A rapidly deployable virtual presence extended defense system

M. W. Koch, C. Giron, Hung D. Nguyen
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引用次数: 1

Abstract

We have developed algorithms for a virtual presence and extended defense (VPED) system that automatically learns the detection map of a deployed sensor field without a-priori knowledge of the local terrain. The VPED system is a network of sensor pods, with each pod containing acoustic and seismic sensors. Each pod has a limited detection range, but a network of pods can form a virtual perimeter. The site's geography and soil conditions can affect the detection performance of the pods. Thus a network in the field may not have the same performance as a network designed in the lab. To solve this problem we automatically estimate a network's detection performance as it is being constructed. We demonstrate results using simulated and real data.
一个快速部署的虚拟存在扩展防御系统
我们已经为虚拟存在和扩展防御(VPED)系统开发了算法,该系统可以自动学习部署的传感器场的检测地图,而无需先验地了解当地地形。VPED系统是一个传感器吊舱网络,每个吊舱包含声学和地震传感器。每个豆荚的探测范围有限,但豆荚网络可以形成一个虚拟的边界。场地的地理和土壤条件会影响吊舱的探测性能。因此,现场的网络可能与实验室设计的网络具有不同的性能。为了解决这个问题,我们在构建网络时自动估计网络的检测性能。我们用模拟数据和真实数据证明了结果。
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