Fast Background Initialization with Recursive Hadamard Transform

2010 7th IEEE International Conference on Advanced Video and Signal Based Surveillance Pub Date : 2010-08-29 DOI:10.1109/AVSS.2010.43

Davide Baltieri, R. Vezzani, R. Cucchiara

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引用次数: 34

Abstract

In this paper, we present a new and fast techniquefor background estimation from cluttered image sequences.Most of the background initialization approaches developedso far collect a number of initial frames and then requirea slow estimation step which introduces a delay wheneverit is applied. Conversely, the proposed technique redistributesthe computational load among all the frames bymeans of a patch by patch preprocessing, which makesthe overall algorithm more suitable for real-time applications.For each patch location a prototype set is created andmaintained. The background is then iteratively estimatedby choosing from each set the most appropriate candidatepatch, which should verify a sort of frequency coherencewith its neighbors. To this aim, the Hadamard transformhas been adopted which requires less computation time thanthe commonly used DCT. Finally, a refinement step exploitsspatial continuity constraints along the patch borders toprevent erroneous patch selections. The approach has beencompared with the state of the art on videos from availabledatasets (ViSOR and CAVIAR), showing a speed up of about10 times and an improved accuracy.

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递归Hadamard变换的快速背景初始化

本文提出了一种新的快速背景估计方法。目前开发的大多数背景初始化方法都收集了大量的初始帧，然后需要缓慢的估计步骤，这在每次应用时都会引入延迟。相反，该技术通过逐块预处理的方式将计算负荷重新分配到所有帧之间，使整个算法更适合实时应用。对于每个补丁位置，创建并维护一个原型集。然后通过从每个集中选择最合适的候选patch来迭代估计背景，该候选patch应该与其邻居验证某种频率相干性。为此，采用了比常用的DCT计算时间更少的Hadamard变换。最后，细化步骤利用沿补丁边界的空间连续性约束来防止错误的补丁选择。该方法已经与来自可用数据集(ViSOR和CAVIAR)的最新视频进行了比较，显示出大约10倍的速度和更高的准确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2010 7th IEEE International Conference on Advanced Video and Signal Based Surveillance

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