Description

Book Synopsis
As the Internet becomes increasingly heterogeneous, the issue of congestion control becomes ever more important. In order to maintain good network performance, mechanisms must be provided to prevent the network from being congested for any significant period of time.

Trade Review
"…a good supplement to the companion toolbox…" (Computing Reviews.com, May 19, 2006)

Table of Contents
Foreword.

Preface.

List of Tables.

List of Figures.

1. Introduction .

1.1 Who should read this book?

1.2 Contents.

1.3 Structure.

2. Congestion control principles.

2.1 What is congestion?

2.2 Congestion collapse.

2.3 Controlling congestion: design considerations.

2.4 Implicit feedback.

2.5 Source behaviour with binary feedback.

2.6 Stability.

2.7 Rate-based versus window-based control.

2.8 RTT estimation.

2.9 Traffic phase effects.

2.10 Queue management.

2.11 Scalability.

2.12 Explicit feedback.

2.13 Special environments.

2.14 Congestion control and OSI layers.

2.15 Multicast congestion control.

2.16 Incentive issues.

2.17 Fairness.

2.18 Conclusion.

3. Present technology.

3.1 Introducing TCP.

3.2 TCP window management.

3.3 TCP RTO calculation.

3.4 TCP congestion control and reliability.

3.5 Concluding remarks about TCP.

3.6 The Stream Control Transmission Protocol (SCTP).

3.7 Random Early Detection (RED).

3.8 The ATM‘Available Bit Rate’ service.

4. Experimental enhancements.

4.1 Ensuring appropriate TCP behaviour.

4.2 Maintaining congestion state.

4.3 Transparent TCP improvements.

4.4 Enhancing active queue management.

4.5 Congestion control for multimedia applications.

4.6 Better-than-TCP congestion control.

4.7 Congestion control in special environments.

5. Internet traffic management – the ISP perspective.

5.1 The nature of Internet traffic.

5.2 Traffic engineering.

5.3 Quality of Service (QoS).

5.4 Putting it all together.

6. The future of Internet congestion control.

6.1 Small deltas or big ideas?

6.2 Incentive issues.

6.3 Tailor-made congestion control.

Appendix A: Teaching congestion control with tools.

A.1 CAVT.

A.1.1 Writing script.

A.1.2 Teaching with CAVT.

A.1.3 Internals.

A.2 ns.

A.2.1 Using ns for teaching: the problem.

A.2.2 Using ns for teaching: the solution.

A.2.3 NSBM.

A.2.4 Example exercises.

Appendix B: Related IETF work.

B.1 Overview.

B.2 Working groups.

B.3 Finding relevant documents.

Appendix C: List of abbreviations.

Bibliography.

Index.

Network Congestion Control Managing Internet

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A Hardback by Michael Welzl

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    View other formats and editions of Network Congestion Control Managing Internet by Michael Welzl

    Publisher: John Wiley & Sons Inc
    Publication Date: 28/07/2005
    ISBN13: 9780470025284, 978-0470025284
    ISBN10: 047002528X
    Also in:
    Computing Computer networking and communications Electronics and communications engineering

    Description

    Book Synopsis
    As the Internet becomes increasingly heterogeneous, the issue of congestion control becomes ever more important. In order to maintain good network performance, mechanisms must be provided to prevent the network from being congested for any significant period of time.

    Trade Review
    "…a good supplement to the companion toolbox…" (Computing Reviews.com, May 19, 2006)

    Table of Contents
    Foreword.

    Preface.

    List of Tables.

    List of Figures.

    1. Introduction .

    1.1 Who should read this book?

    1.2 Contents.

    1.3 Structure.

    2. Congestion control principles.

    2.1 What is congestion?

    2.2 Congestion collapse.

    2.3 Controlling congestion: design considerations.

    2.4 Implicit feedback.

    2.5 Source behaviour with binary feedback.

    2.6 Stability.

    2.7 Rate-based versus window-based control.

    2.8 RTT estimation.

    2.9 Traffic phase effects.

    2.10 Queue management.

    2.11 Scalability.

    2.12 Explicit feedback.

    2.13 Special environments.

    2.14 Congestion control and OSI layers.

    2.15 Multicast congestion control.

    2.16 Incentive issues.

    2.17 Fairness.

    2.18 Conclusion.

    3. Present technology.

    3.1 Introducing TCP.

    3.2 TCP window management.

    3.3 TCP RTO calculation.

    3.4 TCP congestion control and reliability.

    3.5 Concluding remarks about TCP.

    3.6 The Stream Control Transmission Protocol (SCTP).

    3.7 Random Early Detection (RED).

    3.8 The ATM‘Available Bit Rate’ service.

    4. Experimental enhancements.

    4.1 Ensuring appropriate TCP behaviour.

    4.2 Maintaining congestion state.

    4.3 Transparent TCP improvements.

    4.4 Enhancing active queue management.

    4.5 Congestion control for multimedia applications.

    4.6 Better-than-TCP congestion control.

    4.7 Congestion control in special environments.

    5. Internet traffic management – the ISP perspective.

    5.1 The nature of Internet traffic.

    5.2 Traffic engineering.

    5.3 Quality of Service (QoS).

    5.4 Putting it all together.

    6. The future of Internet congestion control.

    6.1 Small deltas or big ideas?

    6.2 Incentive issues.

    6.3 Tailor-made congestion control.

    Appendix A: Teaching congestion control with tools.

    A.1 CAVT.

    A.1.1 Writing script.

    A.1.2 Teaching with CAVT.

    A.1.3 Internals.

    A.2 ns.

    A.2.1 Using ns for teaching: the problem.

    A.2.2 Using ns for teaching: the solution.

    A.2.3 NSBM.

    A.2.4 Example exercises.

    Appendix B: Related IETF work.

    B.1 Overview.

    B.2 Working groups.

    B.3 Finding relevant documents.

    Appendix C: List of abbreviations.

    Bibliography.

    Index.

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