Open AccessShape-similarity search of 3D models by using enhanced shape functions
Author(s) -
Ryutarou Ohbuchi,
Takahiro Minamitani,
Tsuyoshi Takei
Publication year - 2005
Publication title -
international journal of computer applications in technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.292
H-Index - 27
eISSN - 1741-5047
pISSN - 0952-8091
DOI - 10.1504/ijcat.2005.006466
Subject(s) - active shape model , similarity (geometry) , invariant (physics) , histogram , heat kernel signature , pattern recognition (psychology) , artificial intelligence , surface (topology) , shape analysis (program analysis) , matrix similarity , computer science , point (geometry) , manifold (fluid mechanics) , set (abstract data type) , mathematics , transformation (genetics) , algorithm , topology (electrical circuits) , geometry , image (mathematics) , mathematical analysis , segmentation , combinatorics , static analysis , mechanical engineering , biochemistry , chemistry , partial differential equation , engineering , mathematical physics , gene , programming language
We propose a pair of shape features for searching surface-based 3D shape models based on their shape similarity. Either of the features is computed by first converting an input surface based model into an oriented point set model and then computing a joint 2D histogram of distance and orientation of pairs of points. Advantages of the shape features are: they can be computed for non-solid or non-manifold models; they are invariant to similarity transformation; and they are tolerant of topological and geometrical errors and degeneracies. Experiments showed that, with only a modest increase in computational cost, our shape features achieved significant performance improvement over Osada's D2, on which our features are based.
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