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200 10$aPrinciples of broadband switching and networking /$fTony T. Lee and Soung C. Liew
205   $a1st edition
210  1$aHoboken, New Jersey :$cJohn Wiley & Sons,$dc2010.
210  2$a[Piscataqay, New Jersey] :$cIEEE Xplore,$d[2010]
215   $a1 online resource (477 p.)
225 1 $aWiley series in telecommunications and signal processing ;$v32
300   $aDescription based upon print version of record.
311   $a0-471-13901-7 
320   $aIncludes bibliographical references and index.
327   $aPreface -- About the Authors -- 1 Introduction and Overview -- 1.1 Switching and Transmission -- 1.1.1 Roles of Switching and Transmission -- 1.1.2 Telephone Network Switching and Transmission Hierarchy -- 1.2 Multiplexing and Concentration -- 1.3 Timescales of Information Transfer -- 1.3.1 Sessions and Circuits -- 1.3.2 Messages -- 1.3.3 Packets and Cells -- 1.4 Broadband Integrated Services Network -- Problems -- 2 Circuit Switch Design Principles -- 2.1 Space-Domain Circuit Switching -- 2.1.1 Nonblocking Properties -- 2.1.2 Complexity of Nonblocking Switches -- 2.1.3 Clos Switching Network -- 2.1.4 Benes Switching Network -- 2.1.5 Baseline and Reverse Baseline Networks -- 2.1.6 Cantor Switching Network -- 2.2 Time-Domain and Time-Space-Time Circuit Switching -- 2.2.1 Time-Domain Switching -- 2.2.2 Time-Space-Time Switching -- Problems -- 3 Fundamental Principles of Packet Switch Design -- 3.1 Packet Contention in Switches -- 3.2 Fundamental Properties of Interconnection Networks -- 3.2.1 Definition of Banyan Networks -- 3.2.2 Simple Switches Based on Banyan Networks -- 3.2.3 Combinatoric Properties of Banyan Networks -- 3.2.4 Nonblocking Conditions for the Banyan Network -- 3.3 Sorting Networks -- 3.3.1 Basic Concepts of Comparison Networks -- 3.3.2 Sorting Networks Based on Bitonic Sort -- 3.3.3 The Odd-Even Sorting Network -- 3.3.4 Switching and Contention Resolution in Sort-Banyan Network -- 3.4 Nonblocking and Self-Routing Properties of Clos Networks -- 3.4.1 Nonblocking Route Assignment -- 3.4.2 Recursiveness Property -- 3.4.3 Basic Properties of Half-Clos Networks -- 3.4.4 Sort-Clos Principle -- Problems -- 4 Switch Performance Analysis and Design Improvements -- 4.1 Performance of Simple Switch Designs -- 4.1.1 Throughput of an Internally Nonblocking Loss System -- 4.1.2 Throughput of an Input-Buffered Switch -- 4.1.3 Delay of an Input-Buffered Switch -- 4.1.4 Delay of an Output-Buffered Switch -- 4.2 Design Improvements for Input Queueing Switches -- 4.2.1 Look-Ahead Contention Resolution.
327   $a4.2.2 Parallel Iterative Matching -- 4.3 Design Improvements Based on Output Capacity Expansion -- 4.3.1 Speedup Principle -- 4.3.2 Channel-Grouping Principle -- 4.3.3 Knockout Principle -- 4.3.4 Replication Principle -- 4.3.5 Dilation Principle -- Problems -- 5 Advanced Switch Design Principles -- 5.1 Switch Design Principles Based on Deflection Routing -- 5.1.1 Tandem-Banyan Network -- 5.1.2 Shuffle-Exchange Network -- 5.1.3 Feedback Shuffle-Exchange Network -- 5.1.4 Feedback Bidirectional Shuffle-Exchange Network -- 5.1.5 Dual Shuffle-Exchange Network -- 5.2 Switching by Memory I/O -- 5.3 Design Principles for Scalable Switches -- 5.3.1 Generalized Knockout Principle -- 5.3.2 Modular Architecture -- Problems -- 6 Switching Principles for Multicast, Multirate, and Multimedia Services -- 6.1 Multicast Switching -- 6.1.1 Multicasting Based on Nonblocking Copy Networks -- 6.1.2 Performance Improvement of Copy Networks -- 6.1.3 Multicasting Algorithm for Arbitrary Network Topologies -- 6.1.4 Nonblocking Copy Networks Based on Broadcast Clos Networks -- 6.2 Path Switching -- 6.2.1 Basic Concept of Path Switching -- 6.2.2 Capacity and Route Assignments for Multirate Traffic -- 6.2.3 Trade-Off Between Performance and Complexity -- 6.2.4 Multicasting in Path Switching -- 6.A Appendix -- 6.A.1 A Formulation of Effective Bandwidth -- 6.A.2 Approximations of Effective Bandwidth Based on On / Off Source Model -- Problems -- 7 Basic Concepts of Broadband Communication Networks -- 7.1 Synchronous Transfer Mode -- 7.2 Delays in ATM Network -- 7.3 Cell Size Consideration -- 7.4 Cell Networking, Virtual Channels, and Virtual Paths -- 7.4.1 No Data Link Layer -- 7.4.2 Cell Sequence Preservation -- 7.4.3 Virtual-Circuit Hop-by-Hop Routing -- 7.4.4 Virtual Channels and Virtual Paths -- 7.4.5 Routing Using VCI and VPI -- 7.4.6 Motivations for VP/VC Two-Tier Hierarchy -- 7.5 ATM Layer, Adaptation Layer, and Service Class -- 7.6 Transmission Interface -- 7.7 Approaches Toward IP over ATM.
