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Main Authors: Bernal, Javier, Lawrence, Jim
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.16462
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author Bernal, Javier
Lawrence, Jim
author_facet Bernal, Javier
Lawrence, Jim
contents The computation of the elastic shape registration of two simple surfaces in 3-dimensional space and therefore of the elastic shape distance between them has been investigated by Kurtek, Jermyn, et al. who have proposed algorithms to carry out this computation. These algorithms accomplish this by minimizing a distance function between the surfaces in terms of rotations and reparametrizations of one of the surfaces, the optimization over reparametrizations using a gradient approach that may produce a local solution. Now minimizing in terms of rotations and a special subset of the set of reparametrizations, we propose an algorithm for minimizing the distance function, the optimization over reparametrizations based on dynamic programming. This approach does not necessarily produce an optimal solution for the registration and distance problem, but perhaps a solution closer to optimal than the local solution that an algorithm with a gradient approach for optimizing over the entire set of reparametrizations may produce. In fact we propose that when computing the elastic shape registration of two simple surfaces and the elastic shape distance between them with an algorithm based on a gradient approach for optimizing over the entire set of reparametrizations, to use as the input initial solution the optimal rotation and reparametrization computed with our proposed algorithm.
format Preprint
id arxiv_https___arxiv_org_abs_2409_16462
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Partial Elastic Shape Registration of 3D Surfaces using Dynamic Programming
Bernal, Javier
Lawrence, Jim
Differential Geometry
The computation of the elastic shape registration of two simple surfaces in 3-dimensional space and therefore of the elastic shape distance between them has been investigated by Kurtek, Jermyn, et al. who have proposed algorithms to carry out this computation. These algorithms accomplish this by minimizing a distance function between the surfaces in terms of rotations and reparametrizations of one of the surfaces, the optimization over reparametrizations using a gradient approach that may produce a local solution. Now minimizing in terms of rotations and a special subset of the set of reparametrizations, we propose an algorithm for minimizing the distance function, the optimization over reparametrizations based on dynamic programming. This approach does not necessarily produce an optimal solution for the registration and distance problem, but perhaps a solution closer to optimal than the local solution that an algorithm with a gradient approach for optimizing over the entire set of reparametrizations may produce. In fact we propose that when computing the elastic shape registration of two simple surfaces and the elastic shape distance between them with an algorithm based on a gradient approach for optimizing over the entire set of reparametrizations, to use as the input initial solution the optimal rotation and reparametrization computed with our proposed algorithm.
title Partial Elastic Shape Registration of 3D Surfaces using Dynamic Programming
topic Differential Geometry
url https://arxiv.org/abs/2409.16462