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9780471671701

Optical WDM Networks Concepts and Design Principles

by ;
  • ISBN13:

    9780471671701

  • ISBN10:

    0471671703

  • Edition: 1st
  • Format: Hardcover
  • Copyright: 2004-08-04
  • Publisher: Wiley-IEEE Press
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Summary

The essential guide to the state of the art in WDM and its vast networking potential As a result of its huge transmission capacity and countless other advantages, fiber optics has fostered a bandwidth revolution, addressing the constantly growing demand for increased bandwidth. Within this burgeoning area, Wavelength Division Multiplexing (WDM) has emerged as a breakthrough technology for exploiting the capacity of optical fibers. Today, WDM is deployed by many network providers for point-to-point transmission-but there is strong momentum to develop it as a full-fledged networking technology in its own right. The telecommunications industry, network service providers, and research communities worldwide are paying close attention. Optical WDM Networks presents an easy-to-follow introduction to basic concepts, key issues, effective solutions, and state-of-the-art technologies for wavelength-routed WDM networks. Responding to the need for resources focused on the networking potential of WDM, the book is organized in terms of the most important networking aspects, such as: * Network control architecture * Routing and wavelength assignment * Virtual topology design and reconfiguration * Distributed lightpath control and management * Optical-layer protection and restoration * IP over WDM * Trends for the future in optical networks Each chapter includes examples and problems that illustrate and offer practical application of concepts, as well as extensive references for further reading. This is an essential resource for professionals and students in electrical engineering, computer engineering, and computer science as well as network engineers, designers, planners, operators, and managers who seek a backbone of knowledge in optical networks.

Author Biography

JUN ZHENG, PhD, is a research scientist with the School of Information Technology and Engineering at the University of Ottawa, Canada. He received his PhD from the University of Hong Kong. He has been involved in extensive research and development in telecommunications engineering for many years. An award-winning scientist in the communications technology field, Zheng is a member of IEEE. <BR> HUSSEIN T. MOUFTAH, PhD, is Canada Research Chair Professor in the School of Information Technology and Engineering at the University of Ottawa, Canada. Formerly a professor and associate head of the Department of Electrical and Computer Engineering at Queen&#146;s University, he is an IEEE Fellow and served as editor-in-chief of IEEE Communications magazine and later as IEEE Communications Society Director of Magazines. Dr. Mouftah is author or coauthor of three books and more than 700 technical papers and eight patents.

