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Cognitive Radio Technology Applications for Wireless and Mobile Ad Hoc Networks

Book Description

Radio interference is a problem that has plagued air communication since its inception. Advances in cognitive radio science help to mitigate these concerns. Cognitive Radio Technology Applications for Wireless and Mobile Ad Hoc Networks provides an in-depth exploration of cognitive radio and its applications in mobile and/or wireless network settings. The book combines a discussion of existing literature with current and future research to create an integrated approach that is useful both as a textbook for students of computer science and as a reference book for researchers and practitioners engaged in solving the complex problems and future challenges of cognitive radio technologies.

Table of Contents

  1. Cover
  2. Title Page
  3. Copyright Page
  4. Book Series
  5. Editorial Advisory Board and List of Reviewers
    1. Editorial Advisory Board
  6. Preface
  7. Acknowledgment
  8. Chapter 1: Introduction to Cognitive Radio Networks
    1. ABSTRACT
    2. INTRODUCTION
    3. SPECTRUM SENSING
    4. MEDIUM ACCESS CONTROL PROTOCOLS FOR COGNITIVE RADIO NETWORKS
    5. ROUTING IN COGNITIVE RADIO NETWORKS
    6. TRANSPORT LAYER ISSUES AND SOLUTIONS FOR COGNITIVE RADIO NETWORKS
    7. SECURITY ATTACKS ON COGNITIVE RADIO NETWORKS AND COUNTERMEASURES
    8. CONCLUSION
    9. REVIEW QUESTIONS
  9. Section 1: Spectrum Sensing
    1. Chapter 2: Dynamic Spectrum Access Techniques
      1. ABSTRACT
      2. INTRODUCTION
      3. COGNITIVE RADIO
      4. DYNAMIC SPECTRUM ACCESS
      5. ADVANTAGES AND LIMITATIONS OF SPECTRUM ACCESS METHODS
      6. CONCLUSION
      7. APPENDIX - REVIEW QUESTIONS
    2. Chapter 3: Energy Detection Based Spectrum Sensing Analysis of Cooperative Cognitive Radios under Different Fading Environments
      1. ABSTRACT
      2. INTRODUCTION
      3. SPECTRUM SENSING
      4. MATHEMATICAL ANALYSIS OF ENERGY DETECTOR
      5. MULTIPATH FADING
      6. SYSTEM MODEL
      7. DIRECT LINK WITHOUT RELAY
      8. SINGLE RELAY WITH DIRECT LINK
      9. END TO END SNR FOR SINGLE RELAY
      10. MULTIPLE RELAYS WITH DIRECT LINK
      11. SIMULATION RESULTS AND DISCUSSION
      12. CONCLUSION
      13. FUTURE SCOPE
      14. REVIEW QUESTIONS
    3. Chapter 4: Perturbation Analysis for Spectrum Sharing
      1. ABSTRACT
      2. INTRODUCTION
      3. COGNITIVE NETWORK MODEL
      4. PERTURBATION ANALYSIS
      5. NUMERICAL RESULTS
      6. CONCLUSION
    4. Chapter 5: Spectrum Sensing in Emergency Cognitive Radio Ad Hoc Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. SPECTRUM SENSING IN EMERGENCY COGNITIVE RADIO AD HOC NETWORKS
      5. FUTURE RESEARCH DIRECTIONS
      6. CONCLUSION
      7. REVIEW QUESTIONS
    5. Chapter 6: Spectrum Handoff Management in Cognitive Radio Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. SPECTRUM HANDOFF: PROBLEMS AND SOLUTIONS
      4. SPECTRUM HANDOFF MANAGEMENT SCHEMES: A REVIEW OF LITERATURE
      5. SYSTEM MODEL
      6. PERFORMANCE STUDY
      7. CONCLUSION AND FUTURE DIRECTIONS
      8. APPENDIX - REVIEW QUESTIONS
  10. Section 2: Architecture and Security Issues
    1. Chapter 7: Architecture of Cognitive Radio Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND OF COGNITIVE RADIO
      4. SOFTWARE DEFINED RADIO (SDR)
      5. COGNITIVE RADIO (CR) TECHNOLOGY
