Scenarios 214 -- 4.5.1 Initial Connection Establishment 214 -- 4.5.2 Backward Compatibility with Earlier Releases 215 -- 4.5.3 Dual Address Bearer Flag 215 -- 4.5.4 Requested PDN Type Handling in a PGW 216 -- 4.5.5 Fallback Scenarios and Rules 217 -- 4.5.6 Inter-RAT Handovers and Inter-SGSN Routing Area Updates 218 -- 4.6 Signaling Interfaces 219 -- 4.6.1 IPv6 as Transport 219 -- 4.6.2 IPv6 in Information Element Level 219 -- 4.7 User Equipment Specific Considerations 220 -- 4.7.1 IPv6 and Impacted Layers 220 -- 4.7.2 Required RFCs for Host UEs 222 -- 4.7.3 DNS Issues 223 -- 4.7.4 Provisioning 224 -- 4.7.5 IPv6 Tethering 225 -- 4.7.6 IPv6 Application Support 227 -- 4.8 Multicast 227 -- 4.9 Known IPv6 Issues and Anomalies 228 -- 4.9.1 IPv6 Neighbor Discovery Considerations 229 -- 4.9.2 PDN Connection Model and Multiple IPv6 Prefixes 233 -- 4.10 IPv6 Specific Security Considerations 233 -- 4.10.1 IPv6 Addressing Threats 234 -- 4.10.2 IPv6 First-hop Security 236 -- 4.10.3 IPv6 Extension Header Exploits 237 -- 4.11 Chapter Summary 239 -- References 240 -- 5 IPv6 Transition Mechanisms for 3GPP Networks 248 -- 5.1 Motivation for Transition Mechanisms 248 -- 5.1.1 Phasing the Transition 250 -- 5.2 Technology Overview 251 -- 5.2.1 Translation 251 -- 5.2.2 Encapsulation 253 -- 5.2.3 Mesh or Hub-and-spoke 254 -- 5.2.4 Scalability Concerns 255 -- 5.3 Transition Toolbox 255 -- 5.3.1 Transition Solutions Not Included 256 -- 5.3.2 Dual-stack 257 -- 5.3.3 NAT64 and DNS64 258 -- 5.3.4 464XLAT 269 -- 5.3.5 Bump-In-the-Host 271 -- 5.3.6 Mapping Address and Port Number 272 -- 5.3.7 Other Tunneling or Translation Based Transition Mechanisms 275 -- 5.4 Transition Scenarios for 3GPP 277 -- 5.4.1 Transition Scenario Evolution 278 -- 5.4.2 Dual-stack 280 -- 5.4.3 IPv6-only 281 -- 5.4.4 Double Translation 281 -- 5.5 Transition Impacts on 3GPP Architecture 282.
5.5.1 Transition Impact on the Supporting Infrastructure 282 -- 5.5.2 IP Network Support Systems 283 -- 5.5.3 Tools to Divide Subscribers Per IP Capability 285 -- 5.5.4 Translation Implications 286 -- 5.5.5 Transition Support in the Transport Plane 287 -- 5.5.6 Roaming 287 -- 5.5.7 Impact of Delayed Transition to IPv6 288 -- 5.6 Transitioning to IPv6 289 -- 5.6.1 Application Developer's Transition Plan 290 -- 5.6.2 Phone Vendor's Transition Plan 290 -- 5.6.3 Network Operator's Transition Checklist 290 -- 5.7 Chapter Summary 292 -- References 293 -- 6 Future of IPv6 in 3GPP Networks 296 -- 6.1 IPv6-based Traffic Offloading Solutions 296 -- 6.1.1 Motivations in Cellular Networks 297 -- 6.1.2 Benefits of IPv6-based Offloading Approaches 299 -- 6.1.3 IP-friendly Offloading Solutions 299 -- 6.1.4 Concluding Remarks 303 -- 6.2 Evolving 3GPP Bearers to Multiple Prefixes and Next-hop Routers 304 -- 6.2.1 Background and Motivation 304 -- 6.2.2 Multi-prefix Bearer Solution Proposal 305 -- 6.2.3 Overall Impact