Optimal deployment for roadside wireless charger with bounded detouring cost

2017 IEEE International Conference on Communications Workshops (ICC Workshops) Pub Date : 2017-05-01 DOI:10.1109/ICCW.2017.7962706

Xunpeng Rao, Panlong Yang, Yubo Yan, Gang Liu, Maotian Zhang, Wanru Xu

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引用次数: 1

Abstract

Wireless energy transfer technologies have played an important role in the development of Internet of Things (IoTs). Most of previous studies focus on scheduling mobile chargers efficiently for rechargeable sensor nodes. In this paper, we consider optimizing the deployment for Wireless Charging Stations (WCSs) in urban area. We respect the users detouring cost, when they need move to the candidate WCSs. Given a number of WCSs and users trajectories, we aim at optimizing the WCSs deployment to maximize the number of users for recharging with guaranteed probability. We convert our deployment problem into the weighted maximum coverage problem, which has been proved to be NP-hard. We have also proved that our objective function is a maximum submodular set function. Then a simple but efficient greedy algorithm could be applied with guaranteed approximation ratio (1−1/e ). Finally, we evaluate the performance of our algorithm by comparing with two effective algorithms, and the impacts of different parameters on our algorithm. The evaluation results show that our algorithm improves the number of covered users with 30% comparing with two aforementioned algorithms.

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具有有限绕行成本的路边无线充电器最优配置

无线能量传输技术在物联网的发展中发挥着重要作用。以往的研究大多集中在可充电传感器节点的移动充电器调度问题上。本文主要研究城市无线充电站的优化部署问题。当用户需要移动到候选wcs时，我们尊重用户绕路成本。给定多个wcs和用户轨迹，我们的目标是优化wcs的部署，以保证充电的用户数量最大化。我们将部署问题转化为加权最大覆盖问题，该问题已被证明是np困难的。我们还证明了目标函数是一个极大次模集函数。在保证近似比为(1−1/e)的情况下，可以应用一种简单而高效的贪心算法。最后，通过与两种有效算法的比较，以及不同参数对算法的影响，对算法的性能进行了评价。评价结果表明，与前两种算法相比，该算法的覆盖用户数提高了30%。

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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2017 IEEE International Conference on Communications Workshops (ICC Workshops)

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