Fast Approximation Algorithms for Multiple Coverage with Unit Disks

2022 IEEE 23rd International Symposium on a World of Wireless, Mobile and Multimedia Networks (WoWMoM) Pub Date : 2022-06-01 DOI:10.1109/WoWMoM54355.2022.00037

Xuening Gao, Longkun Guo, Kewen Liao

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引用次数: 1

Abstract

Effective monitoring of applications in wireless sensor networks can be underpinned by the multiple coverage problem with unit disks. In the problem, we are given a set of targets T = {t1, t2, …, tn} distributed in the plane, where ti needs to be covered f(ti) times for any positive integer f(ti). The aim is to place a minimum number of disks, such that all the targets can be covered as desired. In the paper, we first present a 5-approximation algorithm with runtime O(n + m) for m = maxi{f(ti)}. Then, we give a theoretically improved 4-approximation algorithm, albeit with an increased time complexity to O(n2). In addition, we consider the online setting where targets arrive in sequence and upon each arrival the corresponding coverage disk must be placed. For this setting, we devise an online algorithm with a competitive ratio of 6 and constant update time. To verify aforementioned theoretical findings, numerical experiments are conducted to demonstrate and compare the practical performance of the proposed algorithms.

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单位磁盘多重覆盖的快速逼近算法

无线传感器网络中应用的有效监控可以通过单元磁盘的多重覆盖问题得到支持。在问题中，给定平面上的一组目标T = {t1, t2，…，tn}，其中对于任意正整数f(ti)， ti需要覆盖f(ti)次。这样做的目的是放置最少数量的磁盘，以便可以根据需要覆盖所有目标。在本文中，我们首先提出了一个运行时间为O(n + m)的5-逼近算法，该算法的m = maxi{f(ti)}。然后，我们给出了一个理论上改进的4-近似算法，尽管时间复杂度增加到O(n2)。此外，我们考虑在线设置，其中目标按顺序到达，并且在每个到达时必须放置相应的覆盖磁盘。对于这种设置，我们设计了一个竞争比为6且更新时间恒定的在线算法。为了验证上述理论发现，进行了数值实验来验证和比较所提出算法的实际性能。

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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2022 IEEE 23rd International Symposium on a World of Wireless, Mobile and Multimedia Networks (WoWMoM)

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