Radio resource management in multi-tier wireless cellular networks / Ekram Hossain, Long Bao Le, and Dusit Niyato.
"Providing an extensive overview of the radio resource management problem in femtocell networks, this invaluable book considers both code division multiple access femtocells and orthogonal frequency-division multiple access femtocells. In addition to incorporating current research on this topic...
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Full Text (via O'Reilly/Safari) |
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| Other Authors: | , |
| Format: | eBook |
| Language: | English |
| Published: |
Hoboken, New Jersey :
Wiley,
2013.
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| Edition: | 1st edition. |
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Table of Contents:
- Series; Title Page; Copyright; Dedication; Preface; Chapter 1: Overview of Multi-Tier Cellular Wireless Networks; 1.1 INTRODUCTION; 1.2 SMALL CELLS: FEMTOCELLS, PICOCELLS, AND MICROCELLS; 1.3 HISTORICAL PERSPECTIVE; 1.4 OVERVIEW OF LTE NETWORKS; 1.5 OVERVIEW OF LTE-ADVANCED NETWORKS; 1.6 LTE FEMTOCELLS (HeNBs); 1.7 3G FEMTOCELLS; 1.8 CHANNEL MODELS FOR SMALL CELL NETWORKS; 1.9 MULTI-TIER CELLULAR WIRELESS NETWORK MODELING AND ABSTRACTION; 1.10 TECHNICAL CHALLENGES IN SMALL CELL DEPLOYMENT; REFERENCES; Chapter 2: Resource Allocation Approaches in Multi-Tier Networks; 2.1 INTRODUCTION.
- 2.2 DESIGN ISSUES FOR RESOURCE ALLOCATION IN MULTI-TIER NETWORKS2.3 INTERFERENCE MANAGEMENT APPROACHES; 2.4 QUALITATIVE COMPARISON AMONG INTERFERENCE MANAGEMENT APPROACHES [30]; 2.5 FUTURE RESEARCH DIRECTIONS [30]; REFERENCES; Chapter 3: Resource Allocation in OFDMA-Based Multi-Tier Cellular Networks; 3.1 RESOURCE ALLOCATION FOR OFDMA-BASED HOMOGENEOUS NETWORKS; 3.2 FAIR RESOURCE ALLOCATION FOR TWO-TIER OFDMA NETWORKS; 3.3 CHAPTER SUMMARY AND OPEN RESEARCH€DIRECTIONS; REFERENCES; Chapter 4: Resource Allocation for Clustered Small Cells in Two-Tier OFDMA Networks; 4.1 INTRODUCTION.
- 4.2 RELATED WORK4.3 SYSTEM MODEL AND ASSUMPTIONS; 4.4 JOINT SUB-CHANNEL AND POWER ALLOCATION IN FEMTOCELL CLUSTERS; 4.5 JOINT SUB-CHANNEL AND POWER ALLOCATION USING CONVEX REFORMULATION; 4.6 SUB-CHANNEL ALLOCATION; 4.7 POWER ALLOCATION; 4.8 PERFORMANCE EVALUATION; 4.9 SUMMARY AND FUTURE RESEARCH DIRECTIONS; REFERENCES; Chapter 5: Resource Allocation in Two-Tier Networks Using Fractional Frequency Reuse; 5.1 INTRODUCTION; 5.2 DIFFERENT FFR SCHEMES; 5.3 OPTIMAL STATIC FRACTIONAL FREQUENCY REUSE (OSFFR): AN IMPROVED FFR-BASED SCHEME; 5.4 PERFORMANCE EVALUATION.
- 5.5 SUMMARY AND FUTURE RESEARCH DIRECTIONSREFERENCES; Chapter 6: Call Admission Control in€Fractional Frequency Reuse-Based Two-Tier Networks; 6.1 RELATED WORK; 6.2 CALL ADMISSION CONTROL MODEL; 6.3 CALL ADMISSION CONTROL POLICY FOR FFR-BASED MULTI-TIER CELLULAR NETWORKS; 6.4 PERFORMANCE EVALUATION; 6.5 SUMMARY AND FUTURE RESEARCH DIRECTIONS; APPENDIX; REFERENCES; Chapter 7: Game Theoretic Approaches for Resource Management in Multi-Tier Networks; 7.1 INTRODUCTION TO GAME THEORY; 7.2 GAME FORMULATIONS FOR POWER CONTROL AND SUB-CHANNEL ALLOCATION; 7.3 GAME FORMULATIONS FOR PRICING.
- 7.4 GAME FORMULATIONS FOR ACCESS CONTROL7.5 FUTURE RESEARCH DIRECTIONS; REFERENCES; Chapter 8: Resource Allocation in CDMA-Based Multi-tier HetNets; 8.1 POWER CONTROL AND RESOURCE ALLOCATION TECHNIQUES FOR HOMOGENEOUS CDMA NETWORKS; 8.2 GAME THEORETIC BASED POWER CONTROL FOR TWO-TIER CDMA HETNETS; 8.3 JOINT BASE STATION ASSOCIATION AND POWER CONTROL FOR CDMA HETNETS; 8.4 DISTRIBUTED PARETO-OPTIMAL POWER CONTROL FOR TWO-TIER CDMA HETNETS; 8.5 SUMMARY AND OPEN RESEARCH ISSUES; REFERENCES; Chapter 9: Self-Organizing Small Cell€Networks; 9.1 SELF-ORGANIZING NETWORKS; 9.2 SELF-CONFIGURATION.