End-to-End Servicequalität: Engineering in heterogenem Netwo der nächsten Generation

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End-to-End Quality of Service

by Abdelhamid Mellouk

A modern communication network can be described as a large, complex, distributed system composed by higher interoperating, smaller sub-systems. Today, the proliferation and convergence of different types of wired, wireless, and mobile networks are crucial for the success of the next generation networking.

FORMAT Hardcover LANGUAGE English CONDITION Brand New

Publisher Description

A modern communication network can be described as a large, complex, distributed system composed by higher interoperating, smaller sub-systems. Today, the proliferation and convergence of different types of wired, wireless, and mobile networks are crucial for the success of the next generation networking. However, these networks can hardly meet the requirements of future integrated-service networks, and are expected to carry multimedia traffic with various Quality of Experience (QoE) and Quality of Service (QoS) requirements. Providing all relevant QoS/QoE issues in these heterogeneous networks is then an important challenge for telecommunication operators, manufacturers, and companies. The impressive emergence and the important demand of the rising generation of real-time Multi-service (such as Data, Voice VoD, Video-Conference, etc.) over communication heterogeneous networks, require scalability while considering a continuous QoS.  This book presents and explains all the techniques in new generation networks which integrate efficient global control mechanisms in two directions: (1) maintain QoS requirements in order to maximize network resources utilization, and minimize operational costs on all the types of wired-wireless-mobile networks used to transport traffic, and (2) mix the QoS associated with home, access, and core networks in order to provide Quality of Service/Quality of Experience expected by users of new services.

Author Biography

Abdelhamid MELLOUK (IEEE Senior Member) is a full professor at University of Paris-Est, Networks & Telecommunications, Department and LiSSi Laboratory, France. Founder of the Network Control Research activity with extensive international academic and industrial collaborations, his general area of research is in adaptive real-time control for high-speed new generation dynamic wired/wireless networking in order to maintain acceptable quality of service/experience for added value services. He is an active member of the IEEE Communications Society and held several offices including leadership positions in IEEE Communications Society Technical Committees.

