Provides the fundamental principles and practical tools needed to design next-generation wireless networks that are both energy- and spectrum-efficient.
Provides the fundamental principles and practical tools needed to design next-generation wireless networks that are both energy- and spectrum-efficient.
Guowang Miao is an Assistant Professor in the Department of Communications Systems at KTH Royal Institute of Technology, Sweden. After receiving his PhD in electrical and computer engineering from Georgia Institute of Technology, USA, in 2009, he spent two years working in industry as a Senior Standard Engineer at Samsung Telecom America. His current research interests are in the design and optimization of wireless communications and networking.
Inhaltsangabe
1. Introduction Part I. Basic Concepts: 2. Wireless channel properties 3. Spectral and energy efficiencies of wireless networks 4. Centralized resource management in wireless networks 5. Distributed resource management in wireless networks Part II. Centralized Cross-Layer Optimization: 6. Overview 7. Utility-based optimization framework for OFDMA 8. Algorithm development for utility-based optimization 9. Joint channel and queue-aware multicarrier scheduling using delay-based utility functions 10. Utility-based generalized QoS scheduling for heterogeneous traffic 11. Asymptotic performance analysis for channel-aware scheduling Part III. Distributed Cross-Layer Optimization: 12. Overview 13. Opportunistic random access: single-cell cellular networks 14. Opportunistic random access: any network topology 15. Optimal channel-aware distributed MAC 16. Opportunistic random access with intelligent interference avoidance 17. Distributed power control Part IV. Cross-Layer Optimization for Energy-Efficient Networks: 18. Overview 19. Energy-efficient transmission 20. Centralized energy-efficient wireless resource management 21. Distributed energy-efficient wireless resource management 22. Energy-efficient cellular network design 23. Implementation in practice.
1. Introduction Part I. Basic Concepts: 2. Wireless channel properties 3. Spectral and energy efficiencies of wireless networks 4. Centralized resource management in wireless networks 5. Distributed resource management in wireless networks Part II. Centralized Cross-Layer Optimization: 6. Overview 7. Utility-based optimization framework for OFDMA 8. Algorithm development for utility-based optimization 9. Joint channel and queue-aware multicarrier scheduling using delay-based utility functions 10. Utility-based generalized QoS scheduling for heterogeneous traffic 11. Asymptotic performance analysis for channel-aware scheduling Part III. Distributed Cross-Layer Optimization: 12. Overview 13. Opportunistic random access: single-cell cellular networks 14. Opportunistic random access: any network topology 15. Optimal channel-aware distributed MAC 16. Opportunistic random access with intelligent interference avoidance 17. Distributed power control Part IV. Cross-Layer Optimization for Energy-Efficient Networks: 18. Overview 19. Energy-efficient transmission 20. Centralized energy-efficient wireless resource management 21. Distributed energy-efficient wireless resource management 22. Energy-efficient cellular network design 23. Implementation in practice.
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