Studying on minimal cover set node deployment in wireless sensor networks

2015 World Symposium on Computer Networks and Information Security (WSCNIS) Pub Date : 2015-09-01 DOI:10.1109/WSCNIS.2015.7368301

Qiuling Tang, Xi Wang, G. Tong, Xian Li

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引用次数: 4

Abstract

Studying on coverage problem is the premise and guarantee of implementing data collection, monitoring and a series of other functions for WSNs. Using the least amount of nodes to realize the regional coverage can effectively reduce the data redundancy and the collision among nodes. The greedy approximate algorithm (GAA) on minimum coverage set is put forward by this paper. In the process of constructing coverage set, from the geometric position among the nodes, we discussed the location relationships of the sensor nodes of the random deployment in different situations. Then the prioritization of different situation is given for comprehensively considering to select nodes to join cover set, respectively according to the distance, the surplus energy, the increase area, and the location relationship between arc intersection points. Finally, through the simulation experiments, the size of the coverage set and the algorithm running time of GAA, GA, and CVT algorithms are compared. And the experimental results show that the GAA is better than the other two algorithms.

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无线传感器网络最小覆盖集节点部署研究

对覆盖问题的研究是无线传感器网络实现数据采集、监测等一系列功能的前提和保证。使用最少的节点实现区域覆盖，可以有效减少数据冗余和节点间的冲突。提出了最小覆盖集上的贪婪近似算法。在构建覆盖集的过程中，从节点之间的几何位置出发，讨论了不同情况下随机部署的传感器节点的位置关系。然后根据距离、剩余能量、增加面积以及圆弧交点之间的位置关系，给出不同情况下的优先级，综合考虑选择节点加入覆盖集。最后，通过仿真实验，比较了GAA、GA和CVT算法的覆盖集大小和算法运行时间。实验结果表明，GAA算法优于其他两种算法。

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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2015 World Symposium on Computer Networks and Information Security (WSCNIS)

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