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Bibliographic Details
Main Authors: Zawallich, Lars, Pajarola, Renato
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.07922
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author Zawallich, Lars
Pajarola, Renato
author_facet Zawallich, Lars
Pajarola, Renato
contents When folding a 3D object from a 2D material like paper, typically only an approximation of the original surface geometry is needed. Such an approximation can effectively be created by a (progressive) mesh simplification approach, e.g. using an edge collapse technique. Moreover, when searching for an unfolding of the object, this approximation is assumed to be fixed. In this work, we take a different route and allow the approximation to change while searching for an unfolding. This way, we increase the chances to overcome possible ununfoldability issues. To join the two concepts of mesh approximation and unfolding, our work combines the edge collapsing mesh simplification technique with a Tabu Unfolder, a robust mesh unfolding approach. We empirically show that this strategy performs faster and that it is more reliable than prior state of the art methods.
format Preprint
id arxiv_https___arxiv_org_abs_2405_07922
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Unfolding via Progressive Mesh Approximation
Zawallich, Lars
Pajarola, Renato
Graphics
When folding a 3D object from a 2D material like paper, typically only an approximation of the original surface geometry is needed. Such an approximation can effectively be created by a (progressive) mesh simplification approach, e.g. using an edge collapse technique. Moreover, when searching for an unfolding of the object, this approximation is assumed to be fixed. In this work, we take a different route and allow the approximation to change while searching for an unfolding. This way, we increase the chances to overcome possible ununfoldability issues. To join the two concepts of mesh approximation and unfolding, our work combines the edge collapsing mesh simplification technique with a Tabu Unfolder, a robust mesh unfolding approach. We empirically show that this strategy performs faster and that it is more reliable than prior state of the art methods.
title Unfolding via Progressive Mesh Approximation
topic Graphics
url https://arxiv.org/abs/2405.07922