An Energy-Efficient Node Deployment Strategy for Energy Harvesting-aided Wireless Sensor Networks

Q2S and Security for Wireless and Mobile Networks Pub Date : 2018-10-25 DOI:10.1145/3267129.3267149

Peng Sun, A. Boukerche

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引用次数: 1

Abstract

Due to the limited battery capacity, energy is the most crucial constraint for improving the performance of widely adopted Wireless Sensor Networks (WSNs). Hence, conserving energy and improving the energy efficiency are important in designing a sustainable WSN. In this article, by taking the advantages of the emerging energy harvest techniques, we introduce a novel energy-efficient hierarchical two-tier (HTT) energy harvesting-aided WSNs deployment scenario. In our design, two types of nodes are adopted: one is the regular battery-powered sensor node (RSN), and the other is the energy harvesting-aided data relaying node (EHN). The objective is to use only RSNs to monitor FoI, while EHNs focus on collecting the sensed data from RSNs and forwarding the gathered data to the data sink. The minimum number of EHNs is deployed based on a newly designed probability density function to minimize the energy consumption of RSNs. This, in turn, extends the lifetime of the deployed WSN. The simulation results indicate that the proposed scheme outperforms some well-known techniques in the network lifetime, while enhancing the total throughput.

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能量收集辅助无线传感器网络的节能节点部署策略

由于有限的电池容量，能量是提高广泛采用的无线传感器网络(WSNs)性能的最关键约束。因此，在设计可持续的无线传感器网络时，节约能源和提高能源效率是非常重要的。在本文中，通过利用新兴的能量收集技术的优势，我们介绍了一种新的节能的分层两层(HTT)能量收集辅助wsn部署方案。在我们的设计中，采用了两种类型的节点，一种是常规的电池供电传感器节点(RSN)，另一种是能量收集辅助数据中继节点(EHN)。目标是仅使用rsn监测FoI，而ehn侧重于从rsn收集感测数据并将收集到的数据转发到数据接收器。基于新设计的概率密度函数，部署最小网元个数，实现网元能耗最小化。这反过来又延长了部署的WSN的生命周期。仿真结果表明，该方案在提高总吞吐量的同时，在网络生存期上优于一些知名的技术。

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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Q2S and Security for Wireless and Mobile Networks

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