Table of Contents

Chapter 1. Challenges for End-to-End Quality of Service over Heterogenous Networks 1
Abdelhamid MELLOUK 1.1. Introduction 1 1.2. Research challenges in end-to-end QoS 2 1.3. Contents 4 1.3.1. Chapter 2: principles and mechanisms for Quality of Service in networks 4 1.3.2. Chapter 3: different approaches to guarantee Quality of Service 5 1.3.3. Chapter 4: Quality of Service-based adaptive routing approaches 6 1.3.4. Chapter 5: optical networks: new challenges and paradigms for Quality of Service 7 1.3.5. Chapter 6: pushing Quality of Service across interdomain boundaries 8 1.3.6. Chapter 7: Internet-based collaborative teleoperation: towards tailorable groupware for teleoperation 9 1.3.7. Chapter 8: survivability-oriented Quality of Service in optical networks 10 1.3.8. Chapter 9: MAC protocols for Quality of Service provisioning in mobile ad hoc networks10 1.3.9. Chapter 10: Quality of Service-based scheduling mechanisms in mobile networks 11 1.3.10. Chapter 11: Quality of Service in wireless ad hoc and sensor networks 12 1.3.11. Chapter 12: Quality of Service challenges in WiMAX networks 13 1.3.12. Chapter 13: Quality of Service support for MPLS-based wired-wireless domains 14 1.3.13. Chapter 14: Quality of Service control in VoIP applications 15 1.3.14. Chapter 15: towards collaborative teleoperation based on human scale networked mixed reality environments. 16 1.3.15. Chapter 16: Quality of Service driven context awareness using semantic sensors infrastructure 17 1.3.16. Chapter 17: effect of transmission delay on haptic perception in shared virtual environments 18 1.4. Conclusion 19 Chapter 2. Principles and Mechanisms for Quality of Service in Networks 21
Zoubir MAMMERI 2.1. Introduction 21 2.2. Concepts and definitions 23 2.2.1. Definitions of QoS in a networking context 23 2.2.2. End-to-end QoS 24 2.2.3. Classes (levels) of service 24 2.2.4. Differentiated classes of service 26 2.3. QoS parameters and application classification 26 2.3.1. QoS parameter types 26 2.3.2. Application classification 29 2.3.3. QoS parameter specification 32 2.3.4. Traffic models 32 2.3.5. Service level agreements 34 2.4. Mechanisms and functions for QoS provisioning 35 2.4.1. General issues 35 2.4.2. QoS establishment 36 2.4.3. Admission control 36 2.4.4. QoS negotiation and renegotiation 37 2.4.5. Resource management 38 2.4.6. QoS signaling protocols 39 2.4.7. Routing 39 2.4.8. Traffic control mechanisms 41 2.4.9. QoS control, maintenance, monitoring 45 2.4.10. QoS policy 45 2.4.11. QoS mapping and translation 46 2.5. Overview of IntServ, DiffServ and MPLS 47 2.5.1. Integrated services architecture 47 2.5.2. DiffServ architecture 48 2.5.3. MPLS 50 2.6. Conclusion 51 2.7. References 51 Chapter 3. Different Approaches to Guarantee Quality of Service 55
Pascale MINET 3.1. Introduction to QoS 55 3.1.1. Different QoS requirements 56 3.1.2. Organization of chapter 58 3.2. Means of managing an end-to-end time constraint 59 3.2.1. Components of an end-to-end response time 59 3.2.2. Different methods to ensure that D is met 61 3.2.3. Discussion 65 3.2.4. A producer/consumer scheme avoiding starvation 66 3.2.5. Example of a video-on-demand multimedia system 67 3.3. Evaluation of the end-to-end response time 68 3.3.1. The holistic approach 68 3.3.2. Network calculus 69 3.3.3. Trajectory approach 71 3.3.4. Comparison between the holistic and trajectory approaches 74 3.3.5. Flow shaping 77 3.4. Probabilistic guarantee of the end-to-end response time 79 3.4.1. Principles for a probabilistic guarantee 79 3.4.2. Examples 80 3.4.3. Probabilistic versus deterministic guarantee 81 3.5. QoS support in a mobile ad hoc network 81 3.5.1. Specificities of MANETs 81 3.5.2. The OLSR routing protocol 82 3.5.3. QoS architecture and QoS OLSR 83 3.6. Conclusion and perspectives 87 3.7. References 89 Chapter 4. Quality of Service-based Adaptive Routing Approaches 93
Abdelhamid MELLOUK and Saïd HOCEINI 4.1. Introduction 93 4.2. QoS-based routing algorithms 95 4.2.1. Classical routing algorithms 97 4.3. QoS-based routing approaches 99 4.4. Inductive approaches based on machine learning paradigms 99 4.4.1. Cognitive Packet Networks (CPN) 100 4.4.2. Swarm ant colony optimization (AntNet) 100 4.4.3. Reinforcement learning routing approaches 101 4.5. Neural net-based approach for adaptive routing policy 102 4.6. State-dependent KOQRA algorithm 105 4.6.1. First stage: constructing K optimal paths 105 4.6.2. Second stage: optimizing the end-to-end delay with the Q-learning algorithm 107 4.6.3. Third stage: adaptive probabilistic path selection 108 4.7. Conclusion 108 4.8. References 109 Chapter 5. Optical Networks: New Challenges and Paradigms for Quality of Service 115
