图书简介
Wireless Information and Power Transfer offers an authoritative and comprehensive guide to the theory, models, techniques, implementation and application of wireless information and power transfer (WIPT) in energy-constrained wireless communication networks. With contributions from an international panel of experts, this important resource covers the various aspects of WIPT systems such as, system modeling, physical layer techniques, resource allocation and performance analysis. The contributors also explore targeted research problems typically encountered when designing WIPT systems.
List of Contributors xiii Preface xvii 1 The Era of Wireless Information and Power Transfer 1 DerrickWing Kwan Ng, Trung Q. Duong, Caijun Zhong, and Robert Schober 1.1 Introduction 1 1.2 Background 3 1.2.1 RF-BasedWireless Power Transfer 3 1.2.2 Receiver Structure forWIPT 4 1.3 Energy Harvesting Model andWaveform Design 6 1.4 Efficiency and Interference Management inWIPT Systems 9 1.5 Security in SWIPT Systems 10 1.6 CooperativeWIPT Systems 11 1.7 WIPT for 5G Applications 11 1.8 Conclusion 12 Acknowledgement 13 Bibliography 13 2 Fundamentals of Signal Design for WPT and SWIPT 17 Bruno Clerckx andMorteza Varasteh 2.1 Introduction 17 2.2 WPT Architecture 19 2.3 WPT Signal and System Design 21 2.4 SWIPT Signal and System Design 29 2.5 Conclusions and Observations 33 Bibliography 33 3 Unified Design ofWireless Information and Power Transmission 39 Dong In Kim, Jong Jin Park, Jong HoMoon, and Kang Yoon Lee 3.1 Introduction 39 3.2 Nonlinear EH Models 40 3.3 Waveform and Transceiver Design 43 3.3.1 Multi-tone (PAPR) based SWIPT 43 3.3.2 Dual Mode SWIPT 48 3.4 Energy Harvesting Circuit Design 53 3.5 Discussion and Conclusion 58 Bibliography 58 4 Industrial SWIPT: Backscatter Radio and RFIDs 61 Panos N. Alevizos and Aggelos Bletsas 4.1 Introduction 61 4.2 Wireless Signal Model 62 4.3 RFID Tag Operation 64 4.3.1 RF Harvesting and Powering for RFID Tag 64 4.3.2 RFID Tag Backscatter (Uplink) Radio 65 4.4 Reader BER for Operational RFID 68 4.5 RFID Reader SWIPT Reception 69 4.5.1 Harvesting Sensitivity Outage 69 4.5.2 Power Consumption Outage 70 4.5.3 Information Outage 71 4.5.4 Successful SWIPT Reception 71 4.6 Numerical Results 72 4.7 Conclusion 76 Bibliography 76 5 Multi-antenna Energy Beamforming for SWIPT 81 Jie Xu and Rui Zhang 5.1 Introduction 81 5.2 System Model 84 5.3 Rate-Energy Region Characterization 87 5.3.1 Problem Formulation 87 5.3.2 Optimal Solution 90 5.4 Extensions 93 5.5 Conclusion 94 Bibliography 95 6 On the Application of SWIPT in NOMA Networks 99 Yuanwei Liu andMaged Elkashlan 6.1 Introduction 99 6.1.1 Motivation 100 6.2 Network Model 101 6.2.1 Phase 1: Direct Transmission 101 6.2.2 Phase 2: Cooperative Transmission 104 6.3 Non-Orthogonal Multiple Access with User Selection 105 6.3.1 RNRF Selection Scheme 105 6.3.2 NNNF Selection Scheme 108 6.3.3 NNFF Selection Scheme 111 6.4 Numerical Results 112 6.4.1 Outage Probability of the Near Users 112 6.4.2 Outage Probability of the Far Users 115 6.4.3 Throughput in Delay-Sensitive Transmission Mode 116 6.5 Conclusions 117 Bibliography 118 7 Fairness-AwareWireless Powered Communications with Processing Cost 121 Zoran Hadzi-Velkov, Slavche Pejoski, and Nikola Zlatanov 7.1 Introduction 121 7.2 System Model 122 7.2.1 Energy Storage Strategies 124 7.2.2 Circuit Power Consumption 124 7.3 Proportionally Fair Resource Allocation 125 7.3.1 Short-term Energy Storage Strategy 125 7.3.2 Long-term Energy Storage Strategy 127 7.3.3 Practical Online Implementation 130 7.3.4 Numerical Results 131 7.4 Conclusion 133 7.5 Appendix 133 7.5.1 Proof of Theorem 7.2 133 Bibliography 136 8 Wireless Power Transfer in MillimeterWave 139 Talha Ahmed Khan and RobertW. Heath Jr. 8.1 Introduction 139 8.2 System Model 141 8.3 Analytical Results 143 8.4 Key Insights 147 8.5 