Energy and Spectrum Efficient Wireless Network DesignCambridge University Press, 27 nov. 2014 Covering 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. |
Innehåll
Wireless channel properties | 15 |
Spectral and energy efficiency of wireless networks | 24 |
Centralized resource management in wireless networks | 31 |
Distributed resource management in wireless networks | 43 |
Overview | 55 |
Utilitybased optimization framework for OFDMA | 61 |
Algorithm development for utilitybased optimization | 72 |
Joint channel and queueaware multicarrier scheduling using delaybased | 94 |
any network topology | 164 |
Optimal channelaware distributed MAC | 182 |
Opportunistic random access with intelligent interference avoidance | 203 |
Distributed power control | 217 |
Overview | 237 |
Energyefficient transmission | 244 |
Centralized energyefficient wireless resource management | 282 |
Distributed energyefficient wireless resource management | 301 |
Utilitybased generalized QoS scheduling for heterogeneous traffic | 117 |
Asymptotic performance analysis for channelaware scheduling | 126 |
Overview | 149 |
Energyefficient cellular network design | 321 |
Implementation in practice | 335 |
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Energy and Spectrum Efficient Wireless Network Design Guowang Miao,Guocong Song Begränsad förhandsgranskning - 2014 |
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achieve algorithm Aloha antennas assume bandwidth base station CAD-MAC cell cellular networks centralized scheduler channel conditions channel gain CIA-MAC circuit power collision communications concave contention convex CRSs data rate vector Define delay different users distributed division multiple access downlink energy consumption energy efficiency capacity energy-efficient power equilibrium example extreme value theory fading Figure frame frequency globally optimal Hence increases joint DSA Lemma link adaptation M-QAM maximize MDU scheduling modulation modulation order multi-user diversity multiple access network energy efficiency network performance number of users OFDM OFDMA packet path loss physical layer power consumption power control proportional fairness protocol quasiconcave queue rate adaptation Rayleigh fading receiver resource allocation resource management scenario Section severe interferers signal SINR slot slotted Aloha spectral efficiency subcarrier assignment subchannel Theorem threshold transmission power transmit transmit diversity utility functions wireless channels wireless networks