327   $a7.7.1 Classical IP over ATM -- 7.7.2 Next Hop Resolution Protocol -- 7.7.3 IP Switch and Cell Switch Router -- 7.7.4 ARIS and Tag Switching -- 7.7.5 Multiprotocol Label Switching -- Appendix 7.A ATM Cell Format -- 7.A.1 ATM Layer -- 7.A.2 Adaptation Layer -- Problems -- 8 Network Traffic Control and Bandwidth Allocation -- 8.1 Fluid-Flow Model: Deterministic Discussion -- 8.2 Fluid-Flow On-Off Source Model: Stochastic Treatment -- 8.3 Traffic Shaping and Policing -- 8.4 Open-Loop Flow Control and Scheduling -- 8.4.1 First-Come-First-Serve Scheduling -- 8.4.2 Fixed-Capacity Assignment -- 8.4.3 Round-Robin Scheduling -- 8.4.4 Weighted Fair Queueing -- 8.4.5 Delay Bound in Weighted Fair Queueing with Leaky-Bucket Access Control -- 8.5 Closed-Loop Flow Control -- Problems -- 9 Packet Switching and Information Transmission -- 9.1 Duality of Switching and Transmission -- 9.2 Parallel Characteristics of Contention and Noise -- 9.2.1 Pseudo Signal-to-Noise Ratio of Packet Switch -- 9.2.2 Clos Network with Random Routing as a Noisy Channel -- 9.3 Clos Network with Deflection Routing -- 9.3.1 Cascaded Clos Network -- 9.3.2 Analysis of Deflection Clos Network -- 9.4 Route Assignments and Error-Correcting Codes -- 9.4.1 Complete Matching in Bipartite Graphs -- 9.4.2 Graphical Codes -- 9.4.3 Route Assignments of Benes Network -- 9.5 Clos Network as Noiseless Channel-Path Switching -- 9.5.1 Capacity Allocation -- 9.5.2 Capacity Matrix Decomposition -- 9.6 Scheduling and Source Coding -- 9.6.1 Smoothness of Scheduling -- 9.6.2 Comparison of Scheduling Algorithms -- 9.6.3 Two-Dimensional Scheduling -- 9.7 Conclusion -- Bibliography.
330   $aAn authoritative introduction to the roles of switching and transmission in broadband integrated services networks Principles of Broadband Switching and Networking explains the design and analysis of switch architectures suitable for broadband integrated services networks, emphasizing packet-switched interconnection networks with distributed routing algorithms. The text examines the mathematical properties of these networks, rather than specific implementation technologies. Although the pedagogical explanations in this book are in the context of switches, many of the fundamental principles are relevant to other communication networks with regular topologies. After explaining the concept of the modern broadband integrated services network and why it is necessary in today's society, the book moves on to basic switch design principles, discussing two types of circuit switch design - space domain and time domain - and packet switch design. Throughput improvements are illustrated by some switch design variations such as Speedup principle, Channel-Grouping principle, Knockout principle, and Dilation principle. Moving seamlessly into advanced switch design principles, the book covers switch scalability, switch design for multicasting, and path switching. Then the focus moves to broadband communications networks that make use of such switches. Readers receive a detailed introduction on how to allocate network resources and control traffic to satisfy the quality of service requirements of network users and to maximize network usage. As an epilogue, the text shows how transmission noise and packet contention have similar characteristics and can be tamed by comparable means to achieve reliable communication. Principles of Broadband Switching and Networking is written for senior undergraduate and first-year postgraduate students with a solid background in probability theory.
410  0$aWiley series in telecommunications and signal processing.
606   $aBroadband communication systems$xMathematical models
606   $aTelecommunication$xSwitching systems$xMathematical models
606   $aIntegrated services digital networks$xMathematical models
606   $aPacket switching (Data transmission)$xMathematical models
606   $aComputer algorithms
615  0$aBroadband communication systems$xMathematical models.
615  0$aTelecommunication$xSwitching systems$xMathematical models.
615  0$aIntegrated services digital networks$xMathematical models.
615  0$aPacket switching (Data transmission)$xMathematical models.
615  0$aComputer algorithms.
676   $a621.382/16
700   $aLee$b Tony T.$f1960-$0868519
701   $aLiew$b Soung C.$f1948-$0868520
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996   $aPrinciples of broadband switching and networking$91938745
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