Conclusions 151 8.6 Appendix 153 Bibliography 154 9 Wireless Information and Power Transfer in Relaying Systems 157 P. D. Diamantoulakis, K. N. Pappi, and G. K. Karagiannidis 9.1 Introduction 157 9.2 Wireless-Powered Cooperative Networks with a Single Source-Destination Pair 158 9.2.1 System Model and Outline 158 9.2.2 Wireless Energy Harvesting Relaying Protocols 159 9.2.3 Multiple Antennas at the Relay 161 9.2.4 Multiple Relays and Relay Selection Strategies 163 9.2.5 Power Allocation Strategies for Multiple Carriers 166 9.3 Wireless-Powered Cooperative Networks with Multiple Sources 168 9.3.1 System Model 168 9.3.2 Power Allocation Strategies 169 9.3.3 Multiple Relays and Relay Selection Strategies 173 9.3.4 Two-Way Relaying Networks 175 9.4 Future Research Challenges 176 9.4.1 Nonlinear Energy Harvesting Model and Hardware Impairments 176 9.4.2 NOMA-based Relaying 176 9.4.3 Large-Scale Networks 176 9.4.4 Cognitive Relaying 177 Bibliography 177 10 Harnessing Interference in SWIPT Systems 181 Stelios Timotheou, Gan Zheng, Christos Masouros, and Ioannis Krikidis 10.1 Introduction 181 10.2 System Model 183 10.3 Conventional Precoding Solution 184 10.4 Joint Precoding and Power Splitting with Constructive Interference 185 10.4.1 Problem Formulation 186 10.4.2 Upper Bounding SOCP Algorithm 188 10.4.3 Successive Linear Approximation Algorithm 190 10.4.4 Lower Bounding SOCP Formulation 191 10.5 Simulation Results 192 10.6 Conclusions 194 Bibliography 194 11 Physical Layer Security in SWIPT Systems with Nonlinear Energy Harvesting Circuits 197 Yuqing Su, DerrickWing Kwan Ng, and Robert Schober 11.1 Introduction 197 11.2 Channel Model 200 11.2.1 Energy Harvesting Model 201 11.2.2 Channel State Information Model 203 11.2.3 Secrecy Rate 204 11.3 Optimization Problem and Solution 204 11.4 Results 208 11.5 Conclusions 211 Appendix-Proof of Theorem 11.1 211 Bibliography 213 12 Wireless-Powered Cooperative Networks with Energy Accumulation 217 Yifan Gu, He Chen, and Yonghui Li 12.1 Introduction 217 12.2 System Model 219 12.3 Energy Accumulation of Relay Battery 222 12.3.1 Transition Matrix of the MC 222 12.3.2 Stationary Distribution of the Relay Battery 224 12.4 Throughput Analysis 224 12.5 Numerical Results 226 12.6 Conclusion 228 12.7 Appendix 229 Bibliography 231 13 Spectral and Energy-EfficientWireless-Powered IoT Networks 233 QingqingWu,Wen Chen, and Guangchi Zhang 13.1 Introduction 233 13.2 System Model and Problem Formulation 235 13.2.1 System Model 235 13.2.2 T-WPCN and Problem Formulation 236 13.2.3 N-WPCN and Problem Formulation 237 13.3 T-WPCN or N-WPCN? 237 13.3.1 Optimal Solution for T-WPCN 238 13.3.2 Optimal Solution for N-WPCN 239 13.3.3 TDMA versus NOMA 240 13.4 Numerical Results 243 13.4.1 SE versus PB Transmit Power 243 13.4.2 SE versus Device Circuit Power 245 13.5 Conclusions 245 13.6 FutureWork 247 Bibliography 247 14 Wireless-PoweredMobile Edge Computing Systems 253 FengWang, Jie Xu, XinWang, and Shuguang Cui 14.1 Introduction 253 14.2 System Model 256 14.3 Joint MEC-WPT Design 260 14.3.1 Problem Formulation 260 14.3.2 Optimal Solution 260 14.4 Numerical Results 266 14.5 Conclusion 268 Bibliography 268 15 Wireless Power Transfer: A Macroscopic Approach 273 Constantinos Psomas and Ioannis Krikidis 15.1 Wireless-Powered Cooperative Networks with Energy Storage 274 15.1.1 System Model 274 15.1.2 Relay Selection Schemes 276 15.1.3 Numerical Results 280 15.2 Wireless-Powered Ad Hoc Networks with SIC and SWIPT 282 15.2.1 System Model 282 15.2.2 SWIPT with SIC 284 15.2.3 Numerical Results 285 15.3 AWireless-Powered Opportunistic Feedback Protocol 286 15.3.1 System Model 287 15.3.2 Wireless-Powered OBF Protocol 290 15.3.3 Beam Outage Probability 290 15.3.4 Numerical Results 292 15.4 Conclusion 293 Bibliography 294 Index 297
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