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Resilient Optical Network Design

Book Description

Resilient Optical Network Design: Advances in Fault-Tolerant Methodologies is a collection of the latest contributions to the area of survivability in optical networks. Each chapter focuses on theoretical and practical aspects of network survivability methodologies applied to real world scenarios, making this a useful reference for research and development engineers, graduate students studying optical networks, and senior undergraduate students with a background in algorithms and networking.

Table of Contents

  1. Cover
  2. Title Page
  3. Copyright Page
  4. Preface
  5. Acknowledgment
  6. Chapter 1: Survivability in Optical Networks
    1. Abstract
    2. INTRODUCTION
    3. Background
    4. FAILURE AND QUALITY OF PROTECTION
    5. SURVIVABILITY PrOVISIONING IN WDM OpTICAL NETWORKS
    6. RECENT DEVELOPMENTS
    7. FuTURE rESEARCH dIRECTIONS
    8. Conclusion
  7. Chapter 2: Protection Survivability Architectures
    1. Abstract
    2. INTRODUCTION
    3. Background
    4. Protection schemes against multiple failures
    5. Connection availability evaluation methods
    6. FuTURE rESEARCH dIRECTIONS
    7. Conclusion
  8. Chapter 3: Protection Architectures for WDM Passive Optical Networks
    1. ABSTRACT
    2. INTRODUCTION
    3. BACKGROUND
    4. ITU-T RECOMMENDED PROTECTION ARCHITECTURES
    5. METHODS OF PROTECTION
    6. EXISTING PROTECTION ARCHITECTURES
    7. COMPARATIVE ANALYSIS
    8. CONCLUSION AND FUTURE WORK
  9. Chapter 4: Fault Management in Transparent Optical Networks
    1. ABSTRACT
    2. INTRODUCTION
    3. TRANSPARENT OPTICAL NETWORKS
    4. FAULT DETECTION AND LOCALIZATION
    5. TRANSPARENT FAULT LOCATION ALGORITHM
    6. MONITORING EQUIPMENT PLACEMENT
    7. CONCLUSION
  10. Chapter 5: All-Optical Resilient Pulse-Position-Modulation-Based Packet-Switched Routing
    1. ABSTRACT
    2. Introduction
    3. All Optical Routing Schemes
    4. All-Optical Pulse-Position-Modulation Header Processing Router
    5. Resilient All-Optical Router
    6. Conclusion
  11. Chapter 6: Performance Evaluation of Survivability Approaches in Optical Networks
    1. Abstract
    2. INTRODUCTION
    3. APPLIED TRAFFIC
    4. SOLUTIONS UNDER STATIC TRAFFIC
    5. Conclusion
  12. Chapter 7: Maximizing Primary Capacities in Survivable Networks
    1. Abstract
    2. INTRODUCTION: Survivability and capacity planning
    3. DISTRIBUTED P-CYCLE LINK PROTECTION
    4. network model
    5. UPPER BOUND ON PRIMARY CAPACITY
    6. distributed p-Cycle link protection Allocation
    7. Future Research DirectionS
    8. CONCLUsion
  13. Chapter 8: Dynamic Traffic Grooming under a Differentiated Resilience Scheme for WDM Mesh Networks
    1. ABSTRACT
    2. INTRODUCTION
    3. Proposed Schemes
    4. Performance Evaluation
    5. Conclusion
  14. Chapter 9: Robust Design and Management of Optical Networks
    1. Abstract
    2. INTRODUCTION
    3. Availability EVALUATION IN Optical Networks
    4. Availability-Constrained Planning of Optical Networks
    5. Availability-Constrained Network MANAGEMENT
    6. Summary and Discussion
  15. Chapter 10: New Dimensions for Survivable Service Provisioning in Optical Backbone and Access Networks
    1. ABSTRACT
    2. INTRODUCTION
    3. BACKGROUND
    4. DYNAMIC SCHEDULING of SURVIVABLE CONNECTIONS in OPTICAL WDM NETWORKS
    5. DYNAMIC PROVISIONING OF OPTICAL CIRCUITS WITH DIFFERENTIATED SURVIVABILITY REQUIREMENTS
    6. SURVIVABLE FIBER ACCESS NETWORK
    7. CONCLUSION
    8. FUTURE TRENDS
  16. Chapter 11: Distributed Quality of Service Based Provisioning Framework for Survivable Optical Networks
    1. ABSTRACT
    2. INTRODUCTION
    3. QUALITY OF SERVICE IN OPTICAL NETWORKS
    4. AVAILABILITY ANALYSIS IN WDM MESH NETWORKS
    5. DISTRIBUTED AVAILABILITY-AWARE PROVISIONING FRAMEWORK
    6. TRACKING THE AVAILABILITY CONSTRAINTS OF EXISTING CONNECTIONS
    7. PERFORMANCE EVALUATION
    8. CONCLUSION
  17. Chapter 12: Self-healing on Transparent Optical Packet Switching Mesh Networks
    1. ABSTRACT
    2. Introduction
    3. PROBLEM DESCRIPTION
    4. RELATED WORK
    5. SELF-HEALING APPROACH
    6. NUMERICAL RESULTS
    7. CONCLUSION AND FUTURE WORK
  18. Chapter 13: Optical Communication
    1. ABSTRACT
    2. INTRODUCTION
    3. OPTICAL FIBERS
    4. OPTICAL SOURCES AND DETECTORS
    5. FIBER-OPTIC COMMUNICATION FOR TELECOM APPLICATIONS
    6. COMMUNICATION IN AUTOMOTIVE SYSTEMS
    7. CONCLUSION AND OUTLOOK
  19. Compilation of References
  20. About the Contributors
  21. Index