Info
2007 International Conference on IP Multimedia Subsystems Architecture and Applications, Bangalore, India, 6-8 December 2007
| 2007 International Conference on IP Multimedia Subsystems Architecture and Applications, Bangalore, India, 6-8 December 2007 |
| Pubbl/distr/stampa | [Place of publication not identified], : IEEE Service Center, 2007 |
| Disciplina | 006.7 |
| Soggetto topico |
Internet Protocol multimedia subsystem
Multimedia systems Electrical & Computer Engineering Engineering & Applied Sciences Telecommunications |
| ISBN |
1-5090-8569-6
1-4244-2672-3 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNISA-996204369703316 |
| [Place of publication not identified], : IEEE Service Center, 2007 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
2007 International Conference on IP Multimedia Subsystems Architecture and Applications, Bangalore, India, 6-8 December 2007
| 2007 International Conference on IP Multimedia Subsystems Architecture and Applications, Bangalore, India, 6-8 December 2007 |
| Pubbl/distr/stampa | [Place of publication not identified], : IEEE Service Center, 2007 |
| Disciplina | 006.7 |
| Soggetto topico |
Internet Protocol multimedia subsystem
Multimedia systems Electrical & Computer Engineering Engineering & Applied Sciences Telecommunications |
| ISBN |
9781509085699
1509085696 9781424426720 1424426723 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910145390103321 |
| [Place of publication not identified], : IEEE Service Center, 2007 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The 3G IP multimedia subsystem (IMS) : merging the Internet and the cellular worlds / / Gonzalo Camarillo, Miguel A. Garcâia-Martâin
| The 3G IP multimedia subsystem (IMS) : merging the Internet and the cellular worlds / / Gonzalo Camarillo, Miguel A. Garcâia-Martâin |
| Autore | Camarillo Gonzalo |
| Edizione | [3rd ed.] |
| Pubbl/distr/stampa | Chichester, West Sussex, U.K. : , : Wiley, , 2008 |
| Descrizione fisica | 1 online resource (654 p.) |
| Disciplina | 621.38456 |
| Altri autori (Persone) | Garcâia-MartâinMiguel A |
| Soggetto topico |
Wireless communication systems
Mobile communication systems Multimedia communications Internet Protocol multimedia subsystem |
| ISBN |
1-119-96441-5
1-282-12280-0 9786612122804 0-470-69513-7 0-470-69512-9 |
| Classificazione |
DAT 252f
DAT 614f DAT 680f ELT 745f QR 700 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword by Stephen Hayes -- Foreword by Allison Mankin and Jon Peterson -- Preface to the Third Edition -- Preface to the Second Edition -- Preface to the First Edition -- Acknowledgements -- Part I Introduction to the IMS -- IMS Vision: Where Do We Want to Go? -- 1.1 The Internet -- 1.2 The Cellular World -- 1.3 Why do we need the IMS? -- 1.4 Relation between IMS and non-IMS Services -- 2 The History of the IMS Standardization -- 2.1 Relations between IMS-related Standardization Bodies -- 2.3 Third Generation Partnership Project -- 2.4 Third Generation Partnership Project 2 -- 2.5 IETF-3GPP/3GPP2 Collaboration -- 2.6 Open Mobile Alliance -- 3 General Principles of the IMS Architecture -- 3.1 From Circuit-switched to Packet-switched -- 3.2 IMS Requirements -- 3.3 Overview of Protocols used in the IMS -- 3.4 Overview of IMS Architecture -- 3.5 Identification in the IMS -- 3.6 SIM, USIM, and ISIM in 3GPP -- 3.7 Next Generation Networks (NGN) -- Part II The Signaling Plane in the IMS -- 4 Session Control on the Internet -- 4.1 SIP Functionality -- 4.2 SIP Entities -- 4.3 Message Format -- 4.4 The Start Line in SIP Responses: the Status Line -- 4.5 The Start Line in SIP Requests: the Request Line -- 4.6 Header Fields -- 4.7 Message Body -- 4.8 SIP Transactions -- 4.9 Message Flow for Session Establishment -- 4.10 SIP Dialogs -- 4.11 Extending SIP -- 4.12 Caller Preferences and User Agent Capabilities -- 4.13 Reliability of Provisional Responses -- 4.14 Preconditions -- 4.15 Event Notification -- 4.16 Signaling Compression -- 4.17 Content Indirection -- 4.18 The REFER Method -- 4.19 Globally Routable User- Agent URIs (GRUU) -- 4.20 NAT Traversal -- 5 Session Control in the IMS -- 5.1 Prerequisites for Operation in the IMS -- 5.2 IPv4 and IPv6 in the IMS -- 5.3 IP Connectivity Access Network -- 5.4 P-CSCF Discovery -- 5.5 IMS-level Registration -- 5.6 Subscription to the reg Event State -- 5.7 Basic Session Setup -- 5.8 Application Servers: Providing Services to Users.