Analysis 311 -- 6.2.4 Open Issues and Future Work 313 -- 6.3 LTE as the Uplink Access for Home Networks 313 -- 6.3.1 Homenet at IETF 313 -- 6.3.2 Homenet and 3GPP Architecture 314 -- 6.3.3 Additional 3GPP Deployment Options 315 -- 6.4 Port Control Protocol 316 -- 6.4.1 Deployment Scenarios 317 -- 6.4.2 Protocol Features 318 -- 6.4.3 PCP Server Discovery 319 -- 6.4.4 Protocol Messages 319 -- 6.4.5 Cascaded NATs 320 -- 6.4.6 Relation to IPv6 Transition 320 -- 6.5 Internet of Things 321 -- 6.5.1 Typical Use Cases 321 -- 6.5.2 Standardization Organizations Working with IoT 322 -- 6.5.3 IoT Domain from the 3GPP Point of View 327 -- 6.5.4 Implications to UEs 328 -- 6.5.5 Implications to 3GPP Networks 329 -- 6.6 Chapter Summary 331 -- References 332 -- Index 337.
Record Nr. UNINA-9910139010203321
Kaorhonen Jouni  
Chichester, West Sussex : , : John Wiley & Sons, , 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Deploying IPv6 in 3GPP networks : evolving mobile broadband from 2G to LTE and beyond / / Jouni Korhonen, Teemu Savolainen, Jonne Soininen
Deploying IPv6 in 3GPP networks : evolving mobile broadband from 2G to LTE and beyond / / Jouni Korhonen, Teemu Savolainen, Jonne Soininen
Autore Kaorhonen Jouni
Pubbl/distr/stampa Chichester, West Sussex : , : John Wiley & Sons, , 2013
Descrizione fisica 1 online resource (400 p.)
Disciplina 621.3845/6
Altri autori (Persone) KorhonenJouni
SoininenJonne
Collana Nsn/nokia series
Soggetto topico Long-Term Evolution (Telecommunications)
Cell phone systems
Mobile computing
TCP/IP (Computer network protocol)
ISBN 1-118-39833-5
1-118-39832-7
1-299-46522-6
1-118-39831-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto -- Foreword xvii -- Preface xix -- Acknowledgments xxi -- Acronyms xxiii -- Glossary xxxiii -- 1 Introduction 1 -- 1.1 Introduction to Internet and the Internet Protocol 2 -- 1.2 Internet Principles 2 -- 1.3 The Internet Protocol 4 -- 1.3.1 Networks of Networks 6 -- 1.3.2 Routing and Forwarding 7 -- 1.4 Internet Protocol Addresses 9 -- 1.4.1 IPv4 Addresses 9 -- 1.4.2 IPv6 Addresses 11 -- 1.5 Transport Protocols 12 -- 1.5.1 User Datagram Protocol 13 -- 1.5.2 Transmission Control Protocol 13 -- 1.5.3 Port Numbers and Services 14 -- 1.6 Domain Name Service 14 -- 1.6.1 DNS Structure 14 -- 1.6.2 DNS Operation 15 -- 1.6.3 Top Level Domain 16 -- 1.6.4 Internationalized Domain Names 17 -- 1.7 IPv4 Address Exhaustion 17 -- 1.7.1 IP Address Allocation 18 -- 1.7.2 History of IPv4 Address Exhaustion 19 -- 1.8 IPv6 History Thus Far 21 -- 1.8.1 IPv6 Technology Maturity 21 -- 1.8.2 IPv6 Network Deployments 22 -- 1.9 Ongoing Cellular Deployments 23 -- 1.10 Chapter Summary 24 -- 1.11 Suggested Reading 24 -- References 24 -- 2 Basics of the 3GPP Technologies 27 -- 2.1 Standardization and Specifications 27 -- 2.1.1 3GPP Standardization Process 28 -- 2.1.2 IETF Standardization Process 31 -- 2.1.3 