Energy-Efficient and Coverage-Aware Clustering in Wireless Sensor Networks

F. Awad, E. Taqieddin, Asmaa Seyam
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引用次数: 36

Abstract

Energy efficiency and sensing coverage are essential metrics for enhancing the lifetime and the utilization of wireless sensor networks. Many protocols have been developed to address these issues, among which, clustering is considered a key technique in minimizing the consumed energy. However, few clustering protocols address the sensing coverage metric. This paper proposes a general framework that addresses both metrics for clustering algorithms in wireless sensor networks. The proposed framework is based on applying the principles of Virtual Field Force on each cluster within the network in order to move the sensor nodes towards proper locations that maximize the sensing coverage and minimize the transmitted energy. Two types of virtual forces are used: an attractive force that moves the nodes towards the cluster head in order to reduce the energy used for communication and a repulsive force that moves the overlapping nodes away from each other such that their sensing coverage is maximized. The performance of the proposed mechanism was evaluated by applying it to the well-known LEACH clustering algorithm. The simulation results demonstrate that the proposed mechanism improves the performance of the LEACH protocol considerably in terms of the achieved sensing coverage, and the network lifetime.
无线传感器网络中的节能和覆盖感知聚类
能源效率和传感覆盖是提高无线传感器网络使用寿命和利用率的重要指标。为了解决这些问题,已经开发了许多协议,其中聚类被认为是最小化能耗的关键技术。然而,很少有聚类协议解决感知覆盖度量。本文提出了一个通用框架,解决了无线传感器网络中聚类算法的两个度量。所提出的框架是基于在网络中的每个集群上应用虚拟场力原理,以便将传感器节点移动到适当的位置,从而最大化传感覆盖范围并最小化传输能量。使用了两种类型的虚拟力:一种是将节点移向簇头的吸引力,以减少用于通信的能量;另一种是将重叠节点移离彼此的排斥力,以使它们的传感覆盖范围最大化。将该机制应用于著名的LEACH聚类算法,对其性能进行了评价。仿真结果表明,该机制在感知覆盖范围和网络寿命方面显著提高了LEACH协议的性能。
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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