5.9 Changes due to Next Generation Networks (NGN) -- 5.10 Interworking -- 5.11 Combinational Services -- 5.12 Basic Sessions not Requiring Resource Reservation -- 5.13 Globally Routable User-Agent URI (GRUU) in IMS -- 5.14 IMS Communication Services Identification (ICSI) -- 5.15 IMS Application Reference Identifier (IARI) -- 5.16 NAT Traversal in the IMS -- 6 AAA on the Internet -- 6.1 Authentication, Authorization, and Accounting -- 6.2 AAA Framework on the Internet -- 6.3 The Diameter Protocol -- 7 AAA in the IMS -- 7.1 Authentication and Authorization in the IMS -- 7.2 he Cx and Dx Interfaces -- 7.3 The Sh Interface -- 7.4 Accounting -- 8 Policy and Charging Control in the IMS -- 8.1 PCC Architecture -- 8.2 Charging Architecture -- 8.3 Offline Charging Architecture -- 8.4 Online Charging Architecture -- 9 Quality of Service on the Internet -- 9.1 Integrated Services -- 9.2 Differentiated Services -- 10 Quality of Service in the IMS -- 10.1 Policy Control and QoS -- 10.2 Instructions to Perform Resource Reservations -- 10.3 Reservations by the Terminals -- 10.4 QoS in the Network -- 11 Security on the Internet -- 11.1 HTTP Digest Access Authentication -- 11.2 Certificates -- 11.3 TLS -- 11.4 S/MIME -- 11.5 Authenticated Identity Body -- 11.6 IPsec -- 11.7 Privacy -- 11.8 Encrypting Media Streams -- 12 Security in the IMS -- 12.1 Access Security -- 12.2 Network Security -- 13 Emergency Calls on the Internet -- 13.1 Introduction -- 13.2 Location Acquisition -- 13.3 Identifying Emergency Calls -- 13.4 Locating the closest PSAP -- 14 Emergency Calls in the IMS -- 14.1 Architecture for Supporting Emergency Calls in IMS -- 14.2 Establishing an Emergency Call in IMS -- 14.3 IMS Registration for Emergency Calls -- 14.4 Call back from PSAP to user -- 14.5 Anonymous calls -- 14.6 Emergency Calls in Fixed Broadband Accesses -- Part III The Media Plane in the IMS -- 15 Media Encoding -- 15.1 Speech Encoding -- 15.2 Video Encoding -- 15.3 Text Encoding -- 15.4 Mandatory Codecs in the IMS. 16 Media Transport -- 16.1 Reliable Media Transport -- 16.2 Unreliable Media Transport -- 16.3 Media Transport in the IMS -- Part IV Building Services with the IMS -- 17 Service Configuration on the Internet -- 17.1 The XML Configuration Access Protocol (XCAP) -- 17.2 An Overview of XML -- 17.3 HTTP URIs that Identify XCAP Resources -- 17.4 XCAP operations -- 17.5 Entity Tags and Conditional Operations -- 17.6 Subscriptions to Changes in XML Documents -- 17.7 XML Patch Operations -- 18 Service Configuration in the IMS -- 18.1 XDM architecture -- 18.2 Downloading an XML document, attribute, or element -- 18.3 Directory Retrieval -- 18.4 Data Search with XDM -- 18.5 Subscribing to Changes in XML Documents -- 19 The Presence Service on the Internet -- 19.1 Overview of the Presence Service -- 19.2 The Presence Life Cycle -- 19.3 Presence Subscriptions and Notifications -- 19.4 Presence Publication -- 19.5 Presence Information Data Format (PIDF) -- 19.6 The Presence Data Model for SIP -- 19.7 Mapping the SIP Presence Data Model to the PIDF -- 19.8 Rich Presence Information Data Format -- 19.9 CIPID -- 19.10 Timed Presence Extension to the PIDF -- 19.11 Presence Capabilities -- 19.12 Geographical Location in Presence -- 19.13 Watcher Information -- 19.14 Watcher Authorization: Presence Authorization Rules -- 19.15 URI-list Services and Resource Lists -- 19.16 Presence Optimizations -- 20 The Presence Service in the IMS -- 20.1 The Foundation of Services -- 20.2 Presence Architecture in the IMS -- 20.3 Presence Publication -- 20.4 Watcher Subscription -- 20.5 Watcher Information and Authorization of Watchers -- 20.6 Presence Optimizations -- 20.7 OMA extensions to PIDF -- 21 Instant Messaging on the Internet -- 21.1 The im URI -- 21.2 Modes of Instant Messages -- 21.3 Pager-mode Instant Messaging -- 21.4 Session-based Instant Messaging -- 21.5 The “isComposing” Indication -- 21.6 Messaging Multiple Parties -- 21.7 File Transfer -- 22 The Instant Messaging Service in the IMS. 22.1 Pager-mode Instant Messaging in the IMS -- 22.2 Pager-mode Instant Messaging to Multiple Recipients -- 22.3 Session-based Instant Messaging in the IMS -- 22.4 File Transfer -- 23 Conferencing on the Internet -- 23.1 Conferencing Standardization at the IETF -- 23.2 The SIPPING Conferencing Framework -- 23.3 The XCON Conferencing Framework -- 23.4 The Binary Floor Control Protocol (BFCP) -- 24 Conferencing in the IMS -- 24.1 The IMS Conferencing Service -- 24.2 Relation with the work in TISPAN and OMA -- 25 Push-to-Talk over Cellular -- 25.1 PoC Standardization -- 25.2 IETF Work Relevant to PoC -- 25.3 Architecture -- 25.4 Registration -- 25.5 PoC Server Roles -- 25.6 PoC Session Types -- 25.7 Adding Users to a PoC Session -- 25.8 Group Advertisements -- 25.9 Session Establishment Types -- 25.10 Answer Modes -- 25.11 Right-to-send-media Indication Types -- 25.12 Participant Information -- 25.13 Barring and Instant Personal Alerts -- 25.14 Full Duplex Call Follow on -- 25.15 The User Plane -- 25.16 Simultaneous PoC Sessions -- 25.17 Charging in PoC -- 26 Multimedia Telephony Services: PSTN/ISDN Simulation Services -- 26.1 Providing Audible Announcements -- 26.2 Communication Diversion (CDIV) -- 26.3 Communication Diversion Notification (CDIVN) -- 26.4 Conference (CONF) -- 26.5 Message Waiting Indication (MWI) -- 26.6 OIP and OIR -- 26.7 TIP and TIR -- 26.8 ACRACR and CB -- 26.9 Advice of Charge (AoC) -- 26.10 CCBS and CCNR -- 26.11 Malicious Communication Identification (MCID) -- 26.12 Communication Hold (HOLD) -- 26.13 Explicit Communication Transfer (ECT) -- 26.14 User Settings in PSTN/ISDN Simulation Services -- 27 Voice Call Continuity (VCC) -- 27.1 Overview of Voice Call Continuity -- 27.2 VCC architecture -- 27.3 Registration -- 27.4 Call origination and anchoring -- 27.5 Call termination and anchoring -- 27.6 Domain Transfer -- Appendix A List of IMS-related Specifications -- A.1 Introduction -- A.2 3GPP Specifications -- A.3 ETSI NGN Specifications -- A.4 OMA Specifications. References -- Index. |
