Network Recovery: Protection and Restoration of Optical, SONET-SDH, IP, and Mpls
Autor Jean-Philippe Vasseur, Mario Pickavet, Piet Demeesteren Limba Engleză Paperback – 30 iun 2004
* Shows you how to implement protection and recovery techniques that will save your organization time and money.
* Documents techniques for the optical, SONET-SDH, IP, and MPLS layers, as well as multi-layer escalation strategies.
* Shows you how to evaluate these techniques in relation to one another, so you can develop an optimal network recovery design.
* Provides industry examples and simulation results.
* Delves into the inner workings of relevant protocols and offers theoretical analyses wherever this information contributes to your practical knowledge."
Preț: 543.81 lei
Preț vechi: 611.02 lei
-11% Nou
Puncte Express: 816
Preț estimativ în valută:
104.08€ • 108.19$ • 86.22£
104.08€ • 108.19$ • 86.22£
Carte indisponibilă temporar
Doresc să fiu notificat când acest titlu va fi disponibil:
Se trimite...
Preluare comenzi: 021 569.72.76
Specificații
Cuprins
Chapter 1: Introduction
1.1 Communications networks today
1.2 Network reliability
1.3 Different phases in a recovery process
1.4 Performance of recovery mechanisms: criteria
1.5 Classification of single-layer recovery mechanisms
1.6 Multi-layer recovery
1.7 Conclusion
Chapter 2: SONET-SDH
2.1 Introduction: transmission networks
2.2 SDH and SONET Networks
2.3 Operational aspects
2.4 Ring protection
2.5 Linear Protection
2.6 Restoration
2.7 Case study
2.8 Summary
2.9 Recommended reference work and research-related topics
Chapter 3: Optical Networks
3.1 Evolution of the optical network layer
3.2. The Optical Transport Network
3.3 Fault detection and propagation
3.4 Recovery in optical networks
3.5 Recovery mechanisms in ring-based optical networks
3.6 Recovery mechanisms in mesh-based optical networks
3.7 Ring-based versus mesh-based recovery schemes
3.8 Availability
3.9 Som recent trends in research
3.10 Summary
Chapter 4: IP Routing
4.1 IP routing protocols
4.2 Analysis of the IP recovery cycle
4.3 Failure profile and fault detection
4.4 Dampening algorithms
4.5 FIS propagation (LSA origination and flooding)
4.6 Route computation
4.7 Temporary loops during network states changes
4.8 Load balancing
4.9 QOS guarantees during failure
4.10 Non Stop Forwarding: an example with OSPF
4.11 A case study with IS-IS
4.12 Summary
4.13 Algorithm complexity
4.14 Incremental SPF
4.15 Interaction between fast IGP convergence and NSF
4.16 Research related topics
Chapter 5: MPLS Traffic Engineering
5.1 MPLS Traffic Engineering refresher
5.2. Analysis of the recovery cycle
5.3. MPLS Traffic Engineering global default restoration
5.4 MPLS Traffic engineering global path protection
5.5 MPLS Traffic Engineering local protection
5.6. Another MPLS Traffic Engineering recovery alternative
5.7. Load balancing
5.8 Comparison of global protection and local protection
5.9 Revertive versus non revertive modes
5.10 Failure profiles and fault detection
5.11 Case Studies
5.12 Standardization
5.13 Summary
5.14 RSVP signaling extensions for MPLS TE local protection
5.15 Backup path computation
5.16 Research related topics
Chapter 6 Multi-Layer Networks
6.1 ASON / GMPLS networks
6.2 Generic multi-layer recovery approaches
6.3 Case studies
6.4 Conclusion
6.5 References
1.1 Communications networks today
1.2 Network reliability
1.3 Different phases in a recovery process
1.4 Performance of recovery mechanisms: criteria
1.5 Classification of single-layer recovery mechanisms
1.6 Multi-layer recovery
1.7 Conclusion
Chapter 2: SONET-SDH
2.1 Introduction: transmission networks
2.2 SDH and SONET Networks
2.3 Operational aspects
2.4 Ring protection
2.5 Linear Protection
2.6 Restoration
2.7 Case study
2.8 Summary
2.9 Recommended reference work and research-related topics
Chapter 3: Optical Networks
3.1 Evolution of the optical network layer
3.2. The Optical Transport Network
3.3 Fault detection and propagation
3.4 Recovery in optical networks
3.5 Recovery mechanisms in ring-based optical networks
3.6 Recovery mechanisms in mesh-based optical networks
3.7 Ring-based versus mesh-based recovery schemes
3.8 Availability
3.9 Som recent trends in research
3.10 Summary
Chapter 4: IP Routing
4.1 IP routing protocols
4.2 Analysis of the IP recovery cycle
4.3 Failure profile and fault detection
4.4 Dampening algorithms
4.5 FIS propagation (LSA origination and flooding)
4.6 Route computation
4.7 Temporary loops during network states changes
4.8 Load balancing
4.9 QOS guarantees during failure
4.10 Non Stop Forwarding: an example with OSPF
4.11 A case study with IS-IS
4.12 Summary
4.13 Algorithm complexity
4.14 Incremental SPF
4.15 Interaction between fast IGP convergence and NSF
4.16 Research related topics
Chapter 5: MPLS Traffic Engineering
5.1 MPLS Traffic Engineering refresher
