An Object Tracking Algorithm Based on Motion-Tuned Continuous Wavelet Transform

S. Sajikumar, A. Anilkumar
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Abstract

A continuous wavelet transform (CWT) based object tracking algoithm is proposed. Spatio-temporal motion-tuned wavelet is used to extract motion parameters like velocity, orientation, position and scale. CWT is used to define three energy densities which are used as estimators. Sequential optimization of parameters are done in a frame-by-frame manner which allows the algorithm to track moving objects. The problem of setting initial scale parameter is improved by a new functional relation between radius of the target and velocity using a third degree polynomial constructed from 2D-Chebyshev polynomials. Experimental results show that the new functional relation gives reasonable initial scale parameter without any analysis of huge amount of previous data and the revised algorithm tracks the object in a better way.
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一种基于运动调谐连续小波变换的目标跟踪算法
提出了一种基于连续小波变换(CWT)的目标跟踪算法。时空运动调谐小波用于提取速度、方向、位置和尺度等运动参数。用CWT定义三个能量密度作为估计量。以逐帧的方式对参数进行顺序优化,使算法能够跟踪运动物体。利用二维切比雪夫多项式构造的三次多项式,建立了目标半径与速度的函数关系,改进了初始尺度参数的设置问题。实验结果表明,新的函数关系给出了合理的初始尺度参数,无需分析大量的先前数据,改进后的算法能更好地跟踪目标。
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