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CCCG
2008
2008
Partial Matching of Planar Polygons Under Translation and Rotation
Curve matching is an important computational task for domains such as: reconstruction of archaeological fragments, forensics investigation, measuring melodic similarity, and model-based object recognition. There are a variety of measures and algorithmic approaches used to address the curve matching problem including: shape signature strings with substring matching, geometric hashing, and Hausdorff distance approaches. In this paper we propose an approach that uses a turning function representation of the shape and also uses a L2 measure for comparing matches. The novel algorithm presented finds the best match along a fixed length portion of two polygon's perimeters where the polygons may be arbitrarily translated and rotated. The algorithm's time complexity is O(mn(n + m)) where n and m are the numbers of vertices in the perimeters being matched. The utility of the algorithm is demonstrated in the reconstruction of a small jigsaw puzzle.
Real-time TrafficCCCG 2008 | Computational Geometry | Curve Matching Problem | Important Computational Task | Shape Signature Strings |
| Added | 29 Oct 2010 |
| Updated | 29 Oct 2010 |
| Type | Conference |
| Year | 2008 |
| Where | CCCG |
| Authors | Eric McCreath |
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