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by Subir Varma
Internet Congestion Control
Cover image
Title page
Table of Contents
Dedication
About the Author
Acknowledgments
List of Abbreviations
Chapter 1. Introduction
1.1 Introduction
1.2 Basics of Congestion Control
1.3 Description of TCP Reno
1.4 Network Feedback Techniques
1.5 Delay-Based Congestion Control: TCP Vegas
1.6 Outline of the Rest of the Book
1.7 Further Reading
References
Part 1: Theory
Chapter 2. Analytic Modeling of Congestion Control
2.1 Introduction
2.2 TCP Throughput Analysis
2.3 A Fluid Flow Model for Congestion Control
2.4 A Stochastic Model for Congestion Control
2.5 Why Does the Square-Root Formula Work Well?
2.6 The Case of Multiple Parallel TCP Connections
2.7 Further Reading
Appendix 2.A Derivation of Q=min(1,3/E(W))
References
Suggested Reading
Chapter 3. Optimization and Control Theoretic Analysis of Congestion Control
3.1 Introduction
3.2 Congestion Control Using Optimization Theory
3.3 Generalized TCP–Friendly Algorithms
3.4 Stability Analysis of TCP with Active Queue Management
3.5 The Averaging Principle (AP)
3.6 Implications for Congestion Control Algorithms
3.7 Further Reading
Appendix 3.A Linearization of the Fluid Flow Model
Appendix 3.B The Nyquist Stability Criterion
Appendix 3.C Transfer Function for the RED Controller
Appendix 3.D Convex Optimization Theory
Appendix 3.E A General Class of Utility Functions
References
Suggested Reading
Part 2: Applications
Chapter 4. Congestion Control in Broadband Wireless Networks
4.1 Introduction
4.2 Wireless Access Architecture and Issues
4.3 Split-Connection TCP
4.4 Algorithms to Improve Performance Over Lossy Links
4.5 Link-Level Error Correction and Recovery
4.6 The Bufferbloat Problem in Cellular Wireless Systems
4.7 Some Design Rules
4.8 Further Reading
References
Suggested Reading
Chapter 5. Congestion Control in High-Speed Networks
5.1 Introduction
5.2 Design Issues for High-Speed Protocols
5.3 High Speed TCP (HSTCP) Protocol
5.4 TCP BIC and CUBIC
5.5 The Compound TCP (CTCP) Protocol
5.6 The Fast TCP Protocol
5.7 The eXpress Control Protocol (XCP)
5.8 The Rate Control Protocol (RCP)
5.9 Stability of High-Speed TCP Algorithms
5.10 Further Reading
References
Suggested Reading
Chapter 6. Flow Control for Video Applications
6.1 Introduction
6.2 Video Delivery Over Packet Networks
6.3 HTTP Adaptive Streaming (HAS)
6.4 The Adaptive Bit Rate (ABR) Algorithm
6.5 Description of Some Adaptive Bit Rate (ABR) Algorithms
6.6 The Problem with TCP Throughput Measurements
6.7 Interaction Between TCP and ABR
6.8 Further Reading
References
Suggested Reading
Chapter 7. Congestion Control in Data Center Networks
7.1 Introduction
7.2 Data Center Architecture and Traffic Patterns
7.3 Data Center TCP (DCTCP)
7.4 Deadline-Aware Congestion Control Algorithms
7.5 Load Balancing over Multiple Paths with Multipath TCP (MPTCP)
7.6 The Incast Problem in Data Center Networks
7.7 Further Reading
References
Suggested Reading
Chapter 8. Congestion Control in Ethernet Networks
8.1 Introduction
8.2 Differences between Switched Ethernet and IP Networks
8.3 Objectives of the Quantum Congestion Notification Algorithm
8.4 Quantum Congestion Notification Algorithm Description
8.5 Quantum Congestion Notification Stability Analysis
8.6 Further Reading
References
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Internet Congestion Control
Subir Varma
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