Adaptive pyramid mean shift for global real-time visual tracking

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摘要

Tracking objects in videos using the mean shift technique has attracted considerable attention. In this work, a novel approach for global target tracking based on mean shift technique is proposed. The proposed method represents the model and the candidate in terms of background weighted histogram and color weighted histogram, respectively, which can obtain precise object size adaptively with low computational complexity. To track targets whose displacements between two successive frames are relatively large, we implement the mean shift procedure via a coarse-to-fine way for global maximum seeking. This procedure is termed as adaptive pyramid mean shift, because it uses the pyramid analysis technique and can determine the pyramid level adaptively to decrease the number of iterations required to achieve convergence. Experimental results on various tracking videos and its application to a tracking and pointing subsystem show that the proposed method can successfully cope with different situations such as camera motion, camera vibration, camera zoom and focus, high-speed moving object tracking, partial occlusions, target scale variations, etc.

论文关键词:Global visual tracking,Fast mean shift,Adaptive level,Kernel-based tracking,Tracking and pointing subsystem

论文评审过程:Received 24 March 2008, Revised 25 March 2009, Accepted 14 June 2009, Available online 17 June 2009.

论文官网地址:https://doi.org/10.1016/j.imavis.2009.06.012