Amsterdam ; ; Boston, : Elsevier/Morgan Kaufmann, c2004

9786611189877

9781281189875

1281189871

9780080488516

008048851X

1 online resource (958 p.)

The Morgan Kaufmann series in networking

KuriJoy

ManjunathD

004.6/5

621.382

Multiplexing

Routers (Computer networks)

Telecommunication systems - Management

Telecommunication - Switching systems

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Front Cover; COMMUNICATION NETWORKING: An Analytical Approach; Copyright Page; Contents; Preface; Chapter 1. Introduction: Two Examples; 1.1 Efficient Transport of Packet Voice Calls; 1.2 Achievable Throughput in an Input-Queueing Packet Switch; 1.3 The Importance of Quantitative Modeling in the Engineering of Telecommunication Networks; 1.4 Summary; 1.5 Notes on the Literature; Problems; Chapter 2. Networking: Functional Elements and Current Practice; 2.1 Networking as Resource Sharing; 2.2 The Functional Elements; 2.3 Current Practice; 2.4 Summary and Our Way Forward

2.5 Notes on the Literature Problems; Part I: Multiplexing; Chapter 3. Multiplexing: Performance Measures and Engineering Issues; 3.1 Network Performance and Source Characterization; 3.2 Stream Sessions in a Packet Network: Delay Guarantees; 3.3 Circuit-Multiplexed Networks; 3.4 Elastic Transfers in a Packet Network: Feedback Control;

3.5 Packet Multiplexing over Wireless Networks; Chapter 4. Stream Sessions: Deterministic Network Analysis; 4.1 Events and Processes in Packet Multiplexer Models: Universal Concepts; 4.2 Deterministic Traffic Models and Network Calculus; 4.3 Scheduling

4.4 Application to a Packet Voice Example 4.5 Connection Setup: The RSVP Approach; 4.6 Scheduling (Continued); 4.7 Summary; 4.8 Notes on the Literature; Appendix; Problems; Chapter 5. Stream Sessions: Stochastic Analysis; 5.1 Deterministic Calculus Can Yield Loose Bounds; 5.2 Stochastic Traffic Models; 5.3 Additional Notation; 5.4 Performance Measures; 5.5 Little's Theorem, Brumelle's Theorem, and Applications; 5.6 Multiplexer Analysis with Stationary and Ergodic Traffic; 5.7 The Effective Bandwidth Approach for Admission Control; 5.8 Application to the Packet Voice Example

5.9 Stochastic Analysis with Shaped Traffic 5.10 Multihop Networks; 5.11 Long-Range-Dependent Traffic; 5.12 Summary; 5.13 Notes on the Literature; Problems; Chapter 6. Circuit-Multiplexed Networks; 6.1 Introduction and Sample Applications; 6.2 Multiclass Traffic on a Single Link; 6.3 Overflow and Non-Poisson Traffic; 6.4 Multiclass Networks; 6.5 Erlang Fixed-Point Approximation; 6.6 Admission Control; 6.7 Waiting Room and Retrials; 6.8 Channel Allocation in Cellular Networks; 6.9 Wavelength Allocation in Optical Networks; 6.10 Summary; 6.11 Notes on the Literature; Problems

Chapter 7. Adaptive Bandwidth Sharing for Elastic Traffic 7.1 Elastic Transfers in a Network; 7.2 Network Parameters and Performance Objectives; 7.3 Sharing a Single Link; 7.4 Rate-Based Control (RBC); 7.5 Window-Based Control (WBC): General Principles; 7.6 TCP: The Internet's Adaptive Window Protocol; 7.7 Bandwidth Sharing in a Network; 7.8 Summary; 7.9 Notes on the Literature; Problems; Chapter 8. Multiple Access: Wireless Networks; 8.1 Bits over a Wireless Link: Principles, Issues, and Trade-Offs; 8.2 Bits over a Wireless Network; 8.3 TCP Performance over Wireless Links

8.4 Adaptive and Cross-Layer Techniques

The viewpoint is that communication networking is about efficient resource sharing. The focus is on the three building blocks of communication networking, namely, multiplexing, switching and routing. The approach is analytical, with the discussion being driven by mathematical analyses of and solutions to specific engineering problems.The result? A comprehensive, effectively organized treatment of core engineering issues in communication networking. Written for both the networking professional and for the classroom, this book covers fundamental concepts in detail and places  design issue