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CVPR
2000
IEEE
2000
IEEE
Geodesic Distance Evolution of Surfaces: A New Method for Matching Surfaces
The general problem of surface matching is taken up in this study. The process described in this work hinges on a geodesic distance equation for a family of surfaces embedded in the graph of a cost function. The cost function represents the geometrical matching criterion between the two 3D surfaces. This graph is a hypersurface in 4-dimensional space, and the theory presented herein is a generalization of the geodesic curve evolution method introduced by R. Kimmel et al [12]. It also generalizes a 2D matching process developed in [4]. An Eulerian level-set formulation of the geodesic surface evolution is also used, leading to a numerical scheme for solving partial differential equations originating from hyperbolic conservation laws [17], which has proven to be very robust and stable. The method is applied on examples showing both small and large deformations, and arbitrary topological changes.
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| Added | 30 Jul 2010 |
| Updated | 30 Jul 2010 |
| Type | Conference |
| Year | 2000 |
| Where | CVPR |
| Authors | Hussein M. Yahia, Etienne G. Huot, Isabelle Herlin, Isaac Cohen |
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