On redundancy identification in randomly deployed WSNs, another perspective

L. P. Damuut, Dongbing Gu
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引用次数: 8

Abstract

Redundancy in Wireless Sensor Networks (WSNs) is often considered a positive development to ensure message reinforcement, increased network reliability and fault-tolerance, among many other quality of service (QoS) concerns. In certain applications of WSNs however, the negative impact of redundancy on the network could outweigh the aforementioned positive considerations. Random deployment of sensors inevitably leads to the occurrences of redundancy in the network with serious consequences (e.g., network congestion and energy wastage). In order to address the challenges posed by redundant nodes on the network, it is of prime importance to first of all, identify the redundant nodes from the network. In this paper, the concept of redundancy in wireless sensor networks and its identification are examined. Specifically, we employed the use of a modified version of Low Energy Adaptive Clustering Hierarchy (LEACH) algorithm to identify physically redundant nodes in a randomly deployed wireless sensor network. Simulation results reveal a proportional relationship between redundant nodes and the number of nodes required to keep the network functional. This relationship is equally maintained as the network's lifespan advances (i.e., some nodes begin to die out).
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从另一个角度研究随机部署wsn的冗余识别
在许多其他服务质量(QoS)问题中,无线传感器网络(wsn)中的冗余通常被认为是确保消息增强、提高网络可靠性和容错性的积极发展。然而,在某些无线传感器网络应用中,冗余对网络的负面影响可能超过上述积极考虑。传感器的随机部署不可避免地会导致网络中出现冗余,造成严重的后果(如网络拥塞和能源浪费)。为了解决网络中冗余节点带来的挑战,首先从网络中识别冗余节点是至关重要的。本文研究了无线传感器网络中冗余的概念及其辨识。具体来说,我们使用了改进版本的低能量自适应聚类层次(LEACH)算法来识别随机部署的无线传感器网络中的物理冗余节点。仿真结果揭示了冗余节点与保持网络功能所需节点数量之间的比例关系。随着网络寿命的延长(例如,一些节点开始消亡),这种关系同样得到维持。
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