一种基于颜色的实时目标跟踪方法

M. Asif, P. Angelov, H. Ahmed
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引用次数: 22

摘要

目标跟踪在工业、安全和国防的各个领域都引起了人们的极大兴趣。基于颜色信息跟踪运动物体比使用运动线索的系统更健壮。为了在周围条件变化时保持对物体的锁定,需要实时调整颜色模型。本文利用模糊自适应共振理论(ART)实现了色彩模型的在线学习方法。模糊ART是一种基于竞争学习原理训练的神经网络。目标区域的颜色模型根据应用于像素颜色信息的警戒标准(即阈值)定期更新。利用扩展Takagi-Sugeno (exTS)模型预测下一帧的目标位置,提高跟踪性能。将ext应用于运动目标位置预测的结果与常用的基于卡尔曼滤波的预测结果进行了比较。与卡尔曼滤波器相比,真实镜头的实验在各种场景下证明了ext作为预测器的优越性。进一步的研究集中在使用进化聚类来实现计算高效的同时跟踪目标的不同部分
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Approach to Real-time Color-based Object Tracking
Object tracking is of great interest in different areas of industry, security and defense. Tracking moving objects based on color information is more robust than systems utilizing motion cues. In order to maintain the lock on the object as the surrounding conditions vary, the color model needs to be adapted in real-time. In this paper an on-line learning method for the color model is implemented using fuzzy adaptive resonance theory (ART). Fuzzy ART is a type of neural network that is trained based on competitive learning principle. The color model of the target region is regularly updated based on the vigilance criteria (which is a threshold) applied to the pixel color information. The target location in the next frame is predicted using evolving extended Takagi-Sugeno (exTS) model to improve the tracking performance. The results of applying exTS for prediction of the position of the moving target were compared with the usually used solution based on Kalman filter. The experiments with real footage demonstrate over a variety of scenarios the superiority of the exTS as a predictor comparing to the Kalman filter. Further investigation concentrates on using evolving clustering for realizing computationally efficient simultaneous tracking of different segments in the object
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