Radio resource management in multi-tier wireless cellular networks

"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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Bibliographic Details
Main Author: Hossain, Ekram
Other Authors: Niyato, Dusit, Le, Bao Long
Format: eBook
Language:English
Published: Hoboken, New Jersey Wiley 2013
Edition:1st edition
Subjects:
Online Access:
Collection: O'Reilly - Collection details see MPG.ReNa
Table of Contents:
  • 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.
  • 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.
  • 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.
  • Includes bibliographical references and index
  • 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.