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Scale invariant geometry for nonrigid shapes (2013).
| Content Provider | CiteSeerX |
|---|---|
| Author | Aflalo, Yonathan Kimmel, Ron Raviv, Dan |
| Abstract | In nature, different animals of the same species frequently exhibit local variations in scale. New developments in shape matching research thus increasingly provide us with the tools to answer such fascinating questions as the following: How should we measure the discrepancy between a small dog with large ears and a large one with small ears? Are there geometric structures common to both an elephant and a giraffe? What is the morphometric similarity between a blue whale and a dolphin? Currently, there are only two methods that allow us to quantify similarities between surfaces which are insensitive to deformations in size: scale invariant local descriptors and global normalization methods. Here, we propose a new tool for shape exploration. We introduce a scale invariant metric for surfaces that allows us to analyze nonrigid shapes, generate locally invariant features, produce scale invariant geodesics, embed one surface into another despite changes in local and global size, and assist in the computational study of intrinsic symmetries where size is insignificant. |
| File Format | |
| Publisher Date | 2013-01-01 |
| Access Restriction | Open |
| Subject Keyword | Nonrigid Shape Scale Invariant Geometry Shape Matching Research Computational Study Geometric Structure Shape Exploration Global Size New Tool Scale Invariant Geodesic Global Normalization Method Large Ear Small Dog Invariant Feature Different Animal Blue Whale Fascinating Question Morphometric Similarity New Development Local Variation Scale Invariant Small Ear Scale Invariant Local Descriptor Intrinsic Symmetry |
| Content Type | Text |
