池凯凯^1,,,
祝驿楠^{1, 2},
邵奇可¹
1.浙江工业大学计算机科学与技术学院 ??杭州 ??310023
2.浙江工业大学健行学院 ??杭州 ??310023
基金项目:国家自然科学基金(61472367, 61432015), 浙江省自然科学基金(LY18F020029)

详细信息

作者简介:池凯凯：男，1980 年生，教授，研究方向为物联网
祝驿楠：男，1997 年生，本科生，研究方向为物联网
邵奇可：男，1977 年生，副教授，研究方向为物联网

通讯作者:池凯凯　 kkchi@zjut.edu.cn

中图分类号:TP393

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出版历程

收稿日期:2017-12-21
修回日期:2018-05-02
网络出版日期:2018-07-12
刊出日期:2018-09-01

Charging Time Minimized Charging Schemes for RF-powered Sensor Network with Moving Trajectory Constrained Mobile Energy Transmitter

Kaikai CHI^1,,,
Yinan ZHU^{1, 2},
Qike SHAO¹
1. School of Computer Science and Technology, Zhejiang University of Technology, Hangzhou 310023, China
2. Jianxing Honors College, Zhejiang University of Technology, Hangzhou 310023, China
Funds:The National Natural Science Foundation of China (61472367, 61432015), The Natural Science Foundation of Zhejiang Province (LY18F020029)


摘要
摘要:射频能量捕获技术是解决传统无线传感网由于节点电量有限而生命周期受限的有效方法。现有的射频能量源移动供电方案中，能量源可以无限制地沿任何方向行进到网络区域内的任一位置来给节点供电。然而在现实场景中，能量源通常只能沿着既有道路行进。考虑能量源行进路径约束下的供电总时延最小化问题，分别提出全程移动供电方案和部分位置停留供电方案，并提出高效算法来确定这两个方案的最佳行进路径和供电时间。仿真结果表明，两种方案的供电总时延均显著优于转折点供电基准方案。相比于部分位置停留供电方案，全程移动供电方案的计算复杂度较低，但供电总时延更长一些。
关键词:射频供能传感网/
无线充电/
行进路径约束/
最小供电时延
Abstract:Radio-Frequency (RF) energy harvesting technique is proved a promising way to solve the short network lifetime issue of traditional Wireless Sensor Networks (WSNs) caused by sensors' finite energy. In the existing charging schemes using the mobile RF Energy Transmitter (ET), ET can move to any location along any moving direction in the monitoring area for energy provision. However, in the practical scenario, ET can only move along the existing roads. For the first time, the charging time minimization issue is considered under the moving trajectory constraint. The Mobile Charging (MC) scheme where ET transmits RF energy while moving and the Static Charging (SC) scheme where ET transmits RF energy while unmoving are proposed, whose the moving trajectory and energy provision time are optimized by the proposed efficient algorithms. Simulation results reveal that the total charging delay of proposed schemes is smaller than the baseline scheme of transmitting energy at turning points. The MC scheme has lower computational complexity but has a slightly larger charging delay as compared to the SC scheme.
Key words:Radio-Frequency (RF)-powered sensor networks/
Wireless charging/
Moving trajectory constraint/
Minimum charging time



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