Other Important Organizations in the 3GPP-Ecosystem 33 -- 2.2 Introduction to 3GPP Network Architecture and Protocols 34 -- 2.2.1 GSM System 34 -- 2.2.2 General Packet Radio Service 36 -- 2.2.3 Evolved Packet System 41 -- 2.2.4 Control and User Planes, and Transport and User Layer Separation 44 -- 2.3 3GPP Protocols 45 -- 2.3.1 Control-Plane Protocols 46 -- 2.3.2 User-Plane Protocols 53 -- 2.3.3 GPRS Tunneling Protocol Versions 55 -- 2.3.4 PMIP Based EPS Architecture 56 -- 2.4 Mobility and Roaming 58 -- 2.4.1 Mobility Management 59 -- 2.4.2 Roaming 60 -- 2.4.3 Mobility Management Beyond 3GPP 60 -- 2.5 Central Concepts for IP Connectivity 61 -- 2.5.1 PDP Contexts and EPS Bearers 61 -- 2.5.2 Access Point Name 63 -- 2.5.3 Traffic Flow Template 64 -- 2.5.4 3GPP Link Model Principles 65 -- 2.5.5 Multiple Packet Data Network Connections 67.
2.6 User Equipment 68 -- 2.6.1 Traditional 3GPP UE Model 69 -- 2.6.2 Split-UE 69 -- 2.7 Subscription Management Databases and Other Backend Systems 70 -- 2.7.1 Home Location Register and Authentication Center 70 -- 2.7.2 Home Subscriber Server 71 -- 2.7.3 Equipment Identity Register 71 -- 2.7.4 Other Backend Systems 71 -- 2.8 End-to-end View from the User Equipment to the Internet 72 -- 2.8.1 GPRS 72 -- 2.8.2 EPS 73 -- 2.9 Chapter Summary 75 -- 2.10 Suggested Reading 75 -- References 76 -- 3 Introduction to IPv6 79 -- 3.1 IPv6 Addressing Architecture 80 -- 3.1.1 IPv6 Address Format 80 -- 3.1.2 IPv6 Address Types 81 -- 3.1.3 IPv6 Address Scopes 81 -- 3.1.4 IPv6 Addressing Zones 82 -- 3.1.5 IPv6 Addresses on Network Interfaces 82 -- 3.1.6 Interface Identifier and the Modified EUI-64 83 -- 3.1.7 IPv6 Address Space Allocations 84 -- 3.1.8 Special IPv6 Address Formats 84 -- 3.1.9 Textual Presentations of IPv6 Addresses 86 -- 3.2 IPv6 Packet Header Structure and Extensibility 87 -- 3.2.1 Traffic Class and Flow Label 88 -- 3.2.2 IPv6 Extension Headers 90 -- 3.2.3 MTU and Fragmentation 92 -- 3.2.4 Multicast 94 -- 3.3 Internet Control Message Protocol Version 6 97 -- 3.3.1 Error Messages 98 -- 3.3.2 Informational Messages 100 -- 3.4 Neighbor Discovery Protocol 101 -- 3.4.1 Router Discovery 101 -- 3.4.2 Parameter Discovery 102 -- 3.4.3 On-link Determination 104 -- 3.4.4 Link-layer Address Resolution 104 -- 3.4.5 Neighbor Unreachability Detection 105 -- 3.4.6 Next-hop Determination 106 -- 3.4.7 Duplicate Address Detection 106 -- 3.4.8 Redirect 107 -- 3.4.9 Secure Neighbor Discovery 107 -- 3.4.10 Neighbor Discovery Proxies 108 -- 3.5 Address Configuration and Selection Approaches 109 -- 3.5.1 Stateless Address Autoconfiguration 110 -- 3.5.2 Dynamic Host Configuration Protocol Version 6 112 -- 3.5.3 IKEv2 117 -- 3.5.4 Address Selection 118 -- 3.5.5 Privacy and Cryptographically Generated Addresses 120 -- 3.5.6 Router Selection 121 -- 3.6 IPv6 Link Types and Models 122 -- 3.6.1 IPv6 over Point-to-point Links 123.
