Energy efficient cooperative wireless communication and networks. (2014)
- Record Type:
- Book
- Title:
- Energy efficient cooperative wireless communication and networks. (2014)
- Main Title:
- Energy efficient cooperative wireless communication and networks
- Further Information:
- Note: Zhengguo Sheng and Chi Harold Liu, editors.
- Authors:
- Sheng, Zhengguo
- Editors:
- Liu, Chi Harold
Sheng, Zhengguo - Contents:
- Introduction: Zhengguo Sheng and Chi Harold Liu ; Overview; Related Work; Motivation and Aims; Organization of the Book; ; FUNDAMENTAL UNDERSTANDING OF COOPERATIVE COMMUNICATION; ; Reliability of Cooperative Transmission ; Zhiguo Ding and Zhengguo Sheng ; System Model; Outage Behavior of Transmission Schemes; Direct Transmission Cooperative Transmission; Motivating Example; Description of the QOS-Driven Routing Algorithm; Simulation Result; ; Energy Consumption of Cooperative Transmission ; Zhengguo Sheng and Kin K. Leung ; Introduction; Description of the Power-Efficient Routing Algorithm; Performance Evaluation; ; Throughput of Cooperative Transmission ; Zhengguo Sheng and Zhiguo Ding ; Introduction; Interference Subtraction in a Multi-Hop Scenario; Supplementary Cooperation; Simulation Result; ; Delay Analysis of Cooperative Transmission; Zhiguo Ding, Kin K. Leung, and Zhengguo Sheng; Introduction; System Model and Delay Behaviors; Amplify-and-Forward Transmission Decode-and-Forward Transmission Multi-Hop Transmission; Delay Analysis for Multi-Hop Scenario; Delay Analysis with Interference Subtraction Interference Subtraction End-to-End Delay Analysis; Throughput Analysis; ; COOPERATIVE COMMUNICATION IN SINGLE-HOP SCENARIO; ; Power Efficiency of Cooperative Transmission ; Bongjun Ko and Zhengguo Sheng ; Introduction; Cooperative Region Path-Loss Exponent α = 1 Path-Loss Exponent α = 2 General Path-Loss Exponents Simulation Result; Average Power Ratio Average Power RatioIntroduction: Zhengguo Sheng and Chi Harold Liu ; Overview; Related Work; Motivation and Aims; Organization of the Book; ; FUNDAMENTAL UNDERSTANDING OF COOPERATIVE COMMUNICATION; ; Reliability of Cooperative Transmission ; Zhiguo Ding and Zhengguo Sheng ; System Model; Outage Behavior of Transmission Schemes; Direct Transmission Cooperative Transmission; Motivating Example; Description of the QOS-Driven Routing Algorithm; Simulation Result; ; Energy Consumption of Cooperative Transmission ; Zhengguo Sheng and Kin K. Leung ; Introduction; Description of the Power-Efficient Routing Algorithm; Performance Evaluation; ; Throughput of Cooperative Transmission ; Zhengguo Sheng and Zhiguo Ding ; Introduction; Interference Subtraction in a Multi-Hop Scenario; Supplementary Cooperation; Simulation Result; ; Delay Analysis of Cooperative Transmission; Zhiguo Ding, Kin K. Leung, and Zhengguo Sheng; Introduction; System Model and Delay Behaviors; Amplify-and-Forward Transmission Decode-and-Forward Transmission Multi-Hop Transmission; Delay Analysis for Multi-Hop Scenario; Delay Analysis with Interference Subtraction Interference Subtraction End-to-End Delay Analysis; Throughput Analysis; ; COOPERATIVE COMMUNICATION IN SINGLE-HOP SCENARIO; ; Power Efficiency of Cooperative Transmission ; Bongjun Ko and Zhengguo Sheng ; Introduction; Cooperative Region Path-Loss Exponent α = 1 Path-Loss Exponent α = 2 General Path-Loss Exponents Simulation Result; Average Power Ratio Average Power Ratio for α = 2 General Path-Loss Exponent Dynamic Cooperation Scheme Simulation Result; ; Optimal Power Allocation of Cooperative Transmission ; Zhengguo Sheng and Bongjun Ko ; Introduction Problem Formulation Analysis of Optimal DAF Cooperation; Simulation Result; Energy-Efficient Relay Selection for DAF; Relay Selection Rules; On Distributed Implementation of Relay Selection; ; COOPERATIVE COMMUNICATION IN MULTI-PAIR MULTI-HOP SCENARIO; ; REACT: Residual Energy-Aware Cooperative Transmissions ; Erwu Liu, Rui Wang, Chao Wang, Xinlin Huang, and Fuqiang Liu; Introduction; System Model; Simulation Results Path Loss plus Rayleigh Fading Only Path Loss, No Fading; Conclusion; ; Joint Beamforming and Power Allocation ; Chee Yen Leow ; Introduction; System Model and Protocol Description; Initialization Transmission Protocol; Beamforming Design Design of F i ; Design ofW ; Design of G i ; Joint Power Allocation; Subchannel SNR Derivation Sum-Rate Optimization Proposed Power Allocation Strategies Baseline Schemes and Comparable Scheme; Numerical Results; Conclusion; ; Selfishness-Aware Energy-Efficient Cooperative Networks ; Jun Fan, Zhengguo Sheng, and Chi Harold Liu; Introduction; System Model Direct Transmission Cooperative Transmission with Multiple Simultaneous Relays Utility Function and Selfishness Index; Optimal Power Allocation; Network Lifetime-Aware Two-Step Relay Selection; Performance Evaluation A Five-Node Example A Complete Setting; Conclusions And Future Work; ; Network Protocol Design of M2M-Based Cooperative Relaying ; Zhengguo Sheng, Hao Wang, Daqing Gu, Xuesong Chen, Changchuan Yin, and Chi Harold Liu; Introduction; System Model and Transmission Power Consumption for Optimal DAF Cooperation; Direct Transmission Optimal DAF Cooperative Transmission; Analysis of Optimal DAF Cooperation Power Efficiency Factor Best Relay Location for Optimal DAF Comparison with Existing Literature; Cooperation-Aided Routing in Low-Power and Lossy Networks; Performance of Cooperation-Aided Routing; Conclusions; ; Conclusion; Zhengguo Sheng and Chi Harold Liu; Contributions and Conclusions Fundamental Understanding of Cooperative Routing Fundamental Understanding of Cooperative Communication Using Probabilistic Tools Cooperative Communication in Practice; Future Work Robust Relay Selection Schemes A Cross-Layer Design for Joint Flow Control, Cooperative Routing, and Scheduling in Multi-hop Wireless Sensor Networks Cooperative Communications in VANETs; ; Appendix; Optimal Cooperative Route Proof of Theorem 2.2 Derivation of (5.18) AND (5.19) Proof of Theorem 5.2 Numerator of g ; Denominator of g ; Proof of Equation (6.26); Proof of Theorem 7.1 Proof of Theorem 7.6; … (more)
- Edition:
- 1st
- Publisher Details:
- Boca Raton : CRC Press
- Publication Date:
- 2014
- Extent:
- 1 online resource, illustrations (black and white)
- Subjects:
- 621.384
Wireless communication systems -- Energy conservation
Wireless communication systems -- Energy consumption
Engineering economy - Languages:
- English
- ISBNs:
- 9781482238228
- Related ISBNs:
- 9781482238211
- Notes:
- Note: Description based on CIP data; item not viewed.
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- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.142207
- Ingest File:
- 02_185.xml