Table of Contents

Preface xiii
Acknowledgments xv
1. Introduction 1(22)
1.1. Optical networks: a brief picture
1(2)
1.2. WDM technology
3(3)
1.3. WDM network architectures
6(8)
1.3.1. Broadcast-and-select WDM networks
6(2)
1.3.2. Wavelength-routed WDM networks
8(6)
1.4. Focus of this book
14(4)
1.4.1. Routing and wavelength assignment
14(1)
1.4.2. Virtual topology design and reconfiguration
15(1)
1.4.3. Lightpath control and management
15(1)
1.4.4. Optical layer survivability
16(1)
1.4.5. IP over WDM
17(1)
1.5. Outline of this book
18(2)
Problems
20(1)
References
20(3)
2. Fundamentals of WDM Network Devices 23(22)
2.1. Introduction
23(1)
2.2. Optical fibers
23(4)
2.3. Couplers
27(2)
2.4. Optical amplifiers
29(2)
2.5. Transmitters
31(1)
2.6. Receivers
32(1)
2.7. Optical add/drop multiplexers
33(1)
2.8. Optical cross-connects
33(3)
2.9. Wavelength-convertible cross-connects
36(4)
2.10. Wavelength converters
40(2)
2.11. Summary
42(1)
Problems
43(1)
References
43(2)
3. Routing and Wavelength Assignment 45(44)
3.1. Introduction
45(1)
3.2. RWA problem
46(3)
3.2.1. Static RWA and dynamic RWA
47(1)
3.2.2. Centralized RWA and distributed RWA
48(1)
3.3. Static RWA
49(7)
3.3.1. ILP formulations for SLE without wavelength conversion
49(4)
3.3.2. ILP formulation for SLE with wavelength conversion
53(1)
3.3.3. ILP formulation for static routing
54(1)
3.3.4. Static wavelength assignment
55(1)
3.4. Dynamic RWA
56(12)
3.4.1. Routing
57(2)
3.4.2. Wavelength assignment
59(6)
3.4.3. RWA algorithms
65(3)
3.5. RWA for Fairness
68(3)
3.5.1. Wavelength reservation
70(1)
3.5.2. Threshold protection
70(1)
3.5.3. Limited alternate routing
70(1)
3.6. Wavelength Rerouting
71(13)
3.6.1. Need for wavelength rerouting
71(2)
3.6.2. Problems in wavelength rerouting
73(1)
3.6.3. Lightpath migration operations
73(3)
3.6.4. Lightpath rerouting schemes
76(4)
3.6.5. Wavelength rerouting algorithms
80(4)
3.7. Summary
84(1)
Problems
85(1)
References
85(4)
4. Virtual Topology Design 89(42)
4.1. Introduction
89(1)
4.2. Virtual topology design problem
90(8)
4.2.1. Physical and virtual topologies
92(2)
4.2.2. Subproblems in virtual topology design
94(3)
4.2.3. Virtual topology optimization
97(1)
4.3. Virtual topology design formulation
98(5)
4.3.1. Terminology
98(1)
4.3.2. Formulation
99(4)
4.4. Heuristics
103(20)
4.4.1. Bounds
104(3)
4.4.2. Heuristics design
107(2)
4.4.3. Heuristics for regular topology design
109(5)
4.4.4. Heuristics for predetermined topology design
114(2)
4.4.5. Heuristics for arbitrary topology design
116(7)
4.5. Virtual topology reconfiguration
123(4)
4.5.1. Reconfiguration for traffic changes
125(1)
4.5.2. Reconfiguration for topology changes
126(1)
4.6. Summary
127(1)
Problems
127(1)
References
128(3)
5. Distributed Lightpath Establishment 131(34)
5.1. Introduction
131(1)
5.2. Problems in distributed lightpath establishment
132(4)
5.2.1. Routing
133(2)
5.2.2. Wavelength assignment
135(1)
5.2.3. Wavelength reservation
135(1)
5.3. Routing
136(6)
5.3.1. Explicit routing
136(1)
5.3.2. Hop-by-hop routing
137(5)
5.3.3. Flooding-based routing
142(1)
5.4. Wavelength reservation
142(12)
5.4.1. Parallel reservation
143(1)
5.4.2. Sequential reservation
144(6)
5.4.3. Reservation policies
150(4)
5.5. Distributed control protocols for lightpath establishment
154(7)
5.5.1. Source routing with forward reservation
154(1)
5.5.2. Source routing with backward reservation
155(1)
5.5.3. Destination routing with backward reservation
156(1)
5.5.4. Alternate-link routing with backward reservation
157(1)
5.5.5. Flooding-based routing with backward reservation
158(1)
5.5.6. Multiple-path routing with backward reservation
159(1)
5.5.7. Neighborhood-information-based routing with backward reservation
160(1)
5.6. Summary
161(1)
Problems
162(1)
References
163(2)
6. Optical Layer Survivability 165(46)
6.1. Introduction
165(1)
6.2. Need for optical layer survivability
166(2)
6.3. Protection and restoration for optical layer survivability
168(12)
6.3.1. Protection for point-to-point WDM links
169(2)
6.3.2. Static protection and dynamic restoration
171(1)
6.3.3. Dedicated protection and shared protection
172(1)
6.3.4. Link protection and path protection
173(3)
6.3.5. Link restoration and path restoration
176(2)
6.3.6. Segment protection
178(1)
6.3.7. Considerations in survivable network design
179(1)
6.4. Survivable network design for static traffic
180(4)
6.4.1. Survivable network design problem
180(1)
6.4.2. ILP formulations
181(3)
6.5. Survivable routing for dynamic traffic
184(9)
6.5.1. Dedicated and shared survivable routing
185(1)
6.5.2. Cost function
185(2)
6.5.3. Static and dynamic survivable routing
187(3)
6.5.4. Separate and joint survivable routing
190(2)
6.5.5. Centralized and distributed survivable routing
192(1)
6.6. Dynamic restoration
193(13)
6.6.1. Problems in dynamic restoration
193(2)
6.6.2. Source-initiated restoration
195(2)
6.6.3. Destination-initiated restoration
197(2)
6.6.4. Bi-initiation-based restoration
199(3)
6.6.5. Multi-initiation-based restoration
202(4)
6.7. Summary
206(1)
Problems
207(1)
References
207(4)
7. IP over WDM 211(40)
7.1. Introduction
211(1)
7.2. IP over WDM layered models
212(5)
7.2.1. IP over ATM over SONET/SDH over WDM
214(1)
7.2.2. IP over SONET/SDH over WDM
215(1)
7.2.3. IP over WDM
216(1)
7.3. IP over WDM network model
217(2)
7.3.1. Network model
217(1)
7.3.2. UNI and NNI
218(1)
7.4. IP over WDM service models
219(2)
7.4.1. Domain service model
219(1)
7.4.2. Unified service model
220(1)
7.5. IP over WDM interconnection models
221(3)
7.5.1. Overlay model
221(1)
7.5.2. Peer model
222(1)
7.5.3. Augmented model
223(1)
7.6. Control plane for optical networks
224(2)
7.6.1. Requirements for optical control plane
224(1)
7.6.2. MPLS-based optical control planes
225(1)
7.7. Multiprotocol Label Switching
226(4)
7.7.1. Packet forwarding and label swapping
226(2)
7.7.2. Routing and path establishment
228(1)
7.7.3. Traffic engineering with MPLS
228(2)
7.8. Multiprotocol Lambda Switching
230(2)
7.8.1. Analogy between MPLS and MPLmS
230(1)
7.8.2. Extensions to routing and signaling protocols
231(1)
7.9. Generalized Multiprotocol Label Switching
232(7)
7.9.1. Forwarding hierarchy
233(2)
7.9.2. Link bundling
235(1)
7.9.3. Unnumbered links
236(1)
7.9.4. Extensions to routing and signaling protocols
236(2)
7.9.5. Link management protocol
238(1)
7.10. Survivability in IP over WDM networks
239(6)
7.10.1. Survivability in WDM networks
239(2)
7.10.2. Survivability in IP networks
241(2)
7.10.3. Multilayer survivability in IP over WDM networks
243(2)
7.11. Summary
245(1)
Problems
246(1)
References
247(4)
8. Future Trends in Optical Networks 251(14)
8.1. Introduction
251(2)
8.2. IP over WDM
253(1)
8.3. Optical packet switching
254(2)
8.4. Optical burst switching
256(2)
8.5. Optical metro networks
258(2)
8.6. Optical access networks
260(1)
Problems
261(1)
References
261(4)
Appendices 265(12)
A. Basics of graph theory
265(4)
B. Dijkstra's Algorithm
269(4)
C. Acronyms
273(4)
Index 277

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