Energy and Spectrum Efficient Wireless Network Design
Energy and Spectrum Efficient Wireless Network Design
£47.99
GBPCovering the fundamental principles and state-of-the-art cross-layer techniques, this practical guide provides the tools needed to design MIMO- and OFDM-based wireless networks that are both energy- and spectrum-efficient. Technologies are introduced in parallel for both centralized and distributed wireless networks to give you a clear understanding of the similarities and differences between their energy- and spectrum-efficient designs, which is essential for achieving the highest network energy saving without losing performance. Cutting-edge green cellular network design technologies, enabling you to master resource management for next-generation wireless networks based on MIMO and OFDM, and detailed real-world implementation examples are provided to guide your engineering design in both theory and practice. Whether you are a graduate student, a researcher or a practitioner in industry, this is an invaluable guide.
- Provides an in-depth understanding of the similarities and difference between centralized and distributed cross-layer design, essential for achieving optimal network energy efficiency
- Includes detailed, real-world implementation examples to guide engineering designs in practice
- Covers state-of-the-art green cellular network design technologies, enabling readers to master resource management for next-generation wireless networks based on MIMO and OFDM
Product details
December 2014Adobe eBook Reader
9781316190999
0 pages
0kg
122 b/w illus. 20 tables
This ISBN is for an eBook version which is distributed on our behalf by a third party.
Table of Contents
- 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.