| Record Nr. | UNINA-9910144432703321 |
Camarillo Gonzalo
|
||
| Chichester, West Sussex, U.K. : , : Wiley, , 2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The 3G IP multimedia subsystem (IMS) : merging the Internet and the cellular worlds / / Gonzalo Camarillo, Miguel A. Garcâia-Martâin
| The 3G IP multimedia subsystem (IMS) : merging the Internet and the cellular worlds / / Gonzalo Camarillo, Miguel A. Garcâia-Martâin |
| Autore | Camarillo Gonzalo |
| Edizione | [3rd ed.] |
| Pubbl/distr/stampa | Chichester, West Sussex, U.K. : , : Wiley, , 2008 |
| Descrizione fisica | 1 online resource (654 p.) |
| Disciplina | 621.38456 |
| Altri autori (Persone) | Garcâia-MartâinMiguel A |
| Soggetto topico |
Wireless communication systems
Mobile communication systems Multimedia communications Internet Protocol multimedia subsystem |
| ISBN |
1-119-96441-5
1-282-12280-0 9786612122804 0-470-69513-7 0-470-69512-9 |
| Classificazione |
DAT 252f
DAT 614f DAT 680f ELT 745f QR 700 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword by Stephen Hayes -- Foreword by Allison Mankin and Jon Peterson -- Preface to the Third Edition -- Preface to the Second Edition -- Preface to the First Edition -- Acknowledgements -- Part I Introduction to the IMS -- IMS Vision: Where Do We Want to Go? -- 1.1 The Internet -- 1.2 The Cellular World -- 1.3 Why do we need the IMS? -- 1.4 Relation between IMS and non-IMS Services -- 2 The History of the IMS Standardization -- 2.1 Relations between IMS-related Standardization Bodies -- 2.3 Third Generation Partnership Project -- 2.4 Third Generation Partnership Project 2 -- 2.5 IETF-3GPP/3GPP2 Collaboration -- 2.6 Open Mobile Alliance -- 3 General Principles of the IMS Architecture -- 3.1 From Circuit-switched to Packet-switched -- 3.2 IMS Requirements -- 3.3 Overview of Protocols used in the IMS -- 3.4 Overview of IMS Architecture -- 3.5 Identification in the IMS -- 3.6 SIM, USIM, and ISIM in 3GPP -- 3.7 Next Generation Networks (NGN) -- Part II The Signaling Plane in the IMS -- 4 Session Control on the Internet -- 4.1 SIP Functionality -- 4.2 SIP Entities -- 4.3 Message Format -- 4.4 The Start Line in SIP Responses: the Status Line -- 4.5 The Start Line in SIP Requests: the Request Line -- 4.6 Header Fields -- 4.7 Message Body -- 4.8 SIP Transactions -- 4.9 Message Flow for Session Establishment -- 4.10 SIP Dialogs -- 4.11 Extending SIP -- 4.12 Caller Preferences and User Agent Capabilities -- 4.13 Reliability of Provisional Responses -- 4.14 Preconditions -- 4.15 Event Notification -- 4.16 Signaling Compression -- 4.17 Content Indirection -- 4.18 The REFER Method -- 4.19 Globally Routable User- Agent URIs (GRUU) -- 4.20 NAT Traversal -- 5 Session Control in the IMS -- 5.1 Prerequisites for Operation in the IMS -- 5.2 IPv4 and IPv6 in the IMS -- 5.3 IP Connectivity Access Network -- 5.4 P-CSCF Discovery -- 5.5 IMS-level Registration -- 5.6 Subscription to the reg Event State -- 5.7 Basic Session Setup -- 5.8 Application Servers: Providing Services to Users.
5.9 Changes due to Next Generation Networks (NGN) -- 5.10 Interworking -- 5.11 Combinational Services -- 5.12 Basic Sessions not Requiring Resource Reservation -- 5.13 Globally Routable User-Agent URI (GRUU) in IMS -- 5.14 IMS Communication Services Identification (ICSI) -- 5.15 IMS Application Reference Identifier (IARI) -- 5.16 NAT Traversal in the IMS -- 6 AAA on the Internet -- 6.1 Authentication, Authorization, and Accounting -- 6.2 AAA Framework on the Internet -- 6.3 The Diameter Protocol -- 7 AAA in the IMS -- 7.1 Authentication and Authorization in the IMS -- 7.2 he Cx and Dx Interfaces -- 7.3 The Sh Interface -- 7.4 Accounting -- 8 Policy and Charging Control in the IMS -- 8.1 PCC Architecture -- 8.2 Charging Architecture -- 8.3 Offline Charging Architecture -- 8.4 Online Charging Architecture -- 9 Quality of Service on the Internet -- 9.1 Integrated Services -- 9.2 Differentiated Services -- 10 Quality of Service in the IMS -- 10.1 Policy Control and QoS -- 10.2 Instructions to Perform Resource Reservations -- 10.3 Reservations by the Terminals -- 10.4 QoS in the Network -- 11 Security on the Internet -- 11.1 HTTP Digest Access Authentication -- 11.2 Certificates -- 11.3 TLS -- 11.4 S/MIME -- 11.5 Authenticated Identity Body -- 11.6 IPsec -- 11.7 Privacy -- 11.8 Encrypting Media Streams -- 12 Security in the IMS -- 12.1 Access Security -- 12.2 Network Security -- 13 Emergency Calls on the Internet -- 13.1 Introduction -- 13.2 Location Acquisition -- 13.3 Identifying Emergency Calls -- 13.4 Locating the closest PSAP -- 14 Emergency Calls in the IMS -- 14.1 Architecture for Supporting Emergency Calls in IMS -- 14.2 Establishing an Emergency Call in IMS -- 14.3 IMS Registration for Emergency Calls -- 14.4 Call back from PSAP to user -- 14.5 Anonymous calls -- 14.6 Emergency Calls in Fixed Broadband Accesses -- Part III The Media Plane in the IMS -- 15 Media Encoding -- 15.1 Speech Encoding -- 15.2 Video Encoding -- 15.3 Text Encoding -- 15.4 Mandatory Codecs in the IMS. 16 Media Transport -- 16.1 Reliable Media Transport -- 16.2 Unreliable Media Transport -- 16.3 Media Transport in the IMS -- Part IV Building Services with the IMS -- 17 Service Configuration on the Internet -- 17.1 The XML Configuration Access Protocol (XCAP) -- 17.2 An Overview of XML -- 17.3 HTTP URIs that Identify XCAP Resources -- 17.4 XCAP operations -- 17.5 Entity Tags and Conditional Operations -- 17.6 Subscriptions to Changes in XML Documents -- 17.7 XML Patch Operations -- 18 Service Configuration in the IMS -- 18.1 XDM architecture -- 18.2 Downloading an XML document, attribute, or element -- 18.3 Directory Retrieval -- 18.4 Data Search with XDM -- 18.5 Subscribing to Changes in XML Documents -- 19 The Presence Service on the Internet -- 19.1 Overview of the Presence Service -- 19.2 The Presence Life Cycle -- 19.3 Presence Subscriptions and Notifications -- 19.4 Presence Publication -- 19.5 Presence Information Data Format (PIDF) -- 19.6 The Presence Data Model for SIP -- 19.7 Mapping the SIP Presence Data Model