Optimal deployment and replenishment of monitoring wireless sensor networks

2010 - MILCOM 2010 MILITARY COMMUNICATIONS CONFERENCE Pub Date : 2010-10-01 DOI:10.1109/MILCOM.2010.5680140

David J. Dorsey, M. Kam

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Abstract

Wireless Sensor Networks (WSNs) composed of inexpensive devices allow the possibility of large deployments aimed at monitoring remote, or possibly hostile, areas. However, due to the unique traffic patterns exhibited by monitoring sensor networks, the lifetime of a large WSN is constrained by the burden placed on nodes near the sink node to forward additional traffic as more nodes are deployed. We discuss approaches for deploying a WSN that will maximize the lifetime of an initial deployment. We then consider cases where the mission lifetime is of a duration such that overdeploying an initial network to meet this mission criteria would become prohibitively expensive. We then propose a replenishment control framework where additional nodes are added to an initial deployment in consecutive batches in order to meet mission lifetimes while reducing cost. The control framework consists of a failure process model used to forecast sensor failures due to energy depletion, and a two-stage limited lookahead controller used to determine the number of nodes to be added to the network and the approximate locations of their deployment.

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监测无线传感器网络的优化部署和补充

由廉价设备组成的无线传感器网络(wsn)允许大规模部署，目的是监视远程或可能敌对的区域。然而，由于监测传感器网络表现出独特的流量模式，大型WSN的生存期受到汇聚节点附近节点的负担的限制，因为部署了更多的节点来转发额外的流量。我们讨论了部署WSN的方法，这些方法将使初始部署的生命周期最大化。然后，我们考虑这样的情况，即任务寿命很长，以至于过度部署初始网络以满足此任务标准将变得非常昂贵。然后，我们提出了一个补充控制框架，其中额外的节点被添加到连续批次的初始部署中，以满足任务寿命，同时降低成本。控制框架包括一个故障过程模型，用于预测由于能量耗尽而导致的传感器故障，以及一个两阶段有限前瞻性控制器，用于确定要添加到网络中的节点数量及其部署的大致位置。

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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2010 - MILCOM 2010 MILITARY COMMUNICATIONS CONFERENCE

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