Efficient Indexing For Articulation Invariant Shape Matching And Retrieval

S. Biswas, G. Aggarwal, R. Chellappa
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引用次数: 22

Abstract

Most shape matching methods are either fast but too simplistic to give the desired performance or promising as far as performance is concerned but computationally demanding. In this paper, we present a very simple and efficient approach that not only performs almost as good as many state-of-the-art techniques but also scales up to large databases. In the proposed approach, each shape is indexed based on a variety of simple and easily computable features which are invariant to articulations and rigid transformations. The features characterize pairwise geometric relationships between interest points on the shape, thereby providing robustness to the approach. Shapes are retrieved using an efficient scheme which does not involve costly operations like shape-wise alignment or establishing correspondences. Even for a moderate size database of 1000 shapes, the retrieval process is several times faster than most techniques with similar performance. Extensive experimental results are presented to illustrate the advantages of our approach as compared to the best in the field.
关节不变形状匹配与检索的高效索引
大多数形状匹配方法要么速度快,但过于简单,无法提供所需的性能,要么就性能而言有希望,但计算要求很高。在本文中,我们提出了一种非常简单而有效的方法,它不仅性能几乎与许多最先进的技术一样好,而且还可以扩展到大型数据库。在提出的方法中,每个形状都是基于各种简单且易于计算的特征来索引的,这些特征对关节和刚性变换是不变的。这些特征描述了形状上兴趣点之间的成对几何关系,从而为该方法提供了鲁棒性。使用有效的方案检索形状,该方案不涉及诸如形状对齐或建立对应等昂贵的操作。即使对于包含1000个形状的中等大小的数据库,检索过程也比大多数具有类似性能的技术快几倍。大量的实验结果表明,与该领域的最佳方法相比,我们的方法具有优势。
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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