to the PIDF -- 19.8 Rich Presence Information Data Format -- 19.9 CIPID -- 19.10 Timed Presence Extension to the PIDF -- 19.11 Presence Capabilities -- 19.12 Geographical Location in Presence -- 19.13 Watcher Information -- 19.14 Watcher Authorization: Presence Authorization Rules -- 19.15 URI-list Services and Resource Lists -- 19.16 Presence Optimizations -- 20 The Presence Service in the IMS -- 20.1 The Foundation of Services -- 20.2 Presence Architecture in the IMS -- 20.3 Presence Publication -- 20.4 Watcher Subscription -- 20.5 Watcher Information and Authorization of Watchers -- 20.6 Presence Optimizations -- 20.7 OMA extensions to PIDF -- 21 Instant Messaging on the Internet -- 21.1 The im URI -- 21.2 Modes of Instant Messages -- 21.3 Pager-mode Instant Messaging -- 21.4 Session-based Instant Messaging -- 21.5 The “isComposing” Indication -- 21.6 Messaging Multiple Parties -- 21.7 File Transfer -- 22 The Instant Messaging Service in the IMS. 22.1 Pager-mode Instant Messaging in the IMS -- 22.2 Pager-mode Instant Messaging to Multiple Recipients -- 22.3 Session-based Instant Messaging in the IMS -- 22.4 File Transfer -- 23 Conferencing on the Internet -- 23.1 Conferencing Standardization at the IETF -- 23.2 The SIPPING Conferencing Framework -- 23.3 The XCON Conferencing Framework -- 23.4 The Binary Floor Control Protocol (BFCP) -- 24 Conferencing in the IMS -- 24.1 The IMS Conferencing Service -- 24.2 Relation with the work in TISPAN and OMA -- 25 Push-to-Talk over Cellular -- 25.1 PoC Standardization -- 25.2 IETF Work Relevant to PoC -- 25.3 Architecture -- 25.4 Registration -- 25.5 PoC Server Roles -- 25.6 PoC Session Types -- 25.7 Adding Users to a PoC Session -- 25.8 Group Advertisements -- 25.9 Session Establishment Types -- 25.10 Answer Modes -- 25.11 Right-to-send-media Indication Types -- 25.12 Participant Information -- 25.13 Barring and Instant Personal Alerts -- 25.14 Full Duplex Call Follow on -- 25.15 The User Plane -- 25.16 Simultaneous PoC Sessions -- 25.17 Charging in PoC -- 26 Multimedia Telephony Services: PSTN/ISDN Simulation Services -- 26.1 Providing Audible Announcements -- 26.2 Communication Diversion (CDIV) -- 26.3 Communication Diversion Notification (CDIVN) -- 26.4 Conference (CONF) -- 26.5 Message Waiting Indication (MWI) -- 26.6 OIP and OIR -- 26.7 TIP and TIR -- 26.8 ACRACR and CB -- 26.9 Advice of Charge (AoC) -- 26.10 CCBS and CCNR -- 26.11 Malicious Communication Identification (MCID) -- 26.12 Communication Hold (HOLD) -- 26.13 Explicit Communication Transfer (ECT) -- 26.14 User Settings in PSTN/ISDN Simulation Services -- 27 Voice Call Continuity (VCC) -- 27.1 Overview of Voice Call Continuity -- 27.2 VCC architecture -- 27.3 Registration -- 27.4 Call origination and anchoring -- 27.5 Call termination and anchoring -- 27.6 Domain Transfer -- Appendix A List of IMS-related Specifications -- A.1 Introduction -- A.2 3GPP Specifications -- A.3 ETSI NGN Specifications -- A.4 OMA Specifications. References -- Index. |
| Record Nr. | UNINA-9910830357003321 |
|
Camarillo Gonzalo
|
||
| Chichester, West Sussex, U.K. : , : Wiley, , 2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The 3G IP multimedia subsystem (IMS) : merging the Internet and the cellular worlds / / Gonzalo Camarillo, Miguel A. Garcia-Martin
| The 3G IP multimedia subsystem (IMS) : merging the Internet and the cellular worlds / / Gonzalo Camarillo, Miguel A. Garcia-Martin |
| Autore | Camarillo Gonzalo |
| Edizione | [3rd ed.] |
| Pubbl/distr/stampa | Hoboken, NJ, : J. Wiley & Sons, 2008 |
| Descrizione fisica | 1 online resource (654 p.) |
| Disciplina | 621.38456 |
| Altri autori (Persone) | Garcia-MartinMiguel A |
| Soggetto topico |
Wireless communication systems
Mobile communication systems Multimedia communications Internet Protocol multimedia subsystem |
| ISBN |
9786612122804
9781119964414 1119964415 9781282122802 1282122800 9780470695135 0470695137 9780470695128 0470695129 |
| Classificazione |
DAT 252f
DAT 614f DAT 680f ELT 745f QR 700 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Foreword by Stephen Hayes -- Foreword by Allison Mankin and Jon Peterson -- Preface to the Third Edition -- Preface to the Second Edition -- Preface to the First Edition -- Acknowledgements -- Part I Introduction to the IMS -- IMS Vision: Where Do We Want to Go? -- 1.1 The Internet -- 1.2 The Cellular World -- 1.3 Why do we need the IMS? -- 1.4 Relation between IMS and non-IMS Services -- 2 The History of the IMS Standardization -- 2.1 Relations between IMS-related Standardization Bodies -- 2.3 Third Generation Partnership Project -- 2.4 Third Generation Partnership Project 2 -- 2.5 IETF-3GPP/3GPP2 Collaboration -- 2.6 Open Mobile Alliance -- 3 General Principles of the IMS Architecture -- 3.1 From Circuit-switched to Packet-switched -- 3.2 IMS Requirements -- 3.3 Overview of Protocols used in the IMS -- 3.4 Overview of IMS Architecture -- 3.5 Identification in the IMS -- 3.6 SIM, USIM, and ISIM in 3GPP -- 3.7 Next Generation Networks (NGN) -- Part II The Signaling Plane in the IMS -- 4 Session Control on the Internet -- 4.1 SIP Functionality -- 4.2 SIP Entities -- 4.3 Message Format -- 4.4 The Start Line in SIP Responses: the Status Line -- 4.5 The Start Line in SIP Requests: the Request Line -- 4.6 Header Fields -- 4.7 Message Body -- 4.8 SIP Transactions -- 4.9 Message Flow for Session Establishment -- 4.10 SIP Dialogs -- 4.11 Extending SIP -- 4.12 Caller Preferences and User Agent Capabilities -- 4.13 Reliability of Provisional Responses -- 4.14 Preconditions -- 4.15 Event Notification -- 4.16 Signaling Compression -- 4.17 Content Indirection -- 4.18 The REFER Method -- 4.19 Globally Routable User- Agent URIs (GRUU) -- 4.20 NAT Traversal -- 5 Session Control in the IMS -- 5.1 Prerequisites for Operation in the IMS -- 5.2 IPv4 and IPv6 in the IMS -- 5.3 IP Connectivity Access Network -- 5.4 P-CSCF Discovery -- 5.5 IMS-level Registration -- 5.6 Subscription to the reg Event State -- 5.7 Basic Session Setup -- 5.8 Application Servers: Providing Services to Users.