3.6.2 IPv6 over Shared Media 124 -- 3.6.3 Link Numbering 125 -- 3.6.4 Bridging of Link Types 126 -- 3.7 Mobile IP 126 -- 3.7.1 Detecting Network Attachment 126 -- 3.7.2 Host-based Mobile IP 127 -- 3.7.3 Network-based Mobile IP 128 -- 3.8 IP Security 130 -- 3.8.1 Security Protocols 131 -- 3.8.2 Security Associations 131 -- 3.8.3 Key Management 132 -- 3.8.4 Cryptographic Algorithms 132 -- 3.8.5 MOBIKE 132 -- 3.9 Application Programming Interfaces 133 -- 3.9.1 Socket APIs 133 -- 3.9.2 Address Family Agnostic APIs 133 -- 3.9.3 IP Address Literals and Unique Resource Identifiers 134 -- 3.9.4 Happy Eyeballs 134 -- 3.10 Implications of IPv6 for Other Protocols 136 -- 3.10.1 Transport Layer Protocols 136 -- 3.10.2 Domain Name System 137 -- 3.10.3 Applications 141 -- 3.10.4 Internet Routing 141 -- 3.10.5 Management Information Base 143 -- 3.11 Validation and Certification 144 -- 3.11.1 Test Suites 144 -- 3.11.2 IPv6 Ready Logo 144 -- 3.12 Example IPv6 Packet Flows 145 -- 3.12.1 IPv6 on Ethernet 146 -- 3.12.2 IPv6 with DNS and TCP 153 -- 3.13 Chapter Summary 155 -- References 156 -- 4 IPv6 in 3GPP Networks 163 -- 4.1 PDN Connectivity Service 163 -- 4.1.1 Bearer Concept 164 -- 4.1.2 PDP and PDN Types 166 -- 4.1.3 Link Models in 3GPP 168 -- 4.2 End User IPv6 Service Impact on the 3GPP System 172 -- 4.2.1 User, Control and Transport Planes 172 -- 4.2.2 Affected Networking Elements 173 -- 4.2.3 Charging and Billing 180 -- 4.2.4 External PDN Access and the (S)Gi Interface 182 -- 4.2.5 Roaming Challenges 187 -- 4.3 End User IPv6 Service Impact on GTP and PMIPv6 Protocols 189 -- 4.3.1 GTP Control Plane Version 1 189 -- 4.3.2 GTP Control Plane Version 2 191 -- 4.3.3 GTP User Plane 194 -- 4.3.4 PMIPv6 194 -- 4.4 IP Address Assignment, Configuration, and Management 195 -- 4.4.1 Addressing Assumptions 195 -- 4.4.2 Stateless IPv6 Address Autoconfiguration 197 -- 4.4.3 Stateful IPv6 Address Configuration 200 -- 4.4.4 Deferred Address Allocation 200 -- 4.4.5 Static IPv6 Addressing 201 -- 4.4.6 IPv6 Prefix Delegation 204.
