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Interference Mitigation and Energy Management in 5G Heterogeneous Cellular Networks

Book Description

In recent years, wireless networks have become more ubiquitous and integrated into everyday life. As such, it is increasingly imperative to research new methods to boost cost-effectiveness for spectrum and energy efficiency. Interference Mitigation and Energy Management in 5G Heterogeneous Cellular Networks is a pivotal reference source for the latest research on emerging network architectures and mitigation technology to enhance cellular network performance and dependency. Featuring extensive coverage across a range of relevant perspectives and topics, such as interference alignment, resource allocation, and high-speed mobile environments, this book is ideally designed for engineers, professionals, practitioners, upper-level students, and academics seeking current research on interference and energy management for 5G heterogeneous cellular networks.

Table of Contents

  1. Cover
  2. Title Page
  3. Copyright Page
  4. Book Series
    1. Mission
    2. Coverage
  5. Foreword
  6. Preface
    1. TARGET AUDIENCE
    2. CHAPTER OVERVIEW
    3. CONCLUSION
  7. Section 1: Energy-Efficient Communications and Energy Management Techniques
    1. Chapter 1: Toward Green Evolution of Cellular Networks by High Order Sectorisation and Small Cell Densification
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND AND LITERATURE REVIEW
      4. POWER CONSUMPTION MODELLING OF RADIO BASE STATION SITES
      5. ENERGY EFFICIENCY METRICS
      6. ENERGY EFFICIENCY ANALYSIS IN SECTORISED AND HETEROGENEOUS NETWORKS
      7. CASE STUDY
      8. CONCLUSION
      9. REFERENCES
    2. Chapter 2: Stable-Matching-Based Energy-Efficient Context-Aware Resource Allocation for Ultra-Dense Small Cells
      1. ABSTRACT
      2. I. INTRODUCTION
      3. II. RELATED WORKS
      4. III. SYSTEM MODEL AND PROBLEM FORMULATION
      5. IV. THE ENERGY-EFFICIENT CONTEXT-AWARE MATCHING APPROACH
      6. V. PERFORMANCE EVALUATION
      7. VI. CONCLUSION
      8. ACKNOWLEDGMENT
      9. REFERENCES
    3. Chapter 3: Challenges in Energy-Efficient Communications as Enablers for Green Solutions on the 5G Heterogeneous Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. 5G CHALLENGES AND POTENCIAL GREEN SOLLUTIONS
      4. GREEN COMMUNICATIONS PROJECTS
      5. HETEROGENOUS NETWORKS AS AN ENERGY-EFFICCIENT NETWORK DEPLOYMENT STRATEGIE
      6. FUTURE RESEARCH DIRECTIONS
      7. CONCLUSION
      8. REFERENCES
  8. Section 2: Enhanced Interference Management Technology with Featured Characteristics
    1. Chapter 4: Interference Management for Full-Duplex Massive MIMO Relaying System with Hardware Impairments
      1. ABSTRACT
      2. INTRODUCTION
      3. RELATED WORK
      4. SYSTEM MODEL
      5. LIMITATION OF MM-FDR WITH SINGLE ANTENNA SOURCES AND DESTINATIONS
      6. HARDWARE IMPAIRMENTS AWARE TRANSCEIVER DESIGN
      7. JOINT DEGREE OF FREEDOM AND POWER OPTIMIZATION
      8. SIMULATION RESULTS AND DISCUSSION
      9. CONCLUSION
      10. REFERENCES
      11. APPENDIX
    2. Chapter 5: Interference Mitigation for Satellite
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. SYSTEM AND SIGNAL MODEL
      5. THE DESIGN OF OPTIMAL BEAM WEIGHT BASED ON FIXED POSITION
      6. NUMERICAL ANALYSIS
      7. CONCLUSION
      8. ACKNOWLEDGMENT
      9. REFERENCES
      10. KEY TERMS AND DEFINITIONS
      11. ENDNOTE
    3. Chapter 6: The Combination of Resource Allocation and Interference Alignment for Ultra-Dense Heterogeneous Cellular Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. THE BACKGROUND
