Intro -- Contents -- Preface xxi -- Acknowledgments xxv -- 1 Wireless IP 1 -- 1.1 Introduction 1 -- 1.2 Wireless IP 1 -- 1.3 Challenges for the Heterogeneous Environment 4 -- 1.4 QoS and Resource Management 5 -- 1.5 Seamless Mobility and IP 10 -- 1.6 Ubiquity and Dynamic Ad Hoc Networks 11 -- 1.7 Security Considerations 12 -- 1.8 Concluding Remarks 13 -- Part I: Wireless IP Evolution 15 -- 2 Evolution to Wireless IP 17 -- 2.1 Introduction 17 -- 2.2 Motivation for High Data Rates and IP 18 -- 2.3 Radio Interface Technologies 20 -- 2.4 Cost Advantages of 3G Wireless IP 22 -- 2.5 Technology Trade-Offs for 3G Voice and Data 23 -- 2.6 Other Market Segments 24 -- 2.7 Open Application Platforms for Wireless Devices 25 -- 2.8 Concluding Remarks 26 -- 3 Wide-Area Wireless IP Connectivity with the General Packet Radio Service 27 -- 3.1 Introduction 27 -- 3.2 GPRS Overview 28 -- 3.3 Attach Procedure 34 -- 3.4 Setting Up PDP Contexts 37 -- 3.5 Mobility Handling 41 -- 3.6 Summary 47 -- 4 3G Networks and Standards 49 -- 4.1 Introduction 49 -- 4.2 Evolution from 2G to 3G 50 -- 4.3 3G and Its Releases 51 -- 4.4 3G Deployment Scenario 59 -- 4.5 Conclusion: Impact on the Existing Network 61 -- 5 UTRAN Evolution to an All-IP Architecture 67 -- 5.1 Introduction 67 -- 5.2 3GPP Reference Model 68 -- 5.3 UTRAN Overview 72 -- 5.4 UTRAN Transport Network 74 -- 5.5 Comparison of IP-over-SONET and IP-over-ATM 82 -- 5.6 Summary 84 -- 6 Beyond 3G: 4G IP-Based Mobile Networks 87 -- 6.1 Introduction 87 -- 6.2 Drivers for the 4G Architecture 88 -- 6.3 4G Architecture and Research Issues 92 -- 6.4 4G Research Efforts 94 -- 6.5 The NTRG 4G Test Bed 96 -- 6.6 Concluding Remarks 102 -- 7 Ad Hoc Networks: A Mobile IPv6 Viewpoint 105 -- 7.1 Introduction 105 -- 7.2 Mobility of Ad Hoc Devices 113 -- 7.3 Ad Hoc Mobility 114 -- 7.4 Macro-Mobility: Mobile IP 117.

7.5 Micro-Mobility 119 -- 7.6 A Mechanism to Provide Global Connectivity for 7.6 Ad Hoc Devices 121 -- 7.7 Summary 128 -- Part II: QoS and Resource Management 131 -- 8 Differentiated and Integrated Services for IP Applications over UMTS 133 -- 8.1 Introduction 133 -- 8.2 All-IP End-to-End Scenarios 138 -- 8.3 UMTS Service Classes and Parameters 144 -- 8.4 Suitability of Existing Integrated Services over RANs 147 -- 8.5 Proposed Integrated Services Parameters and Mapping 150 -- 8.6 Numerical Examples 154 -- 8.7 Conclusions 159 -- 9 Provisioning QoS in 3G Networks with RSVP Proxy 161 -- 9.1 RSVP 163 -- 9.2 Performance-Enhancing Proxies 167 -- 9.3 Enabling End-to-End QoS for Packet Switched Services 9.3 in UMTS 168 -- 9.4 Simulation 172 -- 9.5 A Short Summary of Related Standards 175 -- 9.6 Summary 176 -- 10 QoS Support for VoIP over Wireless 179 -- 10.1 Introduction 179 -- 10.2 Factors Influencing the Speech Quality in a Wireless 10.2 VoIP System 183 -- 10.3 Related Work 188 -- 10.4 QoS for Wireless VoIP Using Selective Packet 10.4 Prioritization 191 -- 11 Delivering QoS in Mobile Ad Hoc IP Networks 203 -- 11.1 Introduction 203 -- 11.2 Mobile Ad Hoc Networks 205 -- 11.3 QoS Models 207 -- 11.4 QoS Signaling 216 -- 11.5 QoS Routing 218 -- 11.6 Future Directions 222 -- 11.7 Summary 224 -- 12 Radio Access Control in Wireless IP Networks 227 -- 12.1 Introduction 227 -- 12.2 Overview of the Radio Access Control Problem 229 -- 12.3 CAC 231 -- 12.4 PAC 248 -- 12.5 Concluding Remarks 253 -- 13 RRM in Multicarrier AllocationŒBased Systems 255 -- 13.1 Introduction 255 -- 13.2 A Multidimensional Concept of Radio Channels in 13.2 Future Wireless IP Networks 257 -- 13.3 The Impact of MCA Systems on Wireless IP Networks 260 -- 13.4 System Model and Performance Measures 262 -- 13.5 Frequency Diversity for an MCA System 264.

