Résumé
At the time this is being written, optical (lightwave)
networks, as opposed to optical fiber transmission links,
are just beginning to come on the scene. While it is
certain that these networks will play a key role in the
future worldwide telecommunications infrastructure,
developments in optical technology are moving so fast that
the exact form the networks will take is still not clear.
The purpose of this book is to lay out a general framework
for thinking about, designing and analyzing lightwave
networks in general, and wide area multiwavelength optical
networks in particular. The objective is to make this
framework broad enough so that it will be useful no matter
how these networks evolve in the future, yet specific
enough so that it will be a guide to current workers in the
field.
Table of contents
Table of contents
- List of Figures
- List of Tables
- Preface
- Acknowledgments
- Chapter 1: The Big Picture
- 1.1: Why Optical Networks?
1.2: Wide Area Optical Networks: A Wish List
1.3: Optics versus Electronics: The Case for Transparent Multiwavelength Networks
1.4: Optics and Electronics: The Case for Multilayered Networks
1.5: LAN Interconnection: A Killer Application
1.6: A Little History
1.7: Overview and Road Map
1.8: Bibliography
- Chapter 2: Network Resources
- 2.1: Layers and Sublayers
2.2: Network Links: Spectrum Partitioning
2.3: Optical Network Nodes: Routing, Switching, and Wavelength Conversion
2.4: Network Access Stations
2.5: Overlay Processors
2.6: Logical Network Overlays
2.7: Summary
2.8: Problems
2.9: Bibliography
- Chapter 3: Network Connections
- 3.1: Connection Management and Control
3.2: Static Networks
3.3: Wavelength Routed Networks
3.4: Linear Lightwave Networks: Waveband Routing
3.5: Logically Routed Networks
3.6: Summary
3.7: Problems
3.8: Bibliography
- Chapter 4: Enabling Technology
- 4.1: Evolution of Transmission and Switching
Technology
4.2: Overview of the Optical Connection
4.3: Optical Fibers
4.4: Amplifiers
4.5: Optical Transmitters
4.6: Optical Receivers in Intensity-Modulated Direct-Detection Systems
4.7: Coherent Optical Systems
4.8: Cross-talk
4.9: Optical and Photonic Device Technology
4.10: Wavelength Converters
4.11: Space Switch Architectures
4.12: The End-to-End Transmission Path: Reach
4.13: Problems
4.14: Bibliography
- Chapter 5: Static Multipoint Networks
- 5.1: Shared Media: The Broadcast Star
5.2: Representative Multiplexing and Multiple Access Schemes
5.3: Traffic Constraints in Shared-Channel Networks
5.4: Capacity Allocation for Dedicated Connections
5.5: Demand-Assigned Connections
5.6: Packet Switching in the Optical Layer
5.7: Some Photonic Packet Switching Examples
5.8: Summary
5.9: Problems
5.10: Bibliography
- Chapter 6: Wavelength/Waveband Routed
Networks
- 6.1: Introduction
6.2: Physical Topologies
6.3: Wavelength Routed Networks: Static Routing and Channel Assignment
6.4: Wavelength Routed Networks: Dynamic Routing and Channel Assignment
6.5: Linear Lightwave Networks: Static Routing Rules
6.6: Linear Lightwave Networks: Dynamic Routing Rules
6.7: Economic Trade-offs in Multiwavelength Optical Networking
6.8: Problems
6.9: Bibliography
- Chapter 7: Logically Routed Networks
- 7.1: Point-to-Point Logical Topologies: Multihop
Networks
7.2: Multihop Network Design
7.3: Multipoint Logical Topologies: Hypernets
7.4: Hypernet Design
7.5: Summary
7.6: Problems
7.7: Bibliography
- Chapter 8: Survivability: Protection and
Restoration
- 8.1: Objectives of Protection and Restoration
8.2: Current Fault Restoration Techniques in the Logical Layer
8.3: Optical Layer Restoration and Protection: Point-to-Point and Ring Architectures
8.4: Shared Optical Layer Protection: Mesh Topologies
8.5: Mesh Topologies: Optical Path Protection
8.6: Problems
8.7: Bibliography
- Chapter 9: Current Trends in Multiwavelength Optical
Networking
- 9.1: Business Drivers for WDM Networks
9.2: Point-to-Point WDM Systems
9.3: WDM Optical Cross-connect Mesh Networks
9.4: WDM Rings with Wavelength Add-Drop Multiplexers
9.5: Multiwavelength Optical Network Testbeds
9.6: Bibliography
- Appendices
- Appendix A: Graph Theory
- Appendix B: Fixed Scheduling Algorithm
- Appendix C: Markov Chains and Queues
- Appendix D: A Limiting-Cut Heuristic
- Appendix E: An Algorithm for Minimum-Interference
Routing in Linear Lightwave Networks
- Appendix F: Synopsis of the SONET Standard
- A-F Bibliography
- Acronyms
- Index
L'auteur - Thomas Stern
Autres livres de Thomas Stern
Caractéristiques techniques
| PAPIER | |
| Éditeur(s) | Addison Wesley |
| Auteur(s) | Thomas Stern |
| Parution | 15/05/1999 |
| Nb. de pages | 764 |
| Format | 18 x 24 |
| Poids | 1400g |
| EAN13 | 9780201309676 |
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