Energy Efficiency Optimization in Relay-Assisted Networks with Energy Harvesting Relay Constraints 被引量：5

Energy Efficiency Optimization in Relay-Assisted Networks with Energy Harvesting Relay Constraints

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摘要 In this paper we consider data transmission in a decode-and-forward(DF)relay-assisted network in which the relay is energy harvesting(EH) powered while the base station(BS) is power-grid powered.Our purpose is to maximize the BS's energy efficiency(EE) while making full use of the relay's renewable energy and satisfying the specific average throughput requirements.In contrast to existing literature on energy harvesting system which only considers the radio transmission power,we take the static circuit power into account as well.We formulate the EE optimization problem and prove that the EE of the BS and relay are both quasiconvex in the instantaneous transmission rate.Then we divide the complex optimization problem into two point-to-point link level optimization parts and propose an energyefficient resource allocation(EERA) scheme in which power control and sleep mode management are jointly used.The simulation results demonstrate that EERA may achieve good energy saving effects.We also compare the EE of an energy harvesting relay system with a power-grid powered one and provide more insight into the EE problem of energy harvesting relay system. In this paper we consider data transmission in a decode-and-forward（DF）relay-assisted network in which the relay is energy harvesting（EH） powered while the base station（BS） is power-grid powered.Our purpose is to maximize the BS＇s energy efficiency（EE） while making full use of the relay＇s renewable energy and satisfying the specific average throughput requirements.In contrast to existing literature on energy harvesting system which only considers the radio transmission power,we take the static circuit power into account as well.We formulate the EE optimization problem and prove that the EE of the BS and relay are both quasiconvex in the instantaneous transmission rate.Then we divide the complex optimization problem into two point-to-point link level optimization parts and propose an energyefficient resource allocation（EERA） scheme in which power control and sleep mode management are jointly used.The simulation results demonstrate that EERA may achieve good energy saving effects.We also compare the EE of an energy harvesting relay system with a power-grid powered one and provide more insight into the EE problem of energy harvesting relay system.

作者 ZHAO Ming ZHAO Jing ZHOU Wuyang ZHU Jinkang ZHANG Sihai

机构地区 Key Laboratory of Wireless-Optical Communications

出处《China Communications》 SCIE CSCD 2015年第2期84-94,共11页 中国通信（英文版）

基金 supported by National programs for High Technology Research and Development(2012AA011402) National Basic Research Program of China(2012CB316002) National Nature Science Foundation of China(61172088)

关键词 energy efficiency energy harvesting relay sleep mode 中继系统能量收集效率优化辅助网络能源效率继电器电网供电优化问题

分类号 TM58 [电气工程—电器]

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参考文献19

1Zhu Jinkang.Capacity-Power Consumption and Energy-Efficiency Evaluation of Green Wireless Networks[J].China Communications,2012,9(2):13-21. 被引量：6
2FANTINI R, SABELLA D, CARETTI M. Energy Ef- ficiency in LTE-Advanced Networks with Relay Nodes[C]// Proceedings of the 73rd IEEE Inter- national Conference on Vehicular Technology: May 15-18, 2011. Budapest, Hungary, 2011: 1-5.
3LEE C Y, HWANG G U. Minimum Energy Con- sumption Design of a Two-hop Relay Network for QoS Guarantee[C]// Proceedings of the Symposium on Wireless Telecommunications: April 21-23, 2010. Tampa, FL, USA, 2010: 1-6.
4DENG Na, ZHANG Sihai, ZHOU Wuyang, et aL A Stochastic Geometry Approach to Energy Effi- ciency in Relay-Assisted Cellular Networks[C]// Proceedings of the Conference on Global Com- munications:, Dec 3-7, 2012. Anaheim, CA, USA, 2012,: 3484.-3489.
5TUTUNCUOGLU K, YENER A. Optimum Trans- mission Policies for Battery Limited Energy Har- vesting Nodes[J]. IEEE Transactions on Wireless Communications, 2012, 11(3): 1180-1189.
6YANG Jing, ULUKUS S. Optimal Packet Sched- uling in an Energy Harvesting Communication System[J]. IEEE Transactions on Communica- tions, 2012, 60(1): 220-230.
7OZEL O, YANG Jing, ULUKUS S. Optimal Broad- cast Scheduling For an Energy Harvesting Re- chargeable Transmitter with a Finite Capacity Battery[J]. IEEE Transactions on Wireless Com- munications, 2012, 11(6): 2193- 2203.
8YAO Yingwei, CAI Xiaodong, GIANNAKIS G B. On Energy Efficiency and Optimum Resource Allocation of Relay Transmissions in The Low-power Regime[J]. IEEE Transactions on Wireless Communications,, 2005, 4(6): 2917- 2927.
9ORHAN O, ERKIP E. Optimal Transmission Policies for Energy Harvesting Two-hop Net- works[C]//Proceedings of the 46th IEEE Annual Conference on Information Sciences and Sys- tems: March 21-23, Princeton, NJ, USA, 2012: 1-6.
10HUANG Chuan, ZHANG Rui, CUI Shuguang. Throughput Maximization for the Gaussian Relay Channel with Energy Harvesting Con- straints[J]. IEEE Journal on Selected Areas in Communications, 2013,31(8):1469-1479.

