A Temporal and Spatial Priority With Global Cost Recharging Scheduling in Wireless Rechargeable Sensor Networks

IF 0.6 Q4 COMPUTER SCIENCE, THEORY & METHODS
Jingjing Chen, Hongwei Chen, Wen Ouyang, Chang-Wu Yu
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引用次数: 0

Abstract

Wireless power transfer technique provides a new and promising method for alleviating the limited energy capacity problem, thus receiving much attention. However, previous works usually consider temporal, spatial, or both factors of the current selected node greedily without taking the residual moving distance of the remaining nodes into consideration. Surely, it is not easy to precisely estimate the residual moving distance of the remaining nodes before knowing their exact order in the scheduling path. In this work, the authors are the first to propose the concept of the residual moving distance (cost) and create a mathematical model to roughly estimate the cost of a given node set. Moreover, they design a temporal and spatial priority charging scheduling algorithm with additional considering the global cost (TSPG). Simulation results demonstrate that TSPG outperforms earliest deadline first scheduling algorithm and revised earliest deadline first scheduling algorithm. Moreover, the proposed new model for estimating moving distance in the residual area has all relative error below 9%.
无线可充电传感器网络中具有时间和空间优先级和全局成本的充电调度
无线电力传输技术为缓解能源容量有限的问题提供了一种新的、有前途的方法,受到了广泛的关注。然而,以往的工作通常是贪婪地考虑当前所选节点的时间、空间或两者因素,而不考虑剩余节点的剩余移动距离。当然,在不知道剩余节点在调度路径上的确切顺序之前,很难精确估计剩余节点的剩余移动距离。在这项工作中,作者首次提出了剩余移动距离(成本)的概念,并创建了一个数学模型来粗略估计给定节点集的成本。此外,他们还设计了一种额外考虑全局成本(TSPG)的时空优先充电调度算法。仿真结果表明,TSPG算法优于最早截止日期优先调度算法和改进的最早截止日期优先调度算法。此外,所提出的残差区域移动距离估计模型的相对误差均在9%以下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.70
自引率
10.00%
发文量
24
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