Energy Efficient Cooperative Wireless Communication and Networks
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Opis: Energy Efficient Cooperative Wireless Communication and Networks - Chi Harold Liu, Zhengguo Sheng

Compared with conventional communications, cooperative communication allows multiple users in a wireless network to coordinate their packet transmissions and share each other's resources, thus achieving high-performance gain and better service coverage and reliability. Energy Efficient Cooperative Wireless Communication and Networks provides a comprehensive look at energy efficiency and system design of cooperative wireless communication. Introducing effective cooperative wireless communication schemes, the book supplies the understanding and methods required to improve energy efficiency, reliability, and end-to-end protocol designs for wireless communication systems. It explains the practical benefits and limitations of cooperative transmissions along with the associated designs of upper-layer protocols, including MAC, routing, and transport protocol. The book considers power efficiency as a main objective in cooperative communication to ensure quality-of-service (QoS) requirements. It explains how to bring the performance gain at the physical layer up to the network layer and how to allocate network resources dynamically through MAC/scheduling and routing to trade off the performance benefits of given transmissions against network costs. Because the techniques detailed in each chapter can help readers achieve energy efficiency and reliability in wireless networks, they have the potential to impact a range of industry areas, including wireless communication, wireless sensor networks, and ad hoc networks. The book includes numerous examples, best practices, and models that capture key issues in real-world applications. Along with algorithms and tips for effective design, the book supplies the understanding you will need to achieve high-performing and energy efficient wireless networks with improved service coverage and reliability.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 alpha = 1 Path-Loss Exponent alpha = 2 General Path-Loss Exponents Simulation Result Average Power Ratio Average Power Ratio for alpha = 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 Fi Design ofW Design of Gi 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


Szczegóły: Energy Efficient Cooperative Wireless Communication and Networks - Chi Harold Liu, Zhengguo Sheng

Tytuł: Energy Efficient Cooperative Wireless Communication and Networks
Autor: Chi Harold Liu, Zhengguo Sheng
Producent: Apple
ISBN: 9781482238211
Rok produkcji: 2014
Ilość stron: 221
Oprawa: Twarda
Waga: 0.46 kg


Recenzje: Energy Efficient Cooperative Wireless Communication and Networks - Chi Harold Liu, Zhengguo Sheng
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Energy Efficient Cooperative Wireless Communication and Networks

,

  • Producent: Apple
  • Oprawa: Twarda

Compared with conventional communications, cooperative communication allows multiple users in a wireless network to coordinate their packet transmissions and share each other's resources, thus achieving high-performance gain and better service coverage and reliability. Energy Efficient Cooperative Wireless Communication and Networks provides a comprehensive look at energy efficiency and system design of cooperative wireless communication. Introducing effective cooperative wireless communication schemes, the book supplies the understanding and methods required to improve energy efficiency, reliability, and end-to-end protocol designs for wireless communication systems. It explains the practical benefits and limitations of cooperative transmissions along with the associated designs of upper-layer protocols, including MAC, routing, and transport protocol. The book considers power efficiency as a main objective in cooperative communication to ensure quality-of-service (QoS) requirements. It explains how to bring the performance gain at the physical layer up to the network layer and how to allocate network resources dynamically through MAC/scheduling and routing to trade off the performance benefits of given transmissions against network costs. Because the techniques detailed in each chapter can help readers achieve energy efficiency and reliability in wireless networks, they have the potential to impact a range of industry areas, including wireless communication, wireless sensor networks, and ad hoc networks. The book includes numerous examples, best practices, and models that capture key issues in real-world applications. Along with algorithms and tips for effective design, the book supplies the understanding you will need to achieve high-performing and energy efficient wireless networks with improved service coverage and reliability.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 alpha = 1 Path-Loss Exponent alpha = 2 General Path-Loss Exponents Simulation Result Average Power Ratio Average Power Ratio for alpha = 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 Fi Design ofW Design of Gi 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

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Cena 459,00 PLN
Nasza cena 429,17 PLN
Oszczędzasz 6%
Wysyłka: Niedostępna
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Szczegóły: Energy Efficient Cooperative Wireless Communication and Networks - Chi Harold Liu, Zhengguo Sheng

Tytuł: Energy Efficient Cooperative Wireless Communication and Networks
Autor: Chi Harold Liu, Zhengguo Sheng
Producent: Apple
ISBN: 9781482238211
Rok produkcji: 2014
Ilość stron: 221
Oprawa: Twarda
Waga: 0.46 kg


Recenzje: Energy Efficient Cooperative Wireless Communication and Networks - Chi Harold Liu, Zhengguo Sheng

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