      4. THE COMPLEXITY OF RESOURCE ALLOCATION INDUCED BY IA
      5. THE GRAPH-BASED SOLUTION FRAMEWORK OF RESOURCE ALLOCATION COMBING WITH IA
      6. SIMULATION RESULTS
      7. THE MAIN CONTRIBUTIONS OF THIS CHAPTER
      8. FUTURE RESEARCH DIRECTIONS
      9. CONCLUSION
      10. REFERENCES
      11. KEY TERMS AND DEFINITIONS
    4. Chapter 7: Game Theory for Co-Tiered Interference Mitigation in 5G Small-Cell Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. CO-TIERED INTERFERENCE MITIGATION GAMES
      5. FUTURE RESEARCH DIRECTIONS
      6. CONCLUSION
      7. REFERENCES
      8. KEY TERMS AND DEFINITIONS
      9. ENDNOTE
    5. Chapter 8: Interference Management in Heterogeneous Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. INTERFERENCE MANAGEMENT
      5. OPEN CHALLENGES IN INTERFERENCE MANAGEMENT
      6. CONCLUSION
      7. REFERENCES
  9. Section 3: Novel Mathematical Frameworks for Interference and Energy Management
    1. Chapter 9: Geometric Programming Based Resource Allocation for 5G High-Speed Mobile Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND
      4. SYSTEM MODEL AND PROBLEM FORMULATION
      5. GEOMETRIC PROGRAMMING BASED RESOURCE ALLOCATION SCHEME
      6. NUMERICAL EXPERIMENTS
      7. CONCLUSION
      8. REFERENCES
    2. Chapter 10: Self-Organization and Optimization in Heterogenous Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. HETEROGENOUS NETWORKS
      4. SELF ORGANIZING NETWORKS
      5. INTERFERENCE MANAGEMENT IN HETEROGENOUS NETWORKS
      6. SON AND INTERFERENCE MANAGEMENT
      7. GAME THEORY FOR SON BASED ICIC IN HETNETS
      8. CHALLENGES OF SON IMPLEMENTATION IN HETEROGENOUS NETWORKS
      9. RECENT TRENDS IN SON NETWORKS
      10. CONCLUSION
      11. REFERENCES
    3. Chapter 11: Stackelberg Game Theoretic Framework in Cognitive Green Heterogeneous Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. BASICS OF STACKELBERG GAME
      4. COGNITIVE RADIO NETWORKS
      5. SPECTRUM SENSING
      6. POWER CONTROL
      7. MULTIPLE ANTENNAS
      8. OPERATOR PRICING
      9. INFORMATION SECRECY
      10. HETEROGENEOUS CELLULAR NETWORKS
      11. COOPERATIVE NETWORKS
      12. COGNITIVE GREEN HETEROGENEOUS CELLULAR NETWORKS
      13. CONCLUSION AND FUTURE WORK
      14. ACKNOWLEDGMENT
      15. REFERENCES
    4. Chapter 12: Pricing Methodology and Its Applications in Cognitive Radio and Multi-Tier Heterogeneous Cellular Networks
      1. ABSTRACT
      2. INTRODUCTION
      3. RATIONALE AND MOTIVATION OF PRICING IN WIRELESS NETWORKS
      4. NEW EMERGING APPLICATIONS OF PRICING METHODOLOGY
      5. CONTRIBUTIONS AND ORGANIZATION
      6. STATE-OF-THE-ART SURVEY OF PRICING
      7. BASICS OF PRICING METHODOLOGY: A TECHNICAL PERSPECTIVE AND A TAXONOMY
      8. GENERAL CLASSIFICATION AND DEFINITIONS
      9. SKETCH OF APPLICATIONS OF PRICING: A TECHNICAL PERSPECTIVE
      10. TAXONOMY OF PRICING SCHEMES
      11. COGNITIVE RADIO NETWORKS
      12. DYNAMIC SPECTRUM ACCESS
      13. ADVANCED SPECTRUM SHARING
      14. DYNAMIC INTERFERENCE PRICING
      15. MULTI-TIER HETEROGENEOUS CELLULAR NETWORKS
      16. ECONOMICS AND PRICING INCENTIVE
      17. INTER-AND INTRA-TIER INTERFERENCE
      18. TRAFFIC OFFLOAD
      19. LIMITED BACKHAUL NETWORKS
      20. FUTURE APPLICATIONS AND RESEARCH DIRECTIONS
      21. GREEN COMMUNICATIONS AND ENERGY EFFICIENCY
      22. MULTI-RESOURCE MANAGEMENT
      23. CONCLUSION
      24. ACKNOWLEDGMENT
      25. REFERENCES
  10. Compilation of References
  11. About the Contributors