Ken CHEN and Wisssam FAWAZ 5.1. Introduction 115 5.2. Optical communication: from transmission to networking 116 5.2.1. Fiber optic cable 116 5.2.2. WDM technology 117 5.2.3. From transmission to networking 118 5.3. Optical networks as a pillar for future network infrastructure 119 5.4. Routing and wavelength assignment 121 5.5. GMPLS 122 5.5.1. MPLS 122 5.5.2. Principle of the GMPLS extension 124 5.5.3. GMPLS components 126 5.6. Towards a new optical link-based architecture 129 5.7. Protection against link failures 130 5.8. Optical packet switch and optical burst switch 131 5.8.1. Optical packet switching 131 5.8.2. Optical burst switching 132 5.9. Conclusion 133 5.10. References 133 Chapter 6. Pushing Quality of Service Across Inter-domain Boundaries 135
Bingjie FU, Cristel PELSSER, Steve UHLIG 6.1. Introduction 135 6.2. Background 136 6.2.1. The Internet as a distributed system 137 6.2.2. Business relationships between ASs 137 6.2.3. Impact of inter-domain routing on path diversity 138 6.2.4. Inter-AS LSP requirements 142 6.3. RSVP-TE extensions to support inter-domain LSPs 143 6.3.1. Explicit routing of an LSP 143 6.3.2. RRO aggregation and the path key 144 6.3.3. Protection of inter-AS LSPs 145 6.3.4. End-to-end disjoint LSPs 146 6.4. State of the art in inter-domain PCE 146 6.4.1. PCE-based architecture 146 6.4.2. Path computation methods 147 6.4.3. Applicability of the path computation techniques 152 6.5. Towards inter-AS QoS 152 6.5.1. DistributingQoS Information for inter-AS LSPs 153 6.5.2. Computing inter-AS LSPs with end-to-end QoS constraints 155 6.6. Conclusion and perspectives 158 6.7. Acknowledgments 159 6.8. References 159 Chapter 7. Internet-based Collaborative Teleoperation: Towards Tailorable Groupware for Teleoperation 163
Samir OTMANE, Nader CHEAIB and Malik MALLEM 7.1. Introduction 163 7.2. Teleoperation via the World Wide Web 164 7.2.1. Non-collaborative teleoperation systems 166 7.2.2. Towards collaborative teleoperation systems 170 7.3. ARITI-C: a groupware for collaborative teleoperation via the Internet 172 7.3.1. Software architecture of ARITI-C 173 7.3.2. Human-machine interface of ARITI-C 177 7.4. Integrating QoS in designing tailorable collaborative teleoperation systems 185 7.4.1. Need for QoS in internet-based teleoperation185 7.4.2. Need for tailorability in internet-based collaborative teleoperation 186 7.4.3. Design of tailorable groupware for internet-based collaborative teleoperation 190 7.5. Conclusion 192 7.6. References 193 Chapter 8. Survivability-Oriented Quality of Service in Optical Networks 197
Wissam FAWAZ and Ken CHEN 8.1. Introduction 197 8.2. Optical transport network failures 198 8.2.1. Failure statistics 199 8.2.2. Causes of failure 200 8.3. Optical network survivability evolution 202 8.3.1 Survivability in traditional carrier network architecture 202 8.3.2. Protection at the IP layer? 204 8.3.3 Why optical layer survivability? 205 8.4. Optical WDM-layer survivability mechanisms 207 8.4.1. Path protection 208 8.4.2. Path restoration 209 8.4.3. Link protection 209 8.4.4. Link restoration 210 8.5. Conclusion 210 8.6. References 211 Chapter 9. MAC Protocols for Quality of Service Provisioning in Mobile Ad Hoc Networks 213
Ghalem BOUDOUR, Mahboub A. BALI and Cédric TEYSSIÉ 9.1. Introduction 213 9.2. IEEE 802.11 standard basics 216 9.3. Prioritization-oriented MAC protocols 217 9.3.1. RT-MAC protocol 217 9.3.2. DCF-PC protocol 218 9.3.3. HCF and IEEE 802.11e 219 9.3.4. DPS protocol 221 9.3.5. BB-DCF protocol 222 9.3.6. ES-DCF and DB-DCF protocols 224 9.4. Reservation-oriented protocols 226 9.4.1. Reservation protocols with synchronization 227 9.4.2. Reservation protocols without synchronization 231 9.4.3. Limitations of reservation-based protocols 235 9.5. Available bandwidth estimation methods for ad hoc networks 235 9.5.1. General issues 235 9.5.2. Methods for bandwidth estimation 237 9.6. Conclusion 244 9.7. References 245 Chapter 10. Quality of Service Scheduling Mechanisms in Mobile Networks 249
Mohamed BRAHMA, Abdelhafid ABOUAÏSSA and Pascal LORENZ 10.1. Introduction 249 10.1.1. Mobile ad hoc networks (MANETs) 250 10.1.2. Constraints 251 10.2. Quality of Service 251 10.2.1. Routing with QoS in the ad hoc network 251 10.2.2. QoS models in ad hoc networks 252 10.2.3. QoS MAC protocols 254 10.3. Buffer and energy-based scheduling 256 10.3.1. Marking MAC frames 258 10.3.2. Adjusting the weight of each class queue 258 10.3.3. Weight calculation algorithm 259 10.4. Simulations and numerical results 260 10.5. Conclusion 266 10.6. References 266 Chapter 11. Quality of Service inWireless Ad Hoc and Sensor Networks 269
Azzedine BOUKERCHE, Horacio A.B.F. OLIVEIRA, Eduardo F. NAKAMURA, Richard W.N. PAZZI and Antonio A.F. LOUREIRO 11.1. Challenges for QoS in ad hoc and sensor networks 270 11.2. QoS parameters in ad hoc and sensor networks 271 11.3. Components of a QoS system 273 11.4. MACmeasurement and reservation 274 11.4.1. Q-MAC 277 11.5. QoS routing discovery and maintenance 278 11.5.1. Ticket-based probing 278 11.5.2. QoS-based geographic routing 280 11.5.3. Core extraction distributed ad hoc routing – CEDAR281 11.5.4. EQoS 283 11.5.5. The INSIGNIA QoS framework 283 11.5.6. Ad hocQoS on-demand routing –AQOR 285 11.6. Conclusions 287 11.7. References 288 Chapter 12. Quality of Service Challenges in WiMAX Networks 291