5.2. Analysis of the recovery cycle
5.3. MPLS Traffic Engineering global default restoration
5.4 MPLS Traffic engineering global path protection
5.5 MPLS Traffic Engineering local protection
5.6. Another MPLS Traffic Engineering recovery alternative
5.7. Load balancing
5.8 Comparison of global protection and local protection
5.9 Revertive versus non revertive modes
5.10 Failure profiles and fault detection
5.11 Case Studies
5.12 Standardization
5.13 Summary
5.14 RSVP signaling extensions for MPLS TE local protection
5.15 Backup path computation
5.16 Research related topics
Chapter 6 Multi-Layer Networks
6.1 ASON / GMPLS networks
6.2 Generic multi-layer recovery approaches
6.3 Case studies
6.4 Conclusion
6.5 References
Recenzii
"If one desires to learn as extensive and still evolving a field as network recovery, he or she will be interested in a book prepared by authors related to two somewhat separate worlds: industry and academia. ... This combination of knowledge gives an excellent overview of hot topics related to communications network resilience.... The advantage of this book is related to the fact that each chapter can be read separately, since the authors briefly repeat the most important ideas as necessary. The other benefit is that the current state of the development level of some techniques is signaled. To sum up, the book gives the reader a deep insight into "how it works." ... Thanks to this fact, the book can be recommended to everybody interested in network recovery, from layperson to experienced designer who would like to learn about the latest solutions." --IEEE Communications Magazine, Book Reviews, July 2005. Reviewer: Piotr Cholda
"This is the right book at the right time for anyone in the telecommunications business, or anyone who is dependent on the services provided by the telecommunications business that would like to understand the new Internet that is rapidly becoming the common reality." --From the Foreword by Scott Bradner, Senior Technical Consultant and University Technology, Security Officer at Harvard University
"This book provides a welcome overview of the many techniques applied to protect and recover data paths in IP and MPLS networks as well as in SONET/SDH and optical transport networks. The analysis and case studies of MPLS Traffic Engineering recovery mechanisms will be particularly useful to operators intending to deploy MPLS protection within their networks." --Adrian Farrel, Old Dog Consulting & Co-Chair of the IETF CCAMP Working Group
"I recommend this book to anyone responsible for the design, implementation and management of any-sized communications network." --David Cooper, Global Crossing
"Writing a didactic and up-to-date book on protection and restoration techniques in new generation WDM networks is a real challenge. This requires two distinct fields of expertise in new generation IP/MPLS networks and in advanced optical transmission systems respectively. For the first time, such specialists have joined their efforts to make a book that gives readers a unique opportunity for understanding the details behind the main characteristics and challenges of multi-layer survivability." --Maurice Gagnaire, ENST, École Nationale Supérieure des Télécommunications
"This is the right book at the right time for anyone in the telecommunications business, or anyone who is dependent on the services provided by the telecommunications business that would like to understand the new Internet that is rapidly becoming the common reality." --From the Foreword by Scott Bradner, Senior Technical Consultant and University Technology, Security Officer at Harvard University
"This book provides a welcome overview of the many techniques applied to protect and recover data paths in IP and MPLS networks as well as in SONET/SDH and optical transport networks. The analysis and case studies of MPLS Traffic Engineering recovery mechanisms will be particularly useful to operators intending to deploy MPLS protection within their networks." --Adrian Farrel, Old Dog Consulting & Co-Chair of the IETF CCAMP Working Group
"I recommend this book to anyone responsible for the design, implementation and management of any-sized communications network." --David Cooper, Global Crossing
"Writing a didactic and up-to-date book on protection and restoration techniques in new generation WDM networks is a real challenge. This requires two distinct fields of expertise in new generation IP/MPLS networks and in advanced optical transmission systems respectively. For the first time, such specialists have joined their efforts to make a book that gives readers a unique opportunity for understanding the details behind the main characteristics and challenges of multi-layer survivability." --Maurice Gagnaire, ENST, École Nationale Supérieure des Télécommunications