二级参考文献15

1段俊奇,张思东,郑涛.Improved Implementation and Evaluation of Wireless Sensor Networks in Intelligent Building[J].China Communications,2011,8(8):64-71. 被引量：3
2ZHI Sun, AKYILDIZ I F, HANCKE GP. Dynamic Connectivity in Wireless Underground Sensor Networks[J]. IEEE Transactions on Wireless Communications, 2011, 10(12): 4334-4344.
3TANG Qiuling, SUN Changyin, WEN Huan, et aL Cross-Layer Energy Efficiency Analysis and Optimization in WSN[C]//Proceedings of the International Conference on Networking, Sensing and Control: April 10-12, 2010. Chi- cago, USA, 2010: 138-142.
4CUI Shuguang, GOLDSMITH A J, BAHAI A. En- ergy-Efficiency of MIMO and Cooperative MIMO Techniques in Sensor Networks[J]. IEEE Journal on Selected Areas in Communications, 2004, 22(6): 1089-1098.
5ZHOU Zhong, ZHOU Shengli, CUI Shuguang, et al. Energy-Efficient Cooperative Commu- nication in a Cluster Wireless Sensor Net- work[J]. IEEE Transactions on Vehicular Tech- nology, 2008, 57(6): 3618-3628.
6SOMASUNDARA A A, KANSAL A, JEA D D, et al Controllably Mobile Infrastructure for Low Energy Embedded Networks[J]. [EEE Transac- tions on Mobile Computing, 2006, 5(8): 958- 973.
7MA Ming, YANG Yuanyuan. Data Gathering in Wireless Sensor Networks with Mobile Col- lectors[C]// Proceedings of the IEEE Interna- tional Symposium on Parallel and Distributed: April 14-18, 2008. Miami, Florida, USA, 2008: 1-9.
8YAN Bin, WU Xia, ZHOU Xiaojia. An Improved Base Station Cooperative Mobile Strategy for WSN with Finite Powered Cluster Heads[C]// Proceedings of the 6th International Confer- ence on Wireless Communications Network- ing and Mobile Computing: September 23-25, 2010. Chengdu, China, 2010: i-4.
9AKSU A, ERCETIN O. Reliable Multi-Hop Rou- ting with Cooperative Transmissions in En- ergy-Constrained Networks[J]. IEEE Transac- tions on Wireless Communications, 2008, 7(8):2861-2865.
10BOUKERCHE A, XIN I-el. Energy-Etticient Multi- Hop Virtual MIMO Wireless Sensor Net- work[C]// Proceedings of the IEEE Interna- tional Conference on Wireless Communica- tions and Networking: March 11-15, 2007. Honcl Konq, China, 2007: 4301-4306.

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1张秀宁,谈振辉,徐少毅,张金宝,陶成.Power Consumption Optimization of Downlink Macro-Femto Heterogeneous Networks Based on Cross-Layer Design[J].China Communications,2013,10(2):42-55.
2TANG Rui,ZHAO Jihong,QU Hua.Distributed Power Control for Energy Conservation in Hybrid Cellular Network with Device-to-Device Communication[J].China Communications,2014,11(3):27-39. 被引量：13
3Jinkang Zhu,Ming Zhao,Sihai Zhang,Wuyang Zhou.Exploring the Road to 6G: ABC-Foundation for Intelligent Mobile Networks[J].China Communications,2020,17(6):51-67. 被引量：10
4ZHU Jinkang,ZHAO Ming.Saving Energy for Wireless Transmission:An Important Revelation from Shannon Formula[J].ZTE Communications,2021,19(1):2-10.
5朱近康,柴名扬,周武旸.面向B5G/6G的三三三网络体系架构和优化学习机制[J].通信学报,2021,42(4):62-75. 被引量：5
6吴贤平,苗春雨,王丽娜.面向移动无线传感器网络的高效协作定位算法[J].传感技术学报,2024,37(1):121-129.

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1韩玉洁,杨绿溪.MIMO多中继辅助通信中基于最优功率分配的路由选择算法[J].信号处理,2010,26(1):80-85. 被引量：2
2Md Nafees Rahman,M A Matin.Efficient Algorithm for Prolonging Network Lifetime of Wireless Sensor Networks[J].Tsinghua Science and Technology,2011,16(6):561-568. 被引量：7
3徐莉.放大转发双向中继网络的总速率最大化[J].电子测量技术,2012,35(2):135-137. 被引量：3
4朱锋,钱超.基于能量收集的无线传感网MAC接入机制性能分析[J].科技创新导报,2014,11(1):66-66. 被引量：1
5JIANG Jing,LV Wei,SUN Bo,LU Guang-yue,XIE Yong-bin.Interference alignment scheme for massive MIMO system[J].The Journal of China Universities of Posts and Telecommunications,2014,21(4):19-24. 被引量：1
6冯剑,王平阳,王琳,张兴.基于能量获取的无线通信系统研究[J].电信科学,2015,31(2):118-125. 被引量：9
7李云,段海霞,苏开荣,曹傧.OFDM中继系统中能效优化的资源联合分配算法[J].通信学报,2015,36(3):12-19. 被引量：3
8戚晨皓,黄永明,金石.大规模MIMO系统研究进展[J].数据采集与处理,2015,30(3):544-551. 被引量：30
9王世强,邢建春,李决龙,杨启亮.面向无线传感器网络的无线携能通信研究[J].传感器与微系统,2015,34(8):46-49. 被引量：15
10冀保峰,宋康,李春国.聚合干扰下小小区网络的协作传输方案及性能分析[J].信号处理,2015,31(10):1342-1353. 被引量：4