Sahar GHAZAL and Jalel BEN-OTHMAN 12.1. Introduction 291 12.2.QoS limitations in wireless networks 293 12.3.QoS features in WiMAXnetworks 294 12.3.1. Classification process 294 12.3.2. Scheduling services 295 12.3.3. Bandwidth management policies 296 12.4. QoS parameter set and management messages 298 12.4.1. Connection establishment 299 12.4.2. Dynamic change of admitted QoS parameters 300 12.5. MAC layer and QoS architecture 301 12.6. PHY layer supports QoS 302 12.7. QoS previous proposed solutions for WiMAX 303 12.7.1. Proposed scheduling algorithms 303 12.7.2. Proposed admission policies 304 12.8. Conclusion 305 12.9. References 305 Chapter 13. Quality of Service Support for MPLS-based Wired-Wireless Domains 309
Scott FOWLER, Sherali ZEADALLY and Abdelhamid MELLOUK 13.1. Abstract 309 13.2. Introduction 310 13.3. MPLS technology 310 13.3.1. Label distribution protocol (LDP) 312 13.4. Mobility and MPLS 314 13.5. Hierarchical MIP 315 13.6. Extending MPLS from wired networks to wireless networks 317 13.6.1. Hierarchical mobile MPLS (H-MPLS) approach 317 13.6.2. Hierarchical mobile IPv6withMPLS 321 13.6.3. Micro-mobility with MPLS (MM-MPLS) approach 326 13.6.4. The label edge mobility agent (LEMA) approach 328 13.7. Multimedia support over MPLS-based networks 329 13.7.1. MPLS support in DiffServ 331 13.7.2. Resource reservation protocol traffic engineering (RSVP-TE) with MPLS 335 13.7.3. Constraint-based routed label distribution protocol (CR-LDP) 336 13.8. Emerging trends of MPLS-based networks 337 13.8.1. Label management of MPLS 338 13.8.2. MPLS support over heterogenous networks 339 13.8.3. MPLS security 339 13.8.4. QoS support over MPLS-based networks 339 13.8.5. Fast handovers across MPLS-based wired-wireless networks 340 13.9. Conclusion 340 13.10. References 342 13.11. Appendix – list of acronyms 344 Chapter 14. Quality of Service Control in Voice-over IP Applications 347
Vincent LECUIRE and Mouna BENAISSA 14.1. Introduction 347 14.2. General structure of VoIP applications 348 14.3. End-to-end delay analysis 351 14.3.1. Coding/decoding delay 352 14.3.2. Packetization delay 353 14.3.3. Network delay 353 14.3.4. Jitter compensation delay 353 14.3.5. End-to-end delay calculation 354 14.4. Quality of Service requirements for VoIP 354 14.4.1. Delay constraint 354 14.4.2. Packet loss constraint 355 14.4.3. Jitter constraint 356 14.5. Algorithms for adaptive playout buffering 357 14.5.1. Approach based on linear filtering 359 14.5.2. Approach based on adaptive filter 363 14.5.3. Approach based on statistics distribution 364 14.6. Forward error correction mechanisms for packet loss repair 367 14.6.1. Media-specific FEC 368 14.6.2. Media-independent FEC 369 14.7. Joint playout buffering and packet-level FEC algorithms 370 14.7.1. Virtual delay algorithms 371 14.7.2. Delay aware algorithm 371 14.8. Conclusion 372 14.9. References 372 Chapter 15. Towards Collaborative Teleoperation Based On Human-Scale Networked Mixed Reality Environments 377
Samir OTMANE, Nassima OURAMDANE and Malik MALLEM 15.1. Introduction 377 15.2. Teleoperation and telerobotics 378 15.2.1. Brief background 379 15.2.2. Teleoperation 379 15.2.3. Telerobotics 382 15.2.4. Some application domains 383 15.3. Augmented reality assisted teleoperation 389 15.4. Human-scale collaborative teleoperation 393 15.4.1. Collaborative working environments. 394 15.4.2. Interactions in human-scale teleoperation 395 15.4.3. Distributed software architecture for human-scale collaborative teleoperation 398 15.5. Synthesis and problematics 401 15.6. References 403 Chapter 16. QoS-driven Context Awareness Using Semantic Sensors Infrastructure 407
Abdelghani CHIBANI and Yacine AMIRAT 16.1. Introduction 407 16.2. Context-aware pervasive computing 408 16.3. Service agent middleware for decentralized context management 409 16.3.1. Context service agent 410 16.3.2. Context aggregation agent 411 16.3.3. Context services composition 413 16.4. Context service discovery 415 16.4.1. QoS-driven context directories management 416 16.4.2. Contextual knowledge modeling 416 16.4.3. Contextual service modeling419 16.4.4. Context service semantic matching 420 16.5. Semantic context sensor scenarios 422 16.5.1. Scenario 1: context-aware travel organizer service 423 16.5.2. Scenario 2: context-aware services for healthcare ubiquitous robot 425 16.5.3. Scenario 3: context sensor infrastructure for living lab services 426 16.6. Conclusion 427 16.7. References 428 Chapter 17. Effect of Transmission Delay on Haptic Perception in Shared Virtual Environments 431
Hichem ARIOUI 17.1. Introduction 431 17.2. Haptic simulation in VR applications 433 17.2.1. Haptic feedback device 433 17.2.2. Applications of haptic systems 436 17.3. Delayed force feedback systems 437 17.3.1. Automatic control law, solutions and handicaps 437 17.3.2. Remote programming, solutions and handicaps 441 17.4. The Quality of Service for a good haptic rendering 442 17.5. References 443 List of Authors 445 Index 451

