Mesh Denoising of Developable Surfaces with Curved Foldings

This paper presents a novel mesh denoising approach designed specifically for developable models with curved folds, going beyond traditional denoising metrics to focus on restoring the model’s developability. We introduce a metric based on normal variation to assess mesh developability and integrate...

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Vydané v:	Computer aided design Ročník 177; s. 103776
Hlavní autori:	Pan, Jiale, Bo, Pengbo, Li, Yifeng, Wang, Zhongquan
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Elsevier Ltd 01.12.2024
Predmet:	Curved folding Developable surface Geometric modeling Geometric optimization Mesh denoising Mesh denoising Curved folding Developable surface Geometric optimization Geometric modeling
ISSN:	0010-4485
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Abstract	This paper presents a novel mesh denoising approach designed specifically for developable models with curved folds, going beyond traditional denoising metrics to focus on restoring the model’s developability. We introduce a metric based on normal variation to assess mesh developability and integrate it into an optimization problem that aims to increase the sparsity of the normal vector field, leading to a dedicated mesh denoising algorithm. The performance of our method is evaluated across a wide range of criteria, including standard metrics and surface developability determined through Gaussian curvature. Through testing on a variety of noisy models and comparison with several state-of-the-art mesh denoising and developability optimization techniques, our approach demonstrates superior performance in both traditional metrics and the enhancement of mesh developability. •We propose a metric using normal vector variation for surface developability.•We present a method to denoise a mesh while preserving developability and folds.•Our method surpasses existing ones in traditional metrics and developability.
AbstractList	This paper presents a novel mesh denoising approach designed specifically for developable models with curved folds, going beyond traditional denoising metrics to focus on restoring the model’s developability. We introduce a metric based on normal variation to assess mesh developability and integrate it into an optimization problem that aims to increase the sparsity of the normal vector field, leading to a dedicated mesh denoising algorithm. The performance of our method is evaluated across a wide range of criteria, including standard metrics and surface developability determined through Gaussian curvature. Through testing on a variety of noisy models and comparison with several state-of-the-art mesh denoising and developability optimization techniques, our approach demonstrates superior performance in both traditional metrics and the enhancement of mesh developability. •We propose a metric using normal vector variation for surface developability.•We present a method to denoise a mesh while preserving developability and folds.•Our method surpasses existing ones in traditional metrics and developability.
ArticleNumber	103776
Author	Bo, Pengbo Li, Yifeng Pan, Jiale Wang, Zhongquan
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Keywords	Mesh denoising Curved folding Developable surface Geometric optimization Geometric modeling
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Snippet	This paper presents a novel mesh denoising approach designed specifically for developable models with curved folds, going beyond traditional denoising metrics...
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SubjectTerms	Curved folding Developable surface Geometric modeling Geometric optimization Mesh denoising
Title	Mesh Denoising of Developable Surfaces with Curved Foldings
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