Barrier Coverage by Sensors with Adjustable Ranges

ACM Trans. Sens. Networks Pub Date : 2014-11-07 DOI:10.1145/2629518

Haosheng Fan, Minming Li, Xianwei Sun, P. Wan, Yingchao Zhao

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引用次数: 36

Abstract

One of the most fundamental tasks of wireless sensor networks is to provide coverage of the deployment region. We study the coverage of a line interval with a set of wireless sensors with adjustable coverage ranges. Each coverage range of a sensor is an interval centered at that sensor whose length is decided by the power the sensor chooses. The objective is to find a range assignment with the minimum cost. There are two variants of the optimization problem. In the discrete variant, each sensor can only choose from a finite set of powers, whereas in the continuous variant, each sensor can choose power from a given interval. For the discrete variant of the problem, a polynomial-time exact algorithm is designed. For the continuous variant of the problem, NP-hardness of the problem is proved and followed by an ILP formulation. Then, constant-approximation algorithms are designed when the cost for all sensors is proportional to rκ for some constant κ ≥ 1, where r is the covering radius corresponding to the chosen power. Specifically, if κ = 1, we give a 1.25-approximation algorithm and a fully polynomial-time approximation scheme; if κ > 1, we give a 2-approximation algorithm. We also show that the approximation analyses are tight.

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可调范围传感器的屏障覆盖

无线传感器网络最基本的任务之一是提供部署区域的覆盖。我们研究了一组覆盖范围可调的无线传感器对线路间隔的覆盖。每个传感器的覆盖范围是一个以该传感器为中心的间隔，其长度由传感器选择的功率决定。目标是以最小的成本找到一个范围分配。优化问题有两个变体。在离散变型中，每个传感器只能从有限的一组功率中进行选择，而在连续变型中，每个传感器可以从给定的区间中选择功率。对于该问题的离散型，设计了一种多项式时间精确算法。对于问题的连续型，证明了问题的np -硬度，并给出了一个ILP公式。然后，当某个常数κ≥1时，所有传感器的代价与rκ成正比时，设计常数近似算法，其中r为所选功率对应的覆盖半径。具体来说，当κ = 1时，我们给出了一个1.25近似算法和一个完全多项式时间近似格式;如果κ >为1，则给出2-近似算法。我们还证明了近似分析是严密的。

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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ACM Trans. Sens. Networks

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