用于多个机动目标的混合高斯概率假设密度跟踪器

刘贵喜; 周承兴; 王泽毅; 廖兴海

引用本文:	刘贵喜,周承兴,王泽毅,廖兴海.用于多个机动目标的混合高斯概率假设密度跟踪器[J].控制理论与应用,2011,28(8):1087~1092.[点击复制]
	LIU Gui-xi,ZHOU Cheng-xing,WANG Ze-yi,LIAO Xing-hai.Gaussian-mixture probability-hypothesis-density tracker for multiple maneuvering targets[J].Control Theory and Technology,2011,28(8):1087~1092.[点击复制]

用于多个机动目标的混合高斯概率假设密度跟踪器

Gaussian-mixture probability-hypothesis-density tracker for multiple maneuvering targets

摘要点击 2407 全文点击 1622 投稿时间：2010-08-18 修订日期：2010-12-06

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DOI编号 10.7641/j.issn.1000-8152.2011.8.CCTA100947

2011,28(8):1087-1092

中文关键词多目标跟踪随机集概率假设密度混合高斯机动目标

英文关键词 multiple target tracking random sets probability-hypothesis-density Gaussian mixture maneuvering targets

基金项目国家部委基金资助项目(9140A16050109DZ0124, 9140A16050310DZ01); 国家部委十一五科技资助项目(51316060205); 中央高校基本科研业务费专项资金资助项目(JY10000904017).

作者	单位	E-mail
刘贵喜^*	西安电子科技大学自动控制系	gxliu@xidian.edu.cn
周承兴	西安电子科技大学自动控制系	xajdzcx@126.com
王泽毅	西安电子科技大学自动控制系
廖兴海	西安电子科技大学自动控制系

中文摘要

现有的混合高斯概率假设密度(GM--PHD)跟踪器不仅可以估计时变的多目标状态, 还能辨识不同目标并保持其轨迹连续性. 但当多个目标发生机动时, 其稳定性较差, 容易丢失目标. 针对这一问题, 本文提出一种能跟踪多个机动目标的混合高斯概率假设密度跟踪器算法. 算法在GM--PHD滤波的框架上采用修正的输入估计方法将目标的概率假设密度(PHD)表示成混合高斯形式, 并利用不同的标记辨识各个高斯分量, 然后通过PHD滤波方程迭代这些高斯分量和对应的标记, 最终达到跟踪多个机动目标的目的. 仿真实验表明, 和传统的GM--PHD跟踪器相比, 新算法能以更高的稳定性跟踪多个机动目标.

英文摘要

The existing Gaussian-mixture probability-hypothesis-density(GM--PHD) tracker can estimate time-varying multi-target states, identify different targets and continuously keep on their tracks. However, it is poor in stability and easy to lose targets when multiple targets are in maneuvering. To solve this problem, a Gaussian-mixture probability-hypothesisdensity tracker algorithm for tracking multiple maneuvering targets is proposed. This algorithm employs modified inputestimation technique in the GM--PHD filtering framework to express the probability-hypothesis-density(PHD) of targets in a Gaussian-mixture form, and identifies each Gaussian component by using different labels. The Gaussian components and their labels are iterated through PHD filtering equations, eventually, achieving the tracking of multiple maneuvering targets. Simulation experiment shows that the new algorithm tracks multiple maneuvering targets with higher stability than that of the general GM--PHD tracker.