High-Performance Networks for Multimedia Applications
Springer (Verlag)
978-0-7923-8274-4 (ISBN)
The need for end-to-end QoS for these multimedia applications is raising the stakes for a powerful shaping and scheduling in the network adapter. It is also creating a need for new services at the ATM layer, CBR and VBR being augmented by UBR, ABR and GFR which have to be evaluated in the TCP/IP environment of today and tomorrow.
With the pressure of all the new technologies available today, the backbone architecture needs to be revisited and the success of the TCP/IP must not eliminate the possibility of adding a native ATM access to it.
Most of the research in communication services such as IntServ, DiffServ and Native ATM is driven by the requirements of multimedia systems and this book illustrates the new emphasis by bringing telecommunication and computer communication experts together with application designers. This is particularly true for the security issues also addressed here.
Last but not least, modeling techniques and mathematical models are essential to assess the performance of the networks to be built and to evaluate next century scenarios unachievable by a simple scaling of today's solutions.
High-Performance Networks for Multimedia Applications is a collection of high quality research papers and the in-depth treatment of the subjects provides interesting and innovative solutions. It is an essential reference for telecommunication and computer experts and QoS-based application designers. It is also a comprehensive text for graduate students in high-perforrnance networks and multimedia applications.
1. Advanced Traffic Shaping Combined With Efficient DMA Transfer.- 1. Introduction.- 2. Existing Hardware Solutions and their Limitations.- 3. Adapter Architecture.- 4. Integrated Scheduling, Advanced Shaping and DMA Transfer.- 5. Performance Evaluation.- 6. Conclusions.- 2. A Simulation Study of TCP With the GFR Service Category.- 1. Introduction.- 2. The GFR Service Category.- 3. Proposed Switch Implementations.- 4. The Simulation Model.- 5. LAN Simulations with FIFO-based Switches.- 6. WAN Simulations with the FIFO-based Implementation.- 7. LAN Simulations with the WFQ-based Implementation.- 8. WAN Simulations with the WFQ-based Implementation.- 9. Impact of Tagging on the TCP Performance with WFQ-based Switch Implementation.- 10. Related Work.- 11. Conclusion.- 3. A Comparison of ABR and UBR to Support TCP Traffic for LAN Interconnection.- 1. Introduction.- 2. Interconnection Model.- 3. Varying Background Load.- 4. ABR Performance Degradation.- 5. ABR to the Workstation.- 6. Conclusion.- 4. Interconnection of Local Area Networks via ATM.- 1. Introduction.- 2. The Direct Approach.- 3. Modelling of Connectionless Overlay Networks.- 4. Optimization Methods.- 5. Simulation Results.- 6. Conclusions.- 5. TCP/IP, ATM And IP Cell Switching.- 1. Introduction.- 2. ATM Networks.- 3. Evolution of Internet.- 4. Short, Medium and Long Term Evolution.- 5. An IP Cell Switching.- 6. A Performance Evaluation.- 7. Conclusion.- 6. Protocol Mechanisms for Native ATM Transport Services.- 1. Introduction.- 2. Native ATM Services.- 3. A Transport Service Architecture for Native ATM.- 4. Protocol Mechanisms for the Transfer Layer.- 5. Related Work.- 6. Conclusion.- 7. Communication Services for Multimedia Systems.- 1. Introduction.- 2. Service versus Protocol.- 3. Multimedia Transport Services.- 4. Protocol Architectures for Multimedia Transport Services.- 5. The GCommS Multimedia Multipeer Services.- 6. The GCommS Protocol Architecture.- 7. Conclusions.- 8. Internet-Based Secure Virtual Networks.- 1. Introduction.- 2. Internet-based Virtual Networks and their Requirements.- 3. Supranet Design Issues.- 4. Security Mechanisms.- 5. Sender Anonymity.- 6. Conclusions.- 9. Network Calculus Using Min-Plus System Theory.- 1. Introduction.- 2. Notation and Background.- 3. System Modelling.- 4. Application to the 3 Examples.- 10. Life-Considerations for Wide-Area Distribution of Multimedia Data.- 1. Introduction.- 2. Related Work.- 3. Investigation.- 4. Simulation Model.- 5. Conclusion.- Index of Authors.
Zusatzinfo | XI, 185 p. |
---|---|
Verlagsort | Dordrecht |
Sprache | englisch |
Maße | 170 x 244 mm |
Themenwelt | Mathematik / Informatik ► Informatik ► Grafik / Design |
Mathematik / Informatik ► Informatik ► Netzwerke | |
Technik ► Elektrotechnik / Energietechnik | |
ISBN-10 | 0-7923-8274-9 / 0792382749 |
ISBN-13 | 978-0-7923-8274-4 / 9780792382744 |
Zustand | Neuware |
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