Mobility-Assisted Spatiotemporal Detection in Wireless Sensor Networks

G. Xing, Jianping Wang, Ke Shen, Qingfeng Huang, X. Jia, H. So
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引用次数: 43

Abstract

Wireless sensor networks (WSNs) deployed for mission-critical applications face the fundamental challenge of meeting stringent spatiotemporal performance requirements using nodes with limited sensing capacity. Although advance network planning and dense node deployment may initially achieve the required performance, they often fail to adapt to the unpredictability of physical reality. This paper explores efficient use of mobile sensors to address the limitations of static WSNs in target detection. We propose a data fusion model that enables static and mobile sensors to effectively collaborate in target detection. An optimal sensor movement scheduling algorithm is developed to minimize the total moving distance of sensors while achieving a set of spatiotemporal performance requirements including high detection probability, low system false alarm rate and bounded detection delay. The effectiveness of our approach is validated by extensive simulations based on real data traces collected by 23 sensor nodes.
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无线传感器网络中的移动辅助时空检测
用于关键任务应用的无线传感器网络(wsn)面临着使用有限传感容量的节点来满足严格的时空性能要求的基本挑战。尽管预先的网络规划和密集的节点部署可能在最初达到所需的性能,但它们往往无法适应物理现实的不可预测性。本文探讨了如何有效地利用移动传感器来解决静态wsn在目标检测方面的局限性。我们提出了一种数据融合模型,使静态和移动传感器能够有效地协同进行目标检测。为了在满足高检测概率、低系统虚警率和有界检测延迟等时空性能要求的前提下,使传感器的总移动距离最小,提出了一种最优传感器运动调度算法。基于23个传感器节点收集的真实数据轨迹的大量仿真验证了我们方法的有效性。
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