4.4.7 NAS Protocol Signaling and PCO Options 207 -- 4.4.8 Initial E-UTRAN Attach Example with IPv4 and IPv6 Address Configuration 211 -- 4.5 Bearer Establishment and Fallback Scenarios 214 -- 4.5.1 Initial Connection Establishment 214 -- 4.5.2 Backward Compatibility with Earlier Releases 215 -- 4.5.3 Dual Address Bearer Flag 215 -- 4.5.4 Requested PDN Type Handling in a PGW 216 -- 4.5.5 Fallback Scenarios and Rules 217 -- 4.5.6 Inter-RAT Handovers and Inter-SGSN Routing Area Updates 218 -- 4.6 Signaling Interfaces 219 -- 4.6.1 IPv6 as Transport 219 -- 4.6.2 IPv6 in Information Element Level 219 -- 4.7 User Equipment Specific Considerations 220 -- 4.7.1 IPv6 and Impacted Layers 220 -- 4.7.2 Required RFCs for Host UEs 222 -- 4.7.3 DNS Issues 223 -- 4.7.4 Provisioning 224 -- 4.7.5 IPv6 Tethering 225 -- 4.7.6 IPv6 Application Support 227 -- 4.8 Multicast 227 -- 4.9 Known IPv6 Issues and Anomalies 228 -- 4.9.1 IPv6 Neighbor Discovery Considerations 229 -- 4.9.2 PDN Connection Model and Multiple IPv6 Prefixes 233 -- 4.10 IPv6 Specific Security Considerations 233 -- 4.10.1 IPv6 Addressing Threats 234 -- 4.10.2 IPv6 First-hop Security 236 -- 4.10.3 IPv6 Extension Header Exploits 237 -- 4.11 Chapter Summary 239 -- References 240 -- 5 IPv6 Transition Mechanisms for 3GPP Networks 248 -- 5.1 Motivation for Transition Mechanisms 248 -- 5.1.1 Phasing the Transition 250 -- 5.2 Technology Overview 251 -- 5.2.1 Translation 251 -- 5.2.2 Encapsulation 253 -- 5.2.3 Mesh or Hub-and-spoke 254 -- 5.2.4 Scalability Concerns 255 -- 5.3 Transition Toolbox 255 -- 5.3.1 Transition Solutions Not Included 256 -- 5.3.2 Dual-stack 257 -- 5.3.3 NAT64 and DNS64 258 -- 5.3.4 464XLAT 269 -- 5.3.5 Bump-In-the-Host 271 -- 5.3.6 Mapping Address and Port Number 272 -- 5.3.7 Other Tunneling or Translation Based Transition Mechanisms 275 -- 5.4 Transition Scenarios for 3GPP 277 -- 5.4.1 Transition Scenario Evolution 278 -- 5.4.2 Dual-stack 280 -- 5.4.3 IPv6-only 281 -- 5.4.4 Double Translation 281 -- 5.5 Transition Impacts on 3GPP Architecture 282.
5.5.1 Transition Impact on the Supporting Infrastructure 282 -- 5.5.2 IP Network Support Systems 283 -- 5.5.3 Tools to Divide Subscribers Per IP Capability 285 -- 5.5.4 Translation Implications 286 -- 5.5.5 Transition Support in the Transport Plane 287 -- 5.5.6 Roaming 287 -- 5.5.7 Impact of Delayed Transition to IPv6 288 -- 5.6 Transitioning to IPv6 289 -- 5.6.1 Application Developer's Transition Plan 290 -- 5.6.2 Phone Vendor's Transition Plan 290 -- 5.6.3 Network Operator's Transition Checklist 290 -- 5.7 Chapter Summary 292 -- References 293 -- 6 Future of IPv6 in 3GPP Networks 296 -- 6.1 IPv6-based Traffic Offloading Solutions 296 -- 6.1.1 Motivations in Cellular Networks 297 -- 6.1.2 Benefits of IPv6-based Offloading Approaches 299 -- 6.1.3 IP-friendly Offloading Solutions 299 -- 6.1.4 Concluding Remarks 303 -- 6.2 Evolving 3GPP Bearers to Multiple Prefixes and Next-hop Routers 304 -- 6.2.1 Background and Motivation 304 -- 6.2.2 Multi-prefix Bearer Solution Proposal 305 -- 6.2.3 Overall Impact Analysis 311 -- 6.2.4 Open Issues and Future Work 313 -- 6.3 LTE as the Uplink Access for Home Networks 313 -- 6.3.1 Homenet at IETF 313 -- 6.3.2 Homenet and 3GPP Architecture 314 -- 6.3.3 Additional 3GPP Deployment Options 315 -- 6.4 Port Control Protocol 316 -- 6.4.1 Deployment Scenarios 317 -- 6.4.2 Protocol Features 318 -- 6.4.3 PCP Server Discovery 319 -- 6.4.4 Protocol Messages 319 -- 6.4.5 Cascaded NATs 320 -- 6.4.6 Relation to IPv6 Transition 320 -- 6.5 Internet of Things 321 -- 6.5.1 Typical Use Cases 321 -- 6.5.2 Standardization Organizations Working with IoT 322 -- 6.5.3 IoT Domain from the 3GPP Point of View 327 -- 6.5.4 Implications to UEs 328 -- 6.5.5 Implications to 3GPP Networks 329 -- 6.6 Chapter Summary 331 -- References 332 -- Index 337.
