The 3G IP Multimedia Subsystem (IMS): Merging the Internet and
the Cellular Worlds, Second Edition is an updated version of
the best-selling guide to this exciting technology that will merge
the Internet with the cellular world, ensuring the availability of
Internet technologies such as the web, email, instant messaging,
presence and videoconferencing nearly everywhere. In this
thoroughly revised overview of the IMS and its technologies, goals,
history, vision, the organizations involved in its standardization
and architecture, the authors first describe how each technology
works on the Internet and then explain how the same technology is
adapted to work in the IMS, enabling readers to take advantage of
any current and future Internet service.
Key features of the Second Edition include:
* New chapter on Next Generation Networks, including an overview
on standardization, the architecture, and PSTN/ISDN simulation
services.
* Fully updated chapter on the Push-to-talk over Cellular (PoC)
service, covering the standardization in the Open Mobile Alliance
(OMA), architecture, PoC session types, user plane, and the Talk
Burst Control Protocol.
* Several expanded sections, including discussion of the role of
the Open Mobile Alliance in the standardization process, IPv4
support in IMS, a description of the IMS Application Layer Gateway
and the Transition Gateway, and a description of the presence data
model.
* Updated material on the presence service, session-based instant
messages with the Message Session Relay Protocol (MSRP), and the
XML Configuration Access Protocol (XCAP).
* Supported by a companion website on which instructors and
lecturers can find electronic versions of the figures.
Engineers, programmers, business managers, marketing
representatives, and technically aware users will all find this to
be an indispensable guide to IMS and the business model behind
it.
Autorentext
Gonzalo Camarillo leads the Advanced Signalling Research Laboratory of Ericsson in Helsinki, Finland. He is an active participant in the IETF, where he has authored and coauthored several specifications used in the IMS. In particular, he is a co-author of themain SIP specification, RFC 3261. In addition, he co-chairs the IETF SIPPING working group, which handles the requirements from 3GPP and 3GPP2 related to SIP, and the IETF HIP (Host Identity Protocol) working group, which deals with lower-layer mobility and security. He is the Ericsson representative in the SIP Forum and is a regular speaker at different industry conferences. During his stay as a visitor researcher at Columbia University in New York, USA, he published a book entitled "SIP Demystified". Gonzalo received an M.Sc. degree in Electrical Engineering from Universidad Politecnica de Madrid, Spain, and another M.Sc. degree (also in Electrical Engineering) from the Royal Institute of Technology in Stockholm, Sweden. He is currently continuing his studies as a Ph.D. candidate at Helsinki University of Technology, in Finland.
Miguel A. García-Martín is a Principal Research Engineer in the Networking Technologies Laboratory of the Nokia Research Center in Helsinki, Finland. Before joining Nokia Miguel was working for Ericsson in Spain, and then Ericsson in Finland. Miguel is an active participant of the IETF, and for a number of years has been a key contributor in 3GPP. Lately Miguel has also been participating in the specification of NGN in ETSI. In the IETF, he has authored and co-authored several specifications related to the IMS. In 3GPP, he has been a key contributor to the development of the IMS standard. Miguel is also a regular speaker at different industry conferences. Miguel received a B. Eng. degree in Telecommunications Engineering from Universidad de Valladolid, Spain.
Klappentext
The 3G IP Multimedia Subsystem (IMS): Merging the Internet and the Cellular Worlds, Second Edition is an updated version of the best-selling guide to this exciting technology that will merge the Internet with the cellular world, ensuring the availability of Internet technologies such as the web, email, instant messaging, presence and videoconferencing nearly everywhere.
In this thoroughly revised overview of the IMS and its technologies, goals, history, vision, the organizations involved in its standardization and architecture, the authors first describe how each technology works on the Internet and then explain how the same technology is adapted to work in the IMS, enabling readers to take advantage of any current and future Internet service.
Key features of the Second Edition include:
- New chapter on Next Generation Networks, including an overview on standardization, the architecture, and PSTN/ISDN simulation services.
- Fully updated chapter on the Push-to-talk over Cellular (PoC) service, covering the standardization in the Open Mobile Alliance (OMA), architecture, PoC sessions types, user plane, and the Talk Burst Control Protocol
- Several expanded sections, including discussion of the role of the Open Mobile Alliance in the standardization process, IPv4 support in IMS, a description of the IMS Application Layer Gateway and the Transition Gateway, and a description of the presence data model.
- Updated material on the presence service, session-based instant messages with the Message Session Relay Protocol (MSRP), and the XML Configuration Access Protocol (XCAP).
- Supported by a companion website on which instructors and lecturers can find electronic versions of the figures.
Engineers, programmers, business managers, marketing representatives, and techncially aware users will all find this to be an indispensable guide to IMS and the business model behind it.
Inhalt
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. 2.3 Third Generation Partnership Project. 2.4 Third Generation Partnership Project 2. 2.5 IETF-3GPP/3GPP2Collaboration. 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. 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…