5.9 Changes due to Next Generation Networks (NGN) -- 5.10 Interworking -- 5.11 Combinational Services -- 5.12 Basic Sessions not Requiring Resource Reservation -- 5.13 Globally Routable User-Agent URI (GRUU) in IMS -- 5.14 IMS Communication Services Identification (ICSI) -- 5.15 IMS Application Reference Identifier (IARI) -- 5.16 NAT Traversal in the IMS -- 6 AAA on the Internet -- 6.1 Authentication, Authorization, and Accounting -- 6.2 AAA Framework on the Internet -- 6.3 The Diameter Protocol -- 7 AAA in the IMS -- 7.1 Authentication and Authorization in the IMS -- 7.2 he Cx and Dx Interfaces -- 7.3 The Sh Interface -- 7.4 Accounting -- 8 Policy and Charging Control in the IMS -- 8.1 PCC Architecture -- 8.2 Charging Architecture -- 8.3 Offline Charging Architecture -- 8.4 Online Charging Architecture -- 9 Quality of Service on the Internet -- 9.1 Integrated Services -- 9.2 Differentiated Services -- 10 Quality of Service in the IMS -- 10.1 Policy Control and QoS -- 10.2 Instructions to Perform Resource Reservations -- 10.3 Reservations by the Terminals -- 10.4 QoS in the Network -- 11 Security on the Internet -- 11.1 HTTP Digest Access Authentication -- 11.2 Certificates -- 11.3 TLS -- 11.4 S/MIME -- 11.5 Authenticated Identity Body -- 11.6 IPsec -- 11.7 Privacy -- 11.8 Encrypting Media Streams -- 12 Security in the IMS -- 12.1 Access Security -- 12.2 Network Security -- 13 Emergency Calls on the Internet -- 13.1 Introduction -- 13.2 Location Acquisition -- 13.3 Identifying Emergency Calls -- 13.4 Locating the closest PSAP -- 14 Emergency Calls in the IMS -- 14.1 Architecture for Supporting Emergency Calls in IMS -- 14.2 Establishing an Emergency Call in IMS -- 14.3 IMS Registration for Emergency Calls -- 14.4 Call back from PSAP to user -- 14.5 Anonymous calls -- 14.6 Emergency Calls in Fixed Broadband Accesses -- Part III The Media Plane in the IMS -- 15 Media Encoding -- 15.1 Speech Encoding -- 15.2 Video Encoding -- 15.3 Text Encoding -- 15.4 Mandatory Codecs in the IMS. 16 Media Transport -- 16.1 Reliable Media Transport -- 16.2 Unreliable Media Transport -- 16.3 Media Transport in the IMS -- Part IV Building Services with the IMS -- 17 Service Configuration on the Internet -- 17.1 The XML Configuration Access Protocol (XCAP) -- 17.2 An Overview of XML -- 17.3 HTTP URIs that Identify XCAP Resources -- 17.4 XCAP operations -- 17.5 Entity Tags and Conditional Operations -- 17.6 Subscriptions to Changes in XML Documents -- 17.7 XML Patch Operations -- 18 Service Configuration in the IMS -- 18.1 XDM architecture -- 18.2 Downloading an XML document, attribute, or element -- 18.3 Directory Retrieval -- 18.4 Data Search with XDM -- 18.5 Subscribing to Changes in XML Documents -- 19 The Presence Service on the Internet -- 19.1 Overview of the Presence Service -- 19.2 The Presence Life Cycle -- 19.3 Presence Subscriptions and Notifications -- 19.4 Presence Publication -- 19.5 Presence Information Data Format (PIDF) -- 19.6 The Presence Data Model for SIP -- 19.7 Mapping the SIP Presence Data Model to the PIDF -- 19.8 Rich Presence Information Data Format -- 19.9 CIPID -- 19.10 Timed Presence Extension to the PIDF -- 19.11 Presence Capabilities -- 19.12 Geographical Location in Presence -- 19.13 Watcher Information -- 19.14 Watcher Authorization: Presence Authorization Rules -- 19.15 URI-list Services and Resource Lists -- 19.16 Presence Optimizations -- 20 The Presence Service in the IMS -- 20.1 The Foundation of Services -- 20.2 Presence Architecture in the IMS -- 20.3 Presence Publication -- 20.4 Watcher Subscription -- 20.5 Watcher Information and Authorization of Watchers -- 20.6 Presence Optimizations -- 20.7 OMA extensions to PIDF -- 21 Instant Messaging on the Internet -- 21.1 The im URI -- 21.2 Modes of Instant Messages -- 21.3 Pager-mode Instant Messaging -- 21.4 Session-based Instant Messaging -- 21.5 The “isComposing” Indication -- 21.6 Messaging Multiple Parties -- 21.7 File Transfer -- 22 The Instant Messaging Service in the IMS. 22.1 Pager-mode Instant Messaging in the IMS -- 22.2 Pager-mode Instant Messaging to Multiple Recipients -- 22.3 Session-based Instant Messaging in the IMS -- 22.4 File Transfer -- 23 Conferencing on the Internet -- 23.1 Conferencing Standardization at the IETF -- 23.2 The SIPPING Conferencing Framework -- 23.3 The XCON Conferencing Framework -- 23.4 The Binary Floor Control Protocol (BFCP) -- 24 Conferencing in the IMS -- 24.1 The IMS Conferencing Service -- 24.2 Relation with the work in TISPAN and OMA -- 25 Push-to-Talk over Cellular -- 25.1 PoC Standardization -- 25.2 IETF Work Relevant to PoC -- 25.3 Architecture -- 25.4 Registration -- 25.5 PoC Server Roles -- 25.6 PoC Session Types -- 25.7 Adding Users to a PoC Session -- 25.8 Group Advertisements -- 25.9 Session Establishment Types -- 25.10 Answer Modes -- 25.11 Right-to-send-media Indication Types -- 25.12 Participant Information -- 25.13 Barring and Instant Personal Alerts -- 25.14 Full Duplex Call Follow on -- 25.15 The User Plane -- 25.16 Simultaneous PoC Sessions -- 25.17 Charging in PoC -- 26 Multimedia Telephony Services: PSTN/ISDN Simulation Services -- 26.1 Providing Audible Announcements -- 26.2 Communication Diversion (CDIV) -- 26.3 Communication Diversion Notification (CDIVN) -- 26.4 Conference (CONF) -- 26.5 Message Waiting Indication (MWI) -- 26.6 OIP and OIR -- 26.7 TIP and TIR -- 26.8 ACRACR and CB -- 26.9 Advice of Charge (AoC) -- 26.10 CCBS and CCNR -- 26.11 Malicious Communication Identification (MCID) -- 26.12 Communication Hold (HOLD) -- 26.13 Explicit Communication Transfer (ECT) -- 26.14 User Settings in PSTN/ISDN Simulation Services -- 27 Voice Call Continuity (VCC) -- 27.1 Overview of Voice Call Continuity -- 27.2 VCC architecture -- 27.3 Registration -- 27.4 Call origination and anchoring -- 27.5 Call termination and anchoring -- 27.6 Domain Transfer -- Appendix A List of IMS-related Specifications -- A.1 Introduction -- A.2 3GPP Specifications -- A.3 ETSI NGN Specifications -- A.4 OMA Specifications. References -- Index. |