Record Nr. UNINA-9910808658703321
Kaorhonen Jouni  
Chichester, West Sussex : , : John Wiley & Sons, , 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Deploying IPv6 in broadband access networks / / Adeel Ahmed, Salman Asadullah
Deploying IPv6 in broadband access networks / / Adeel Ahmed, Salman Asadullah
Autore Ahmed Adeel
Edizione [1st edition]
Pubbl/distr/stampa Hoboken, New Jersey : , : Wiley, , c2009
Descrizione fisica 1 online resource (xviii, 213 p. ) : ill
Disciplina 621.38212
Altri autori (Persone) AsadullahSalman
Soggetto topico TCP/IP (Computer network protocol)
Broadband communication systems
ISBN 1-118-21069-7
0-470-50844-2
1-282-31689-3
9786612316890
0-470-50843-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto IPv6 drivers in broadband networks -- IPv6 overview -- Deploying IPv6 in cable networks -- IPv6 deployment in DSL, ETTH, and wireless networks -- Configuring and troubleshooting IPv6 on gateway routers and hosts -- Configuring and troubleshooting IPv6 on edge routers -- Configuring and troubleshooting IPv6 on provisioning servers -- Appendix A : IPv6 case study -- Appendix B : DHCPv6 message types and option codes.
Record Nr. UNINA-9910208844403321
Ahmed Adeel  
Hoboken, New Jersey : , : Wiley, , c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Deploying IPv6 in broadband access networks / / Adeel Ahmed, Salman Asadullah
Deploying IPv6 in broadband access networks / / Adeel Ahmed, Salman Asadullah
Autore Ahmed Adeel
Edizione [1st edition]
Pubbl/distr/stampa Hoboken, New Jersey : , : Wiley, , c2009
Descrizione fisica 1 online resource (xviii, 213 p. ) : ill
Disciplina 621.38212
Altri autori (Persone) AsadullahSalman
Soggetto topico TCP/IP (Computer network protocol)
Broadband communication systems
ISBN 1-118-21069-7
0-470-50844-2
1-282-31689-3
9786612316890
0-470-50843-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto IPv6 drivers in broadband networks -- IPv6 overview -- Deploying IPv6 in cable networks -- IPv6 deployment in DSL, ETTH, and wireless networks -- Configuring and troubleshooting IPv6 on gateway routers and hosts -- Configuring and troubleshooting IPv6 on edge routers -- Configuring and troubleshooting IPv6 on provisioning servers -- Appendix A : IPv6 case study -- Appendix B : DHCPv6 message types and option codes.
Record Nr. UNINA-9910830094203321
Ahmed Adeel  
Hoboken, New Jersey : , : Wiley, , c2009
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Developing IP-based services [electronic resource] : solutions for service providers and vendors / Monique Morrow, Kateel Vijayananda
Developing IP-based services [electronic resource] : solutions for service providers and vendors / Monique Morrow, Kateel Vijayananda
Autore Morrow, Monique
Pubbl/distr/stampa San Francisco, CA : Morgan Kaufmann, c2003
Descrizione fisica xxi, 313 p. : ill. ; 25 cm.
Disciplina 004.62
Altri autori (Persone) Vijayananda, Kateel.author
Collana The Morgan Kaufmann series in networking
Soggetto topico TCP/IP (Computer network protocol)
Internet service providers
Soggetto genere / forma Electronic books.
