Computer Science ›› 2015, Vol. 42 ›› Issue (11): 164-169.doi: 10.11896/j.issn.1002-137X.2015.11.034

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Bi-dimensional Wireless Energy Transfer Algorithm for Maximum Network Throughput

YAO Xin-wei, ZHENG Xing-hang, WANG Wan-liang, ZHAO Cheng and YANG Shuang-hua   

  • Online:2018-11-14 Published:2018-11-14

Abstract: A bi-dimensional wireless energy transfer optimization algorithm for maximum network throughput was proposed to overcome the limited energy of each node in wireless network.Due to the inequality of energy distribution of each node,some energy is transferred successively in node dimension and time dimension to optimize the energy allocation among wireless nodes.Network throughput model was presented by integrating the Gaussian two-way communication model of two wireless nodes and wireless energy transfer.To obtain the maximum network throughout,an analytical energy transfer model was also presented by introducing the energy transfer efficiency of node dimension and time dimension,and a bi-dimensional energy transfer mechanism was proposed based on the model analysis.Experimental results demonstrate that the proposed mechanism can effectively optimize the energy distribution among wireless nodes,and maximize the total network throughput.

Key words: Wireless energy transfer,Energy harvesting,Throughput maximization,Wireless networks

[1] 张雪松,朱超甫,李忠富.基于微带天线的能量传输技术及其性能研究[J].电子与信息学报,2007,29(1):232-235Zhang Xue-song,Zhu Chao-fu,Li Zhong-fu.The Studies of Energy Transmission Technology and Its Performances Based on Microstrip Antennas[J].Journal of Electronics & Information Technology,2007,29(1):232-235
[2] Gurakan B,Ozel O,Yang J,et al.Energy Cooperation in Energy Harvesting Communications[J].IEEE Transactions on Communications,2013,61(12):4884-4898
[3] 刘铁流,巫咏群.基于能量优化的无线传感器网络分簇路由算法研究[J].传感技术学报,2011,24(5):764-770 Liu Tie-liu,Wu Yong-qun.Energy Optimized Approach Based on Clustering Routing Arithmetic for Wireless Senor Networks[J].Chinese Journal of Sensors and Actuators,2011,24(5):764-770
[4] Gurakan B,Ozel O,Yang J,et al.Energy cooperation in energy harvesting two-way communications[C]∥IEEE International Conference on Communications(ICC).Budapest,2013:3126-3130
[5] Gurakan B,Ozel O,Yang J,et al.Energy cooperation in energy harvesting wireless communications[C]∥IEEE International Symposium on Information Theory Proceedings(ISIT).Cambridge,MA,2012:965-969
[6] Gurakan B,Ozel O,Yang J,et al.Two-way and multiple-access energy harvesting systems with energy cooperation[C]∥Conference Record of the Forty Sixth Asilomar Conference on Signals,Systems and Computers(ASILOMAR).Pacific Grove,CA,2012:58-62
[7] Tutuncuoglu K,Yener A.Optimum transmission policies forbattery limited energy harvesting nodes[J].IEEE Transactions on Wireless Communications,2012,11(3):1180-1189
[8] Ozel O,Tutuncuoglu K,Yang J,et al.Transmission with energy harvesting nodes in fading wireless channels:Optimal policies[J].IEEE Journal on Selected Areas in Communications,2011,29(8):1732-1743
[9] Yang J,Ozel O,Ulukus S.Broadcasting with an energy harvesting rechargeable transmitter[J].IEEE Transactions on Wireless Communications,2012,11(2):571-583
[10] Antepli M A,Uusal-Biyikoglu E,Erkal H.Optimal packetscheduling on an energy harvesting broadcast link[J].IEEE Journal on Selected Areas in Communications,2011,29(8):1721-1731
[11] Ozel O,Yang J,Ulukus S.Optimal broadcast scheduling for an energy harvesting rechargeable transmitter with a finite capacity battery[J].IEEE Transactions on Wireless Communications,2012,11(6):2193-2203
[12] Yang J,Ulukus S.Optimal packet scheduling in a multiple access channel with energy harvesting transmitters[J].Journal of Communications and Networks,2012,14(2):140-150
[13] Tutuncuoglu K,Yener A.Sum-rate optimal power policies for energy harvesting transmitters in an interference channel[J].Journal of Communications and Networks,2012,14(2):151-161
[14] Devillers B,Gunduz D.A general framework for the optimiza-tion of energy harvesting communication systems with battery imperfections[J].Journal of Communications and Networks,2012,14(2):130-139
[15] Orhan O,Gunduz D,Erkip E.Throughput maximization for an energy harvesting communication system with processing cost[C]∥IEEE Information Theory Workshop(ITW).Lausanne,2012:84-88
[16] Han T.A general coding scheme for the two-way channel[J].IEEE Transactions on Information Theory,1984,30(1):35-44
[17] Sudevalayam S,Kulkarni P.Energy harvesting sensor nodes:Survey and implications[J].IEEE Communications Surveys & Tutorials,2011,13(3):443-461

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