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1杨鲲,于秦,冷甦鹏,张平.数能一体化无线通信网络[J].中国科学：信息科学,2016,46(5):591-609. 被引量：4
2周广丽,孙彦赞,吴雅婷,王涛.能效最优的解码转发OFDM中继链路功率分配[J].电子测量技术,2017,40(10):181-187. 被引量：3
3邢冰冰,冀保峰,李玉琦,王毅,李鹏,李春国,韩瑽琤,文红.中继协同的无线物联能量收集和信息传输算法[J].信号处理,2019,35(7):1235-1241. 被引量：4
4Yi Wang,Yi-Xue Liu,Shun-Jia Zhu,Xiao-Feng Gao,Chen Tian.Approximation Designs for Energy Harvesting Relay Deployment in Wireless Sensor Networks[J].Journal of Computer Science & Technology,2022,37(4):779-796.
5高锦程,赵宜升,陈加法,陈忠辉.Energy-Efficient Bandwidth and Power Allocation in Relay-Assisted Multi-Layer Heterogeneous Networks with Energy Harvesting[J].Journal of Shanghai Jiaotong university(Science),2023,28(6):822-830.

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1谢显中,陈九九,扶渝茜.全双工系统中基于最大加权和速率的信息与能量同传优化方案[J].中国科学：信息科学,2017,47(7):891-903. 被引量：1
2谢显中,罗莹,严可,陈九九.认知无线电网络中四维资源协作的研究现状与未来方向[J].通信学报,2018,39(2):149-163. 被引量：5
3刘安,李金宝,黎玲利.基于子信道信息融合的室内定位方法的研究[J].仪器仪表学报,2018,39(3):242-249. 被引量：7
4扶渝茜,谢显中,陈九九.多天线FD-SWIPT中继信道下功率分裂和波束成形的联合优化[J].重庆邮电大学学报（自然科学版）,2017,29(5):649-656.
5刘瑾.高能效中继通信在实验室通信系统中的应用[J].通信技术,2019,52(4):922-926.
6黄宗伟.多址通信链路功率层次化分配系统设计[J].电子设计工程,2020,28(2):64-68. 被引量：1
7左晨微,梁海迪.基于协同控制的WLAN高吞吐量传输方案[J].山西电子技术,2020,0(2):55-58.
8尹静,徐晓林,熊小华.基于EWIPM的物联网节点信息传输优化仿真[J].计算机仿真,2021,38(12):312-315. 被引量：1
9陈丽.基于粒子群算法的图书馆隐私信息隐藏与传输[J].信息技术,2022,46(8):93-97. 被引量：2
10万磊.数据中台局域多路复用信息可信传输方法[J].信息技术,2023,47(6):161-165.

1董希林.无交流电网供电下电子设备工作电源的设计[J].电测与仪表,1998,35(9):21-23. 被引量：1
2李赞,刘伯阳,司江勃,周福辉.Optimal satisfaction degree in energy harvesting cognitive radio networks[J].Chinese Physics B,2015,24(12):592-599.
3李浩.LIN总线在车身控制中的应用性研究[J].今日电子,2009(10):45-46. 被引量：1
4梁永顺,王璐,王荣.UPS电源的日常维护、检修和故障排除方法[J].辽宁广电网络与传输技术,2014(1):68-70.
5许海楠.NS2辅助网络技术研究初探[J].福建电脑,2010,26(2):44-44.
6彭巨光.变频技术在电网供电自动切换中的应用[J].控制工程,2009,16(1):107-108. 被引量：2
7Xiaozheng Gao,Hangcheng Han,Kai Yang,Jianping An.Energy Efficiency Optimization for D2D Communications Based on SCA and GP Method[J].China Communications,2017,14(3):66-74. 被引量：3
8张娜,田小建,罗清龙,单江东.半导体激光器恒温系统PI控制部件的设计[J].吉林大学学报（信息科学版）,2003,21(3):220-222. 被引量：2
9彭巨光,陈浩.变频器与电网供电自动切换的研究[J].电气时代,2009(9):66-67.
10李强,单洪.增强无线局域网的安全性能[J].通讯世界,2003,9(4):24-24. 被引量：1

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