Optimizing Distribution-based Matching by Random Subsampling

A. Leung, S. Gong
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引用次数: 16

Abstract

We boost the efficiency and robustness of distribution-based matching by random subsampling which results in the minimum number of samples required to achieve a specified probability that a candidate sampling distribution is a good approximation to the model distribution. The improvement is demonstrated with applications to object detection, mean-shift tracking using color distributions and tracking with improved robustness for low-resolution video sequences. The problem of minimizing the number of samples required for robust distribution matching is formulated as a constrained optimization problem with the specified probability as the objective function. We show that surprisingly mean-shift tracking using our method requires very few samples. Our experiments demonstrate that robust tracking can be achieved with even as few as 5 random samples from the distribution of the target candidate. This leads to a considerably reduced computational complexity that is also independent of object size. We show that random subsampling speeds up tracking by two orders of magnitude for typical object sizes.
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随机子抽样优化基于分布的匹配
我们通过随机子抽样提高了基于分布的匹配的效率和鲁棒性,从而使所需的最小样本数量达到指定概率,即候选抽样分布与模型分布很好地近似。在目标检测、使用颜色分布的均值偏移跟踪和对低分辨率视频序列的鲁棒性改进跟踪方面的应用证明了这种改进。将鲁棒分布匹配所需样本数的最小化问题表述为以指定概率为目标函数的约束优化问题。令人惊讶的是,使用我们的方法进行均值移位跟踪只需要很少的样本。我们的实验表明,即使只有5个目标候选分布的随机样本,也可以实现鲁棒跟踪。这大大降低了计算复杂性,而且与对象大小无关。我们表明,随机子采样速度跟踪两个数量级的典型对象的大小。
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