      6. WORKING PRINCIPLE OF COGNITIVE RADIO
      7. ARCHITECTURE OF COGNITIVE RADIO NETWORK (CRN)
      8. SPECTRUM SENSING
      9. SPECTRUM DECISION
      10. SPECTRUM SHARING
      11. SPECTRUM MOBILITY
      12. PERFORMANCE METRICS OF CRN
      13. SCOPE OF ENHANCEMENT IN DESIGNING SMART ARCHITECTURE OF CRN USING AI
      14. CONCLUSION
      15. REVIEW QUESTIONS
    2. Chapter 8: Cloud Computing Based Cognitive Radio Networking
      1. ABSTRACT
      2. INTRODUCTION
      3. CLOUD COMPUTING CONCEPT FOR COGNITIVE RADIO NETWORKS
      4. FEATURES OF CLOUD COMPUTING BASED COGNITIVE RADIO NETWORKS
      5. SPECTRUM MANAGEMENT MODELS FOR CLOUD COMPUTING
      6. FUTURE RESEARCH DIRECTIONS
      7. CONCLUSION
    3. Chapter 9: Optimal RF Beamforming for MIMO
      1. ABSTRACT
      2. INTRODUCTION
      3. SYSTEM MODEL AND PROBLEM STATEMENT
      4. SIMULATION RESULTS
      5. CONCLUSION
      6. APPENDIX I – PROOF OF THEOREM 1
    4. Chapter 10: Nanocomputing in Cognitive Radio Networks to Improve the Performance
      1. ABSTRACT
      2. INTRODUCTION
      3. RELATED WORK
      4. NANOTECHNOLOGY, GPU AND COGNITIVE RADIO NETWORKS
      5. SPECTRUM HOLES
      6. SPECTRUM SENSING MODEL
      7. INTEGRATION OF NVIDA AND COGNITIVE RADIO TO DETECT THE SPECTRUM HOLES
      8. CUDA PROGRAMMING MODEL AND PERFORMANCE CONSIDERATIONS
      9. DISCUSSION OF THE RESULTS
      10. CONCLUSION AND FUTURE WORK
      11. CHAPTER QUESTIONS
    5. Chapter 11: Security and Privacy Challenges in Cognitive Wireless Sensor Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. SECURITY AND PRIVACY ISSUES IN WSNS
      4. SECURITY VULNERABILITIES IN CWSN
      5. RELATED WORK ON IDENTIFICATION OF CWSN THREATS
      6. SECURITY MECHANISMS TO DEFEND AGAINST ATTACKS IN CWSNS
      7. OPEN PROBLEMS AND FUTURE TRENDS IN SECURITY IN CWSNS
      8. CONCLUSION
      9. REVIEW QUESTIONS
  11. Section 3: Design and Applications for Cellular and Ad Hoc Networks
    1. Chapter 12: Computation of Performance Parameters in Multi-service Cognitive Radio Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. MULTICLASS CAC MODEL FOR COGNITIVE RADIO NETWORK
      4. QOS DEFINITION AND FORMULA
      5. NUMERICAL AND SIMULATION RESULTS
      6. CONCLUSION
      7. REVIEW QUESTIONS
    2. Chapter 13: Power Allocation in Cognitive Radio in Energy Constrained Wireless Ad Hoc Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. REVIEW OF ENERGY AWARE ROUTING PROTOCOLS IN WANETS
      5. OPTIMAL POWER ALLOCATION FOR JOINT IMPROVEMENT OF NETWORK LIFETIME AND SECONDARY USER DATA TRANSMISSION IN COGNITIVE RADIO AD HOC NETWORKS
      6. FUTURE RESEARCH DIRECTIONS
      7. CONCLUSION
    3. Chapter 14: Application of Game Models for Cognitive Radio Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. RELATED WORK
      4. GAME THEORY AND COGNITIVE RADIO NETWORKS
      5. CONGESTION GAMES
      6. CORRELATED EQUILIBRIUM
      7. MIXED STRATEGIES FOR CHANNEL SELECTION
      8. CORRELATED EQUILIBRIUM AND NO-REGRET ALGORITHM
      9. CONCLUSION AND FUTURE WORK
      10. CHAPTER REVIEW QUESTIONS
    4. Chapter 15: Application of Cognitive Radio in VANET
      1. ABSTRACT
      2. INTRODUCTION
      3. APPLICATIONS OF COGNITIVE RADIO IN VANET
      4. FUTURE RESEARCH DIRECTIONS
      5. CONCLUSION
      6. APPENDIX - REVIEW QUESTIONS
  12. Compilation of References
  13. About the Contributors