ISBN 9781558607798
155860779X
Formato Risorse elettroniche
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foreword -- Preface -- Chapter 1 - Introduction -- Chapter 2 - Building the Case for IP-Based Services -- Chapter 3 - Greenfield Service Providers: Opportunities and Challenges -- Chapter 4 - Incumbent Service Providers: Opportunities and Challenges -- Chapter 5 - IP as a Building Block: Enabling Multiservices -- Chapter 6 - IP-Based Service Implementation and Network Management -- Chapter 7 - IP-Based Services: Advanced Topics -- Chapter 8 - Case Studies -- Closing Remarks: Remaining Competitive with IP -- Acronyms -- Bibliography -- Index.
Record Nr. UNISALENTO-991003248589707536
Morrow, Monique  
San Francisco, CA : Morgan Kaufmann, c2003
Risorse elettroniche
Lo trovi qui: Univ. del Salento
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Effective TCP/IP programming : 44 tips to improve your network programming / Jon C. Snader
Effective TCP/IP programming : 44 tips to improve your network programming / Jon C. Snader
Autore Snader, Jon C., 1944-
Pubbl/distr/stampa Boston : Addison-Wesley, c2000
Descrizione fisica xv, 299 p. : ill. ; 23 cm
Disciplina 005.71376
Soggetto topico Internet programming
TCP/IP (Computer network protocol)
ISBN 0201615894
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISALENTO-991002056879707536
Snader, Jon C., 1944-  
Boston : Addison-Wesley, c2000
Materiale a stampa
Lo trovi qui: Univ. del Salento
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Granite IP network default route disappearance : diagnosis and solution / / by Lawrence M. Baker
Granite IP network default route disappearance : diagnosis and solution / / by Lawrence M. Baker
Autore Baker Lawrence M.
Pubbl/distr/stampa Reston, Virginia : , : U.S. Department of the Interior, U.S. Geological Survey, , 2018
Descrizione fisica 1 online resource (iv, 35 pages) + + supplement
Collana Open-file report
Soggetto topico Seismometry - Data processing
TCP/IP (Computer network protocol)
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Altri titoli varianti Granite IP network default route disappearance
Record Nr. UNINA-9910711546203321
Baker Lawrence M.  
Reston, Virginia : , : U.S. Department of the Interior, U.S. Geological Survey, , 2018
Materiale a stampa
Lo trovi qui: Univ. Federico II
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IBM Tivoli Monitoring for Network Performance V2.1 [[electronic resource] ] : the mainframe network management solution / / [Budi Darmawan ... et al.]
IBM Tivoli Monitoring for Network Performance V2.1 [[electronic resource] ] : the mainframe network management solution / / [Budi Darmawan ... et al.]
Edizione [1st ed.]
Pubbl/distr/stampa [S.l.], : IBM, International Technical Support Organization, 2004
Descrizione fisica xiv, 282 p. : ill
Disciplina 004.6/2
Altri autori (Persone) DarmawanBudi
Collana IBM redbooks
Soggetto topico TCP/IP (Computer network protocol)
Soggetto genere / forma Electronic books.
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910450756203321
[S.l.], : IBM, International Technical Support Organization, 2004
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
IBM Tivoli Monitoring for Network Performance V2.1 [[electronic resource] ] : the mainframe network management solution / / [Budi Darmawan ... et al.]
IBM Tivoli Monitoring for Network Performance V2.1 [[electronic resource] ] : the mainframe network management solution / / [Budi Darmawan ... et al.]
Edizione [1st ed.]
Pubbl/distr/stampa [S.l.], : IBM, International Technical Support Organization, 2004
Descrizione fisica xiv, 282 p. : ill
Disciplina 004.6/2
Altri autori (Persone) DarmawanBudi
Collana IBM redbooks
Soggetto topico TCP/IP (Computer network protocol)
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910783545703321
[S.l.], : IBM, International Technical Support Organization, 2004
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui