ISBN-13: 9781905209477 / Angielski / Twarda / 2007 / 636 str.
ISBN-13: 9781905209477 / Angielski / Twarda / 2007 / 636 str.
Internet Protocols (IP) networks have, for a number of years, provided the basis for modern communication channels. However, the control and management of these networks needs to be extended so that the required Quality of Service can be achieved. Pujolle starts by considering the various aspects of Quality of Service and goes on to look at the evolution of IP networks. The topics include the improvement of addressing in IP version 6, enhanced security, the adaptation of video for the Internet and voice over IP. Information about new generations of IP networks is given, covering the future of pervasive networks (that is networks that are always present), Wi-Fi, the control of mobility and improved Quality of Service, sensor networks, inter-vehicle communication and optical networks.
Part 1. Control of IP Networks 1
Chapter 1. Introduction 3
Guy PUJOLLE
1.1. Introduction 3
1.2. Signaling 4
1.3. Flow control and management techniques 7
1.4. Policy–based management 14
1.5. Security 15
1.6. Mobile network control 18
1.7. Optical network control 19
1.8. Conclusion 20
1.9. Bibliography 20
Chapter 2. Quality of Service: The Basics 23
Benoît CAMPEDEL
2.1. Introduction to Quality of Service 23
2.2. Network parameters 27
2.3. Overview of the basic mechanisms on IP 36
2.4. Overview 47
Chapter 3. Quality of Service: Mechanisms and Protocols 49
Stéphane LOHIER
3.1. QoS and IP 49
3.2. IntServ (RSVP) model 54
3.3. The DiffServ model 64
3.4. MPLS architecture 71
3.5. QoS at level 2 75
Chapter 4. DiffServ: Differentiated Quality of Service 81
Idir FODIL
4.1. Introduction 81
4.2. Principles of DiffServ 82
4.3. Structure 83
4.4. DiffServ in edge routers 84
4.5. Conclusion 88
4.6. Bibliography 88
Chapter 5. Quality of Service in Wi–Fi 91
Yacine GHAMRI–DOUDANE, Anelise MUNARETTO and Hakima CHAOUCHI
5.1. Introduction 91
5.2. Packets transmission with CSMA/CA access method 92
5.3. MAC level QoS in IEEE 802.11 96
5.4. Summary and conclusion 108
5.5. Bibliography 109
Chapter 6. Quality of Service: Policy–based Management 111
Thi Mai Trang NGUYEN
6.1. Introduction to policy–based management in IP networks 111
6.2. Architecture and protocols for policy–based management 113
6.3. The COPS protocol 114
6.4. COPS–RSVP 117
6.5. COPS–PR 119
6.6. SNMP 123
6.7. Conclusion 124
6.8. Bibliography 124
Chapter 7. Inter–domain Quality of Service 127
Mauro FONSECA
7.1. Introduction 127
7.2. Goal 128
7.3. Motivations for the use of mobile agents to offer inter–domain QoS 131
7.4. Negotiation of inter–domain QoS 133
7.5. An architecture for inter–domain negotiation 135
7.6. Conclusion 147
7.7. Bibliography 148
Part 2. The Evolution of IP Networks 151
Chapter 8. An Introduction to the Evolution in the World of IP 153
Guy PUJOLLE
8.1. Introduction 153
8.2. Great evolutions 154
8.3. Quality of Service 156
8.4. IP mobility 157
8.5. IP multicast 162
8.6. VPN IP 164
8.7. Filtering 168
8.8. Intelligent IP networks 170
8.9. Conclusion 171
8.10. Bibliography 171
Chapter 9. IPv6, the New Internet Generation 175
Idir FODIL
9.1. Introduction 175
9.2. IPv6 characteristics 176
9.3. IPv6 packet header 177
9.4. IPv6 addressing 178
9.5. Transition from IPv4 Internet to IPv6 Internet 181
Chapter 10. Addressing in IP Networks 193
Julien ROTROU and Julien RIDOUX
10.1. Introduction 193
10.2. IPv4 addressing 194
10.3. The future version of the IP protocol: IPv6 203
10.4. Conclusion 215
10.5. Bibliography 216
Chapter 11. SLA Driven Network Management 219
Issam AIB and Belkacem DAHEB
11.1. Introduction 219
11.2. Requirements for service driven management 219
11.3. The SLA 221
11.4. Specification of level of service (SLS) 223
11.5. Service contract chains 226
11.6. SLA types 227
11.7. SLA management (SLM) 228
11.8. SLA modeling and representation 231
11.9. Research projects and activities 233
11.10. Conclusion 244
11.11. Abbreviations and acronyms 244
11.12. Bibliography 245
Chapter 12. New Approaches for the Management and Control of IP Networks 247
Yacine GHAMRI–DOUDANE
12.1. Introduction 247
12.2. Network management policies 248
12.3. Policy–based management framework 250
12.4. COPS protocol 254
12.5. Policy domains 257
12.6. Information modeling 260
12.7. Conclusion 263
12.8. Bibliography 264
Chapter 13. Internet Security 267
Vedat YILMAZ
13.1. Introduction 267
13.2. Elements of security 267
13.3. User data security 270
13.4. Internet infrastructure security 277
13.5. Internet access infrastructure security 283
13.6. Summary and conclusion 289
13.7. Bibliography 290
Chapter 14. Security Protocols for the Internet 293
Idir FODIL
14.1. Introduction 293
14.2. IPSec 294
14.3. IEEE 802.1x 300
14.4. Bibliography 304
Chapter 15. Secured Infrastructure for Ambient Virtual Offices 307
Laurent CIARLETTA and Abderrahim BENSLIMANE
15.1. Introduction to ambient Internet and to its needs in terms of security 307
15.2. Virtual Private Smart Spaces (VPSS) 309
15.3. An infrastructure secured by ambient virtual offices 315
15.4. Conclusion and perspectives 324
15.5. Bibliography 326
Chapter 16. Smart Card Security 329
Vincent GUYOT
16.1. Introduction 329
16.2. History 330
16.3. Different parts of a smart card 330
16.4. Smart card communication 333
16.5. A secure component 339
16.6. Smart card alternatives. 340
16.7. Smart card security advantages 341
16.8. Network security 347
16.9. Conclusion 349
16.10. Bibliography 349
Chapter 17. Video Adaptation on the Internet 353
Nadjib ACHIR
17.1. Introduction 353
17.2. Error control 355
17.3. Point–to–point congestion and flow control 359
17.4. Multicast congestion and flow control 362
17.5. An example of video adaptation: multi–object video transmission 367
17.6. Conclusion 377
17.7. Bibliography 378
Chapter 18. Voice over IP 383
Guy PUJOLLE
18.1. Introduction 383
18.2. Telephonic application in an IP context 384
18.3. Audio coders 385
18.4. Telephony over IP 387
18.5. Signaling protocols 389
18.6. QoS 400
18.7. Corporate IP telephony networks 412
18.8. Implementation of telephony over IP 413
18.9. Telephonic IP applications for the general public 414
18.10. Telephony–data integration 414
18.11. Conclusion 415
18.12. Bibliography 415
Chapter 19. Wireless Voice over IP 417
Laurent OUAKIL
19.1. Introduction 417
19.2. Wireless VoIP problems 418
19.3. Voice management indications and designs 421
19.4. Adapting wireless QoS for voice 428
19.5. Conclusion 438
19.6. Bibliography 439
Part 3. The Next Generation of IP Networks 441
Chapter 20. Pervasive Networks 443
Sidi–Mohammed SENOUCI
20.1. Introduction 443
20.2. Ambient intelligence 444
20.3. Ambient networks 447
20.4. Conclusion 465
20.5. Bibliography 465
Chapter 21. Wi–Fi/IEEE 802.11 469
Denis BEAUTIER
21.1. Introduction. 469
21.2. Technology 472
21.3. Amendments, progress and characteristics 488
21.4. Conclusion 494
21.5. Appendices 497
21.6. Bibliography 499
Chapter 22. Mobility and Quality of Service 501
Hakima CHAOUCHI
22.1. Introduction. 501
22.2. Summary of QoS and mobility architectures 502
22.3. Mobility architectures 509
22.4. Impact of mobility on QoS 516
22.5. Interaction architectures between QoS and mobility 519
22.6. Band interactions 519
22.7. Interaction with band signaling: INSIGNIA 525
22.8. Other communities 526
22.9. Conclusion 527
22.10. Bibliography 528
Chapter 23. Sensor Networks 531
Paulo GONÇALVES
23.1. Introduction 531
23.2. Definitions 533
23.3. Transmission medium 535
23.4. Platforms 536
23.5. Energy consumption 539
23.6. Power supply 540
23.7. Evaluation metrics 543
23.8. Network protocols 544
23.9. Auto–organization 546
23.10. Applications 547
23.11. IEEE 802.15.4 standard or ZigBee 549
23.12. Production cost 549
23.13. Conclusion 549
23.14. Bibliography 549
Chapter 24. Mobile Ad Hoc Networks: Inter–vehicle Geocast 553
Abderrahim BENSLIMANE
24.1. Introduction 553
24.2. Mobile ad hoc networks 555
24.3. Communication in intelligent transport 557
24.4. Inter–vehicle geocast 559
24.5. Performance evaluation 565
24.6. Conclusion 570
24.7. Bibliography 571
24.8. Appendix 573
Chapter 25. Pervasive Networks: Today and Tomorrow 575
Guy PUJOLLE
25.1. Introduction 575
25.2. Networks of the pervasive Internet 576
25.3. QoS and security 586
25.4. Services 587
25.5. Bibliography 590
Chapter 26. Optical Networks 591
Nizar BOUABDALLAH
26.1. Introduction 591
26.2. History 592
26.3. Evolution of optical networks 594
26.4. Structure of an optical transmission system 596
26.5. Multiplexing techniques 598
26.6. Second generation optical networks 600
26.7. Wavelength switching optical networks 601
26.8. Distribution by optical fiber 604
26.9. Conclusion 609
26.10. Bibliography 609
Chapter 27. GMPLS–enabled Optical Networks 611
Wissam FAWAZ and Belkacem DAHEB
27.1. Introduction 611
27.2. Label switching (MPLS) 612
27.3. Evolution of IP/MPLS signaling for optical WDM networks 622
27.4. Conclusion 636
27.5. Bibliography 636
List of Authors 637
Index 641
Guy Pujolle is currently a Professor at the University of Paris VI and member of the Scientific Council of France Telecom Group. He is chairman of the IFIP Working Group 6.2 on "Network and Internetwork Architectures". A pioneer in high–speed networking, he led the development of the first Gbit/s network to be tested in 1980.
Internet Protocol (IP) networks have, for a number of years, provided the basis for modern communication channels. However, the control and management of these networks needs to be extended so that the required Quality of Service can be achieved.
Information about new generations of IP networks is given, covering the future of pervasive networks (that is, networks that arealways present), Wi–Fi, the control of mobility and improved Quality of Service, sensor networks, inter–vehicle communication and optical networks.
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