| Altri titoli varianti | 3G Internet Protocol multimedia subsystem (IMS) |
| Record Nr. | UNINA-9911019380503321 |
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Camarillo Gonzalo
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| Hoboken, NJ, : J. Wiley & Sons, 2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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The 3G IP multimedia subsystem (IMS) : merging the Internet and the cellular worlds / / Gonzalo Camarillo, Miguel A. García-Martín
| The 3G IP multimedia subsystem (IMS) : merging the Internet and the cellular worlds / / Gonzalo Camarillo, Miguel A. García-Martín |
| Autore | Camarillo Gonzalo |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Chichester, England : , : John Wiley & Sons, Ltd, , 2006 |
| Descrizione fisica | 1 online resource (457 p.) |
| Disciplina | 621.38456 |
| Soggetto topico |
Wireless communication systems
Mobile communication systems Multimedia communications Internet Protocol multimedia subsystem |
| ISBN |
1-280-73964-9
9786610739646 0-470-03142-5 0-470-03141-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
The 3G IP Multimedia Subsystem (IMS); Contents; Foreword by Stephen Hayes; Foreword by Allison Mankin and Jon Peterson; About the Authors; Preface to the Second Edition; Preface to the First Edition; Acknowledgements; Part I Introduction to the IMS; 1 IMS Vision: Where Do We Want to Go?; 1.1 The Internet; 1.2 The Cellular World; 1.3 Why do we need the IMS?; 1.4 Relation between IMS and non-IMS Services; 2 The History of the IMS Standardization; 2.1 Relations between IMS-related Standardization Bodies; 2.2 Internet Engineering Task Force; 2.2.1 Structure of the IETF
2.2.2 Working Group Operations2.2.3 Types of RFCs; 2.3 Third Generation Partnership Project; 2.3.1 3GPP Structure; 2.3.2 3GPP Deliverables; 2.4 Third Generation Partnership Project; 2.4.1 3GPP2 Structure; 2.4.2 3GPP2 Deliverables; 2.5 IETF-3GPP/3GPP2 Collaboration; 2.5.1 Internet Area; 2.5.2 Operations and Management Area; 2.5.3 Transport Area; 2.6 Open Mobile Alliance; 2.6.1 OMA Releases and Specifications; 2.6.2 Relationship between OMA and 3GPP/3GPP2; 2.6.3 Relationship between OMA and the IETF; 3 General Principles of the IMS Architecture; 3.1 From Circuit-switched to Packet-switched 3.1.1 GSM Circuit-switched3.1.2 GSM Packet-switched; 3.2 IMS Requirements; 3.2.1 IP Multimedia Sessions; 3.2.2 QoS; 3.2.3 Interworking; 3.2.4 Roaming; 3.2.5 Service Control; 3.2.6 Rapid Service Creation; 3.2.7 Multiple Access; 3.3 Overview of Protocols used in the IMS; 3.3.1 Session Control Protocol; 3.3.2 The AAA Protocol; 3.3.3 Other Protocols; 3.4 Overview of IMS Architecture; 3.4.1 The Databases: the HSS and the SLF; 3.4.2 The CSCF; 3.4.3 The AS; 3.4.4 The MRF; 3.4.5 The BGCF; 3.4.6 The IMS-ALG and the TrGW; 3.4.7 The PSTN/CS Gateway; 3.4.8 Home and Visited Networks 3.5 Identification in the IMS3.5.1 Public User Identities; 3.5.2 Private User Identities; 3.5.3 The Relation between Public and Private User Identities; 3.5.4 Public Service Identities; 3.6 SIM, USIM, and ISIM in 3GPP; 3.6.1 SIM; 3.6.2 USIM; 3.6.3 ISIM; Part II The Signaling Plane in the IMS; 4 Session Control on the Internet; 4.1 SIP Functionality; 4.1.1 Session Descriptions and SDP; 4.1.2 The Offer/Answer Model; 4.1.3 SIP and SIPS URIs; 4.1.4 User Location; 4.2 SIP Entities; 4.2.1 Forking Proxies; 4.2.2 Redirect Servers; 4.3 Message Format 4.4 The Start Line in SIP Responses: the Status Line4.5 The Start Line in SIP Requests: the Request Line; 4.6 Header Fields; 4.7 Message Body; 4.8 SIP Transactions; 4.9 Message Flow for Session Establishment; 4.10 SIP Dialogs; 4.10.1 Record-Route, Route, and Contact Header Fields; 4.11 Extending SIP; 4.11.1 New Methods; 4.12 Caller Preferences and User Agent Capabilities; 4.13 Reliability of Provisional Responses; 4.14 Preconditions; 4.15 Event Notification; 4.15.1 High Notification Rates; 4.16 Signaling Compression; 4.16.1 SigComp Extended Operations; 4.16.2 Static SIP/SDP Dictionary 4.17 Content Indirection |
| Record Nr. | UNISA-996210543503316 |
|
Camarillo Gonzalo
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| Chichester, England : , : John Wiley & Sons, Ltd, , 2006 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
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Introducción a TCP/IP [[recurso electronico]] : sistemas de transporte de datos / / Luis Miguel Crespo Martínez, Francisco A. Candelas Herías
