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IP-Based Next-Generation Wireless Networks: Systems, Architectures, and Protocols



IP-Based Next-Generation Wireless Networks: Systems, Architectures, and Protocols

Jyh-Cheng Chen, Tao Zhang

ISBN: 978-0-471-47826-3 February 2004 440 Pages

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  • An ideal starting point for anyone wanting to learn about next generation wireless networks
  • Gives important insights into the design of wireless IP networks
  • Illustrates the standards and network architectures defined by leading standards bodies (including MWIF, 3GPP and 3GPP2)
  • Discusses protocols in four key areas: signaling, mobility, quality of service, and security
  • The authors have a good deal of experience in this field, and have many patents pending in the area of wireless networking



1. Introduction.

1.1 Evolution of Wireless Networks.

1.1.1 Wireless Local Area Networks.

1.1.2 Public Wide-Area Wireless Networks.

1.2 Evolution of Public Mobile Services.

1.2.1 First Wave of Mobile Data Services: Text-Based Instant Messaging.

1.2.2 Second Wave of Mobile Data Services: Low-Speed Mobile Internet Services.

1.2.3 Current Wave of Mobile Data Services: High-Speed and Multimedia Mobile Internet Services.

1.3 Motivations for IP-Based Wireless Networks.

1.4 3GPP, 3GPP2, and IETF.

1.4.1 3GPP.

1.4.2 3GPP2.

1.4.3 IETF.

1.5 Organization of the Book.


2. Wireless IP Network Architectures.

2.1 3GPP Packet Data Networks.

2.1.1 Network Architecture.

2.1.2 Protocol Reference Model.

2.1.3 Packet Data Protocols, Bearers, and Connections for Packet Services.

2.1.4 Packet Data Protocol (PDP) Context.

2.1.5 Steps for a Mobile to Access 3GPP Packet-Switched Services.

2.1.6 User Packet Routing and Transport.

2.1.7 Configuring PDP Addresses on Mobile Stations.

2.1.8 GPRS Attach Procedure.

2.1.9 PDP Context Activation and Modification.

2.1.10 Radio Access Bearer Assignment.

2.1.11 Packet-Switched Domain Protocol Stacks.

2.1.12 Accessing IP Networks through PS Domain.

2.2 3GPP2 Packet Data Networks.

2.2.1 3GPP2 Network Architecture.

2.2.2 3GPP2 Packet Data Network Architecture.

2.2.3 Protocol Reference Model.

2.2.4 Access to 3GPP2 Packet Data Network.

2.2.5 User Packet Routing and Transport.

2.2.6 Protocol Stacks for Packet Data Services.

2.3 MWIF All-IP Mobile Networks.

2.3.1 Network Architectures.

2.3.2 Access to MWIF Networks.

2.3.3 Session Management.


3. IP Multimedia Subsystems and Application-Level Signaling.

3.1 Signaling in IP Networks.

3.1.1 Session Initiation Protocol (SIP).

3.1.2 Session Description Protocol (SDP).

3.2 3GPP IP Multimedia Subsystem (IMS).

3.2.1 IMS Architecture.

3.2.2 Mobile Station Addressing for Accessing the IMS.

3.2.3 Reference Interfaces.

3.2.4 Service Architecture.

3.2.5 Registration with the IMS.

3.2.6 Deregistration with the IMS.

3.2.7 End-to-End Signaling Flows for Session Control.

3.3 3GPP2 IP Multimedia Subsystem (IMS). 


4. Mobility Management.

4.1 Basic Issues in Mobility Management.

4.1.1 Impact of Naming and Addressing on Mobility Management.

4.1.2 Location Management.

4.1.3 Packet Delivery to Mobile Destinations.

4.1.4 Handoffs.

4.1.5 Roaming.

4.2 Mobility Management in IP Networks.

4.2.1 Naming and Addressing of IP Terminals.

4.2.2 Mobile IPv4.

4.2.3 MIPv4 Regional Registration.

4.2.4 Paging Extensions to Mobile IPv4.

4.2.5 Mobile IPv6.

4.2.6 SIP-Based Mobility Management.

4.2.7 Cellular IP.

4.2.8 HAWAII.

4.3 Mobility Management in 3GPP Packet Networks.

4.3.1 Packet Mobility Management (PMM) Context and States.

4.3.2 Location Management for Packet-Switched Services.

4.3.3 Routing Area Update.

4.3.4 Serving RNS Relocation.

4.3.5 Hard Handoffs.

4.3.6 Paging Initiated by Packet-Switched Core Network.

4.3.7 Service Request Procedure.

4.3.8 Handoff and Roaming Between 3GPP and Wireless LANs.

4.4 Mobility Management in 3GPP2 Packet Data Networks.

4.4.1 Packet Data Service States.

4.4.2 Location Management for Packet Data Services.

4.4.3 Handoffs for Supporting Packet Data Services.

4.4.4 Fast Inter-PDSN Handoff.

4.4.5 Paging and Sending User Data to a Dormant Mobile.

4.5 Mobility Management in MWIF Networks.

4.5.1 Handoffs.

4.6 Comparison of Mobility Management in IP, 3GPP, and 3GPP2 Networks.


5. Security.

5.1 Introduction.

5.1.1 Different Facets of Security.

5.1.2 Security Attacks.

5.1.3 Cryptography.

5.1.4 Public-Key Infrastructure (PKI).

5.2 Internet Security.

5.2.1 IP Security (IPsec).

5.2.2 Authentication, Authorization, and Accounting (AAA).

5.3 Security in Wireless Networks.

5.4 Security in IS-41.

5.4.1 Secret Keys.

5.4.2 Authentication.

5.4.3 Privacy.

5.5 Security in GSM.

5.6 Security in GPRS.

5.7 Security in 3GPP.

5.7.1 Security Principles.

5.7.2 Security Architecture.

5.7.3 Network Access Security.

5.7.4 Network Domain Security.

5.7.5 Summary.

5.8 Security in 3GPP2.

5.8.1 Network Access Security.

5.8.2 Network Domain Security.


6. Quality of Service.

6.1 Internet QoS.

6.1.1 Integrated Services (Int-Serv).

6.1.2 Differentiated Services (Diff-Serv).

6.1.3 Comparison of Int-Serv and Diff-Serv.

6.1.4 Policy-Based QoS Management.

6.2 QoS Challenges in Wireless IP Networks.

6.3 QoS in 3GPP.

6.3.1 UMTS QoS Architecture.

6.3.2 UMTS QoS Management.

6.3.3 UMTS QoS Classes.

6.3.4. QoS Attributes (QoS Profile).

6.3.5 Management of End-to-End IP QoS.

6.4 QoS in 3GPP2.

6.4.1 3GPP2 QoS Architecture.

6.4.2 3GPP2 QoS Management.

6.4.3 3GPP2 QoS Classes.

6.4.4 QoS Attributes (QoS Profile).

6.4.5 Management of End-to-End IP QoS.



"…a good addition to the reference shelf for wireless network architecture. Its appearance is very timely, and workers in this area of wireless IP networks will profit by its study." (Computing, April 26, 2004)

"This work is appropriate for anyone with a solid understanding of traditional computer networking concepts, including IT professionals, graduate and undergraduate students.” (E-STREAMS, August 2004)

"The book captures the current state of affairs with the respect to protocols related to or influenced by wireless technologies." (IEEE Network, May/June 2004)