Optical networks a practical perspective
The third edition of Optical Networks continues to be the authoritative source for information on optical networking technologies and techniques. Componentry and transmission are discussed in detail with emphasis on practical networking issues that affect organizations as they evaluate, deploy, or...
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| Otros Autores: | , |
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Boston :
Elsevier/Morgan Kaufmann
c2010.
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| Edición: | 3rd ed |
| Colección: | Morgan Kaufmann series in networking.
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| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009628348906719 |
Tabla de Contenidos:
- Front Cover; Copyright Page; Optical Networks: A Practical Perspective; Contents; Foreword; Preface to the First Edition; Preface to the Second Edition; Preface to the Current Edition; Chapter 1. Introduction to Optical Networks; 1.1 Telecommunications Network Architecture; 1.2 Services, Circuit Switching, and Packet Switching; 1.3 Optical Networks; 1.4 The Optical Layer; 1.5 Transparency and All-Optical Networks; 1.6 Optical Packet Switching; 1.7 Transmission Basics; 1.8 Network Evolution; Summary; Further Reading; References; Part I: Technology
- Chapter 2. Propagation of Signals in Optical Fiber2.1 Loss and Bandwidth Windows; 2.2 Intermodal Dispersion; 2.3 Optical Fiber as a Waveguide; 2.4 Chromatic Dispersion; 2.5 Nonlinear Effects; 2.6 Solitons; 2.7 Other Fiber Technologies; Summary; Further Reading; Problems; References; Chapter 3. Components; 3.1 Couplers; 3.2 Isolators and Circulators; 3.3 Multiplexers and Filters; 3.4 Optical Amplifiers; 3.5 Transmitters; 3.6 Detectors; 3.7 Switches; 3.8 Wavelength Converters; Summary; Further Reading; Problems; References; Chapter 4. Modulation and Demodulation; 4.1 Modulation
- 4.2 Subcarrier Modulation and Multiplexing4.3 Spectral Efficiency; 4.4 Demodulation; 4.5 Error Detection and Correction; Summary; Further Reading; Problems; References; Chapter 5. Transmission System Engineering; 5.1 System Model; 5.2 Power Penalty; 5.3 Transmitter; 5.4 Receiver; 5.5 Optical Amplifiers; 5.6 Crosstalk; 5.7 Dispersion; 5.8 Fiber Nonlinearities; 5.9 Wavelength Stabilization; 5.10 Design of Soliton Systems; 5.11 Design of Dispersion-Managed Soliton Systems; 5.12 Overall Design Considerations; Summary; Further Reading; Problems; References; Part II: Networks
- Chapter 6. Client Layers of the Optical Layer6.1 SONET/SDH; 6.2 Optical Transport Network; 6.3 Generic Framing Procedure; 6.4 Ethernet; 6.5 IP; 6.6 Multiprotocol Label Switching; 6.7 Resilient Packet Ring; 6.8 Storage-Area Networks; Summary; Further Reading; Problems; References; Chapter 7. WDM Network Elements; 7.1 Optical Line Terminals; 7.2 Optical Line Amplifiers; 7.3 Optical Add/Drop Multiplexers; 7.4 Optical Crossconnects; Summary; Further Reading; Problems; References; Chapter 8. Control and Management; 8.1 Network Management Functions; 8.2 Optical Layer Services and Interfacing
- 8.3 Layers within the Optical Layer8.4 Multivendor Interoperability; 8.5 Performance and Fault Management; 8.6 Configuration Management; 8.7 Optical Safety; Summary; Further Reading; Problems; References; Chapter 9. Network Survivability; 9.1 Basic Concepts; 9.2 Protection in SONET/SDH; 9.3 Protection in the Client Layer; 9.4 Why Optical Layer Protection; 9.5 Optical Layer Protection Schemes; 9.6 Interworking between Layers; Summary; Further Reading; Problems; References; Chapter 10. WDM Network Design; 10.1 Cost Trade-Offs: A Detailed Ring Network Example; 10.2 LTD and RWA Problems
- 10.3 Dimensioning Wavelength-Routing Networks