| Introducción a TCP/IP [[recurso electronico]] : sistemas de transporte de datos / / Luis Miguel Crespo Martínez, Francisco A. Candelas Herías |
| Autore | Crespo Martínez Luis Miguel |
| Edizione | [2a ed.] |
| Pubbl/distr/stampa | Alicante, : Digitalia - Universidad de Alicante, 1998 |
| Descrizione fisica | 6-156 p |
| Collana | Textos Docentes |
| Soggetto topico |
Redes informáticas
Computadoras TCP/IP (Computer network protocol) Internet Protocol multimedia subsystem |
| Soggetto genere / forma | Libros electronicos. |
| ISBN |
1-281-20780-2
9786611207809 1-4416-4725-2 1-4492-0559-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | spa |
| Record Nr. | UNINA-9910339052203321 |
|
Crespo Martínez Luis Miguel
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| Alicante, : Digitalia - Universidad de Alicante, 1998 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Mobile video with mobile IPv6 [[electronic resource] /] / Daniel Minoli
| Mobile video with mobile IPv6 [[electronic resource] /] / Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, Inc., c2012 |
| Descrizione fisica | 1 online resource (298 p.) |
| Disciplina | 006.6/96 |
| Soggetto topico |
Internet Protocol multimedia subsystem
Mobile television TCP/IP (Computer network protocol) |
| ISBN |
1-283-52380-9
9786613836250 1-118-39657-X 1-118-39656-1 1-118-39659-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
MOBILE VIDEO WITH MOBILE IPv6; CONTENTS; PREFACE; ABOUT THE AUTHOR; 1 THE MOBILE USER ENVIRONMENT: SMART PHONES, PORTABLE MEDIA PLAYERS (PMPs), AND TABLETS; 1.1 Introduction; 1.2 Basic MIPv6 Operation; 1.3 Entertainment Video Trends; 1.4 Scope of Investigation; Appendix 1.1A: Statistics; Appendix 1.1B: Bibliography; References; 2 IPv6 BASICS; 2.1 Overview and Motivations; 2.2 Address Capabilities; 2.2.1 IPv4 Addressing and Issues; 2.2.2 IPv6 Address Space; 2.3 IPv6 Protocol Overview; 2.4 IPv6 Tunneling; 2.5 IPsec in IPv6; 2.6 Header Compression Schemes; 2.7 Quality of Service In IPv6
2.8 Migration Strategies to IPv62.8.1 Technical Approaches; 2.8.2 Residential Broadband Services in an IPv6 Environment; 2.8.3 Deployment Opportunities; References; 3 MOBILE IPv6 MECHANISMS; 3.1 Overview; 3.2 Protocol Details; 3.2.1 Generic Mechanisms; 3.2.2 New IPv6 Protocol, Message Types, and Destination Option; 3.2.3 Modifications to IPv6 Neighbor Discovery; 3.2.4 Requirements for Various IPv6 Nodes; 3.2.5 Correspondent Node Operation; 3.2.6 Home Agent Node Operation; 3.2.7 Mobile Node Operation; 3.2.8 Relationship to IPV4 Mobile IPv4; References 4 ADVANCED FEATURES AND FUNCTIONS OF MIPv6-RELATED PROTOCOLS-PART 14.1 Network Mobility Basic Support Protocol; 4.2 Mobile IPv6 Fast Handovers; 4.2.1 General Approach; 4.2.2 3G Networks Approach; 4.3 Multiple Care-of Addresses Registration; 4.3.1 Overview; 4.3.2 MIPv6 Extensions; 4.4 Mobile Node Identifier Option for MIPv6; 4.5 Mobile IPv6 Management Information Base; 4.6 Sockets API For Mobile IPv6; References; 5 ADVANCED FEATURES AND FUNCTIONS OF MIPv6-RELATED PROTOCOLS-PART 2; 5.1 Dual-Stack MIPv6; 5.2 Hierarchical Mobile IPv6; 5.3 Flow Bindings in Mobile IPv6 and NEMO 5.4 Multihoming Approaches in NEMO5.5 Bootstrapping MIPv6 Information; 5.5.1 Basic Approach; 5.5.2 Mobile IPv6 Bootstrapping in Split Scenario; 5.6 Diameter Mobile IPv6; 5.6.1 RFC 5447-Authentication Using AAA Infrastructures; 5.6.2 RFC 5778-Authentication Using the Internet Key Exchange v2; 5.7 Miscellaneous MIPv6 Capabilities; 5.7.1 Mobile IPv6 Vendor Specific Option; 5.7.2 MIPv6 Experimental Messages; 5.7.3 Service Selection for MIPv6; References; 6 PROXY MOBILE IPv6; 6.1 Basic Proxy Mechanisms; 6.1.1 Proxy Mobile IPv6 Protocol Overview; 6.1.2 Signaling Call Flow 6.1.3 PM IPv6 Protocol Security6.1.4 Messages; 6.1.5 Operations; 6.1.6 Summary; 6.2 Transient Binding; 6.2.1 Overview; 6.2.2 Use of Transient Binding Cache Entries; 6.3 Local Mobility Anchor Discovery; 6.4 Localized Routing/Direct Routing; 6.5 IPv4 Support for Proxy Mobile IPv6; 6.5.1 Overview; 6.5.2 IPv4 Home Address Mobility Support; 6.5.3 IPv4 Transport Support; 6.5.4 Localized Routing IPv4 Considerations; Appendix 6A: Network-Based Localized Mobility Management; 6A.1 Background; 6A.2 The Local Mobility Problem; References; 7 SECURITY CONSIDERATIONS FOR MIPv6 7.1 Using IPsec to Protect MIPv6 Signaling Between Mobile Nodes and Home Agents |
| Record Nr. | UNINA-9910130591403321 |
|
Minoli Daniel <1952->
|
||
| Hoboken, N.J., : John Wiley & Sons, Inc., c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Mobile video with mobile IPv6 / / Daniel Minoli
| Mobile video with mobile IPv6 / / Daniel Minoli |
| Autore | Minoli Daniel <1952-> |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, Inc., c2012 |
| Descrizione fisica | 1 online resource (298 p.) |
| Disciplina | 006.6/96 |
| Soggetto topico |
Internet Protocol multimedia subsystem
Mobile television TCP/IP (Computer network protocol) |
| ISBN |
9786613836250
9781283523806 1283523809 9781118396575 111839657X 9781118396568 1118396561 9781118396599 1118396596 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