Details ISBN1848210612 Short Title END TO END QUALITY OF SERVICE Pages 458 Language English ISBN-10 1848210612 ISBN-13 9781848210615 Media Book Format Hardcover Illustrations Yes Author Abdelhamid Mellouk Place of Publication London Country of Publication United Kingdom Edited by Abdelhamid Mellouk Series ISTE Edition 1st Subtitle Engineering in Next Generation Heterogenous Networks DOI 10.1604/9781848210615 UK Release Date 2008-12-23 AU Release Date 2008-12-23 NZ Release Date 2008-12-23 Publisher ISTE Ltd and John Wiley & Sons Inc Year 2008 Publication Date 2008-12-23 Imprint ISTE Ltd and John Wiley & Sons Inc DEWEY 621.3821 Audience Professional & Vocational

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  • Condition: Neu
  • ISBN-13: 9781848210615
  • Book Title: End-to-End Quality of Service
  • ISBN: 9781848210615
  • Publication Year: 2008
  • Type: Textbook
  • Format: Hardcover
  • Language: English
  • Publication Name: End-To-End Quality of Service: Engineering in Next Generation Heterogenous Networks
  • Item Height: 240mm
  • Author: Abdelhamid Mellouk
  • Publisher: Iste LTD AND John Wiley & Sons INC International Concepts
  • Item Width: 169mm
  • Subject: Engineering & Technology
  • Item Weight: 820g
  • Number of Pages: 472 Pages

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