13.6 Power Control for an MCA System 267 -- 13.7 Carrier-Grouping for an MCA System 272 -- 13.8 Concluding Remarks 275 -- Acknowledgments 275 -- Part III: TCP/IP in Wireless IP Networks 277 -- 14 TCP/IP over Next-Generation Broadband Wireless Access Networks 279 -- 14.1 Introduction 279 -- 14.2 TCP Background 281 -- 14.3 Design Features for 2G-BWA Networks 284 -- 14.4 End-to-End Performance 289 -- 14.5 Results 295 -- 14.6 Concluding Remarks 299 -- 15 Reliable Multicast Congestion Control for TCP/IP in Hybrid Networks 303 -- 15.1 Introduction 303 -- 15.2 Background and Related Studies 305 -- 15.3 Reliable Multicast Congestion Control Schemes 307 -- 15.4 Performance Evaluation 316 -- 15.5 Summary and Future Enhancement: Use of 15.5 Belief Functions 327 -- 15.6 Summary 330 -- Acknowledgments 330 -- Part IV: Handoff, Mobility, and Signaling 333 -- 16 Mobile IP: A Challenge in the Mobile World 335 -- 16.1 Introduction 335 -- 16.2 The Need for Mobile IP 336 -- 16.3 The Mobile IP in Wireless Networks: 16.3 A Simple Architecture 338 -- 16.4 Open Issues in Mobile IPv4 343 -- 16.5 Mobile IPv6 346 -- 16.6 Possible Solutions for Micro-Mobility in Mobile 16.6 IP Networks 350 -- 16.7 Conclusions and Future Directions 355 -- 17 IP Micro-Mobility Management Using Host-Based Routing 359 -- 17.1 Introduction and Background 359 -- 17.2 HBR Overview 365 -- 17.3 Performance Issues 373 -- 17.4 Performance Results 376 -- 17.5 Conclusions and Future Directions 388 -- 18 Handoff Initiation in Mobile IPv6 393 -- 18.1 Introduction 393 -- 18.2 Mathematical Models 399 -- 18.3 Experimental Results in Test Bed 403 -- 18.4 Optimizing Protocol Configuration 408 -- 18.5 Building Wide Experiment 410 -- 18.6 Conclusions and Future Directions 412 -- 19 Location Independent Network Architecture and Mobility Handling in IPv6 415 -- 19.1 Introduction 415 -- 19.2 LINA 417.

