基于概率的多传感器多目标检测优化算法

2007 International Conference on Integration of Knowledge Intensive Multi-Agent Systems Pub Date : 2007-06-11 DOI:10.1109/KIMAS.2007.369824

T. Rahul, K. Krishna, H. Hexmoor

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引用次数: 1

摘要

本文提出的算法适用于需要在限定区域内观察目标以优化系统性能的多传感器自动监视系统。已经有很多方法处理多传感器跟踪和观察，但还没有很多方法纯粹处理目标检测，即每个目标只需要检测一次。用于衡量系统性能的指标是在进入该区域的目标中检测到的目标的百分比。目标根据泊松分布从区域侧面的源点进入区域，所有源的进入率都是恒定的。该算法利用目标到达信息、传感器位置生成多传感器系统每T个时间步的最优运动策略，即每T个时间步，估计发现未检测目标的概率，计算下T个时间步的最优传感器路径。该算法对进入该区域的80%左右的目标进行了鲁棒性和最佳检测

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Probability Based Optimal Algorithms for Multi-sensor Multi-target Detection

The algorithm presented in this paper is designed to be used in automated multi-sensor surveillance systems which require observation of targets in a bounded area to optimize the performance of the system. There have been many approaches which deal with multi-sensor tracking and observation, but there haven't been many which deal purely with targets detections i.e. each target needs to only be detected once. The metric used to gauge the performance of the system is percentage of targets detected among those that enter the area. Targets enter the area through source points on the side of the area according to Poisson distribution, the rate of entry is constant for all sources. The algorithm presented here uses target arrival information, sensor positions to generate an optimal motion strategy for the multi-sensor system every T time-steps i.e. every T time-steps, the probability of finding undetected targets is estimated, the optimal sensor paths for the next T time-steps are calculated. The algorithm performs robustly and optimally detecting around 80% of the targets that enter the area

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2007 International Conference on Integration of Knowledge Intensive Multi-Agent Systems

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