MOBILE VIDEO WITH MOBILE IPv6; CONTENTS; PREFACE; ABOUT THE AUTHOR; 1 THE MOBILE USER ENVIRONMENT: SMART PHONES, PORTABLE MEDIA PLAYERS (PMPs), AND TABLETS; 1.1 Introduction; 1.2 Basic MIPv6 Operation; 1.3 Entertainment Video Trends; 1.4 Scope of Investigation; Appendix 1.1A: Statistics; Appendix 1.1B: Bibliography; References; 2 IPv6 BASICS; 2.1 Overview and Motivations; 2.2 Address Capabilities; 2.2.1 IPv4 Addressing and Issues; 2.2.2 IPv6 Address Space; 2.3 IPv6 Protocol Overview; 2.4 IPv6 Tunneling; 2.5 IPsec in IPv6; 2.6 Header Compression Schemes; 2.7 Quality of Service In IPv6
2.8 Migration Strategies to IPv62.8.1 Technical Approaches; 2.8.2 Residential Broadband Services in an IPv6 Environment; 2.8.3 Deployment Opportunities; References; 3 MOBILE IPv6 MECHANISMS; 3.1 Overview; 3.2 Protocol Details; 3.2.1 Generic Mechanisms; 3.2.2 New IPv6 Protocol, Message Types, and Destination Option; 3.2.3 Modifications to IPv6 Neighbor Discovery; 3.2.4 Requirements for Various IPv6 Nodes; 3.2.5 Correspondent Node Operation; 3.2.6 Home Agent Node Operation; 3.2.7 Mobile Node Operation; 3.2.8 Relationship to IPV4 Mobile IPv4; References 4 ADVANCED FEATURES AND FUNCTIONS OF MIPv6-RELATED PROTOCOLS-PART 14.1 Network Mobility Basic Support Protocol; 4.2 Mobile IPv6 Fast Handovers; 4.2.1 General Approach; 4.2.2 3G Networks Approach; 4.3 Multiple Care-of Addresses Registration; 4.3.1 Overview; 4.3.2 MIPv6 Extensions; 4.4 Mobile Node Identifier Option for MIPv6; 4.5 Mobile IPv6 Management Information Base; 4.6 Sockets API For Mobile IPv6; References; 5 ADVANCED FEATURES AND FUNCTIONS OF MIPv6-RELATED PROTOCOLS-PART 2; 5.1 Dual-Stack MIPv6; 5.2 Hierarchical Mobile IPv6; 5.3 Flow Bindings in Mobile IPv6 and NEMO 5.4 Multihoming Approaches in NEMO5.5 Bootstrapping MIPv6 Information; 5.5.1 Basic Approach; 5.5.2 Mobile IPv6 Bootstrapping in Split Scenario; 5.6 Diameter Mobile IPv6; 5.6.1 RFC 5447-Authentication Using AAA Infrastructures; 5.6.2 RFC 5778-Authentication Using the Internet Key Exchange v2; 5.7 Miscellaneous MIPv6 Capabilities; 5.7.1 Mobile IPv6 Vendor Specific Option; 5.7.2 MIPv6 Experimental Messages; 5.7.3 Service Selection for MIPv6; References; 6 PROXY MOBILE IPv6; 6.1 Basic Proxy Mechanisms; 6.1.1 Proxy Mobile IPv6 Protocol Overview; 6.1.2 Signaling Call Flow 6.1.3 PM IPv6 Protocol Security6.1.4 Messages; 6.1.5 Operations; 6.1.6 Summary; 6.2 Transient Binding; 6.2.1 Overview; 6.2.2 Use of Transient Binding Cache Entries; 6.3 Local Mobility Anchor Discovery; 6.4 Localized Routing/Direct Routing; 6.5 IPv4 Support for Proxy Mobile IPv6; 6.5.1 Overview; 6.5.2 IPv4 Home Address Mobility Support; 6.5.3 IPv4 Transport Support; 6.5.4 Localized Routing IPv4 Considerations; Appendix 6A: Network-Based Localized Mobility Management; 6A.1 Background; 6A.2 The Local Mobility Problem; References; 7 SECURITY CONSIDERATIONS FOR MIPv6 7.1 Using IPsec to Protect MIPv6 Signaling Between Mobile Nodes and Home Agents |
| Record Nr. | UNINA-9910827770003321 |
|
Minoli Daniel <1952->
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| Hoboken, N.J., : John Wiley & Sons, Inc., c2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Voice over LTE : EPS and IMS networks / / André Perez
| Voice over LTE : EPS and IMS networks / / André Perez |
| Autore | Perez Andre |
| Pubbl/distr/stampa | Hoboken, NJ : , : ISTE Ltd/John Wiley and Sons Inc, , 2013 |
| Descrizione fisica | 1 online resource (254 p.) |
| Disciplina | 621.38456 |
| Collana | Networks and telecommunications series |
| Soggetto topico |
Long-Term Evolution (Telecommunications)
Internet Protocol multimedia subsystem |
| ISBN |
1-118-64884-6
1-118-64882-X 1-118-64883-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
""Cover ""; ""Titel Page ""; ""Contents ""; ""Preface ""; ""Acronyms ""; ""Chapter 1. The EPS Network ""; ""1.1. Architecture ""; ""1.1.1. Access network ""; ""1.1.2. Core network ""; ""1.1.3. Protocol architecture ""; ""1.2. Signaling protocols ""; ""1.2.1. NAS protocol ""; ""1.2.2. RRC protocol ""; ""1.2.3. S1-AP protocol ""
""1.2.4. X2-AP protocol """"1.2.5. GTPv2-C protocol ""; ""1.3. Procedures ""; ""1.3.1. Attachment procedure ""; ""1.3.2. Location update ""; ""1.3.3. Bearer activation ""; ""1.3.4. Handover procedure ""; ""Chapter 2. The LTE Interface ""; ""2.1. Structure of the radioelectric interface "" ""2.2. Data link layer """"2.2.1. PDCP protocol ""; ""2.2.2. RLC protocol ""; ""2.2.3. MAC protocol ""; ""2.3. Physical layer ""; ""2.3.1. Frequency range ""; ""2.3.2. Spatial multiplexing ""; ""2.3.3. Time multiplexing ""; ""2.3.4. Physical signals and channels ""; ""2.4. Procedures "" ""2.4.1. Cell searching """"2.4.2. System information ""; ""2.4.3. Random access ""; ""2.4.4. Data scheduling ""; ""2.4.5. Re-transmission in the case of error ""; ""Chapter 3. The CSFB Function ""; ""3.1. Reminder about NGN ""; ""3.1.1. Architecture of NGN ""; ""3.1.2. Signaling transport "" ""3.1.3. Transport of voice data """"3.2. The CSFB function ""; ""3.3. Procedures ""; ""3.3.1. Attachment ""; ""3.3.2. Tracking area update ""; ""3.3.3. Outgoing call ""; ""3.3.4. Incoming call ""; ""Chapter 4. SIP and SDP Protocols ""; ""4.1. Entities ""; ""4.2. Identities "" ""4.3. Structure of SIP "" |
| Record Nr. | UNINA-9910139019903321 |
|
Perez Andre
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| Hoboken, NJ : , : ISTE Ltd/John Wiley and Sons Inc, , 2013 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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