19.3 LIN6: An Application of LINA to IPv6 422 -- 19.4 Communication Example of LIN6 427 -- 19.5 Implementation 431 -- 19.6 Protocol Evaluation of Mobility Handling 432 -- 19.7 Comparison of LIN6 and Mobile IPv6 437 -- 19.8 Summary 438 -- 20 Distributed Signaling and Routing Protocols in iCAR 441 -- 20.1 Introduction 441 -- 20.2 An Overview of the iCAR System 443 -- 20.3 Signaling and Routing Protocol 446 -- 20.4 Simulation Results and Discussion 452 -- 20.5 Conclusion and Future Work 455 -- 21 Reducing Link and Signaling Costs in Mobile IP 457 -- 21.1 Introduction 457 -- 21.2 The New Cost-Efficient Scheme 460 -- 21.3 Performance Evaluation 464 -- 21.4 Summary 469 -- 22 Enabling WAP Handoffs Between GSM and IEEE 802.11b Bearers with Mobile IP 471 -- 22.1 Introduction 471 -- 22.2 Reinventing in the Name of Wireless 473 -- 22.3 Converging in the Name of Progress 474 -- 22.4 Experimental Setup 478 -- 22.5 Experimental Results 479 -- 22.6 Mobile WAP Network Components 482 -- 22.7 Summary 483 -- 23 Interworking and Handover Mechanisms Between WLAN and UMTS 485 -- 23.1 Introduction 485 -- 23.2 Interworking System Architectures 486 -- 23.3 Interconnection Between 3G-SGSN and WLAN 23.3 AP by Emulating RAN 487 -- 23.4 Interconnection Between GGSN and WLAN 23.4 AP by Emulating 3G-SGSN 491 -- 23.5 Interconnection Between UMTS and WLAN 23.4 Through VAP 492 -- 23.6 Interconnection Between UMTS and WLAN 23.4 Through Mobility Gateway 494 -- 23.7 Interconnection Between UMTS and WLAN Based on 23.4 Mobile IP 497 -- 23.8 Handover Between IEEE 802.11 and UMTS 498 -- 23.9 Handover Aspects Between IEEE 802.11 WLAN and 23.9 UMTS Based on Mobile IP 499 -- 23.10 Conclusions 501 -- 24 Location-Based Push Architectures for the Mobile Internet 503 -- 24.1 Introduction 503 -- 24.2 Push for Mobile Networks 504 -- 24.3 Technical Aspects 507 -- 24.4 Realization 518.

24.5 Summary 521 -- 24.6 Conclusions and Future Directions 522 -- 25 Signaling Network Architecture in Wireless IP Overlay Networks 525 -- 25.1 Introduction 525 -- 25.2 Network Model 527 -- 25.3 Functions of Signaling Network 531 -- 25.4 Signaling and Location Management 532 -- 25.5 Mobility Management 534 -- 25.6 Basic Issues 537 -- 25.7 Concluding Remarks 540 -- Part V: Services and Applications 543 -- 26 Mobile Content Distribution for Wireless IP Networks 545 -- 26.1 Introduction 545 -- 26.2 Content Distribution in Wireline Web 547 -- 26.3 Content Distribution in Wireless IP Networks 553 -- 26.4 Discussions 555 -- 26.5 Concluding Remarks 556 -- 27 Perceptual QoS for Wireless and IP Networks 559 -- 27.1 Introduction 559 -- 27.2 QoS 560 -- 27.3 Simulation Model 562 -- 27.4 Video over WLAN 563 -- 27.5 UMTS Speech Quality 565 -- 27.6 Concluding Remarks 568 -- 28 Transcoding for the Mobile Internet: The Case of Video Transcoding 571 -- 28.1 Introduction 571 -- 28.2 Adaptation Techniques for Multimedia 28.2 Content Distribution 572 -- 28.3 Related Works 576 -- 28.4 Standardization Issues 576 -- 28.5 Video Transcoding System Architecture and Control 28.2 Mechanism 577 -- 28.6 Features of the Video Transcoding System 582 -- 28.7 Concluding Remarks 584 -- 29 On Security in Wireless and IP Networks 587 -- 29.1 Introduction 587 -- 29.2 Cellular Networks Security 588 -- 29.3 Link Layer Security 595 -- 29.4 TCP/IPsec 599 -- 29.5 Security Algorithms 607 -- 29.6 DDoS, Firewalls, and Private Addressing 611 -- 29.7 Concluding Remarks 616 -- About the Editors 619 -- Index 623.

Written by today's leading experts in industry and academia, Wireless IP and Building the Mobile Internet is the first book to take a comprehensive look at the convergence of wireless and Internet technologies that are giving rise to the mobile wireless Internet. This cutting-edge resource provides you with an overview of all the elements required to understand and develop future IP based wireless multimedia communications and services.

Description based on publisher supplied metadata and other sources.

Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2018. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.