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A Bending Model for Nodal Discretizations of Yarn-Level Cloth
Identificadores del recurso
J.M. Pizana, A. Rodr?guez, G. Cirio & M.A. Otaduy / A Bending Model for Nodal Discretizations of Yarn-Level Cloth Volume 39 (2020), Number 8
1467-8659
http://hdl.handle.net/10115/17668
10.1111/cgf.14112
Origin
(BURJC-Digital: Repositorio Institucional de la Universidad Rey Juan Carlos)

File

Title:
A Bending Model for Nodal Discretizations of Yarn-Level Cloth
Tema:
Inform?tica
Computing methodologies
Physical simulation
ingenier
3325 Tecnolog?a de las Telecomunicaciones
Description:
TouchDesign (M1792)
To deploy yarn-level cloth simulations in production environments, it is paramount to design very efficient implementations, which mitigate the cost of the extremely high resolution. To this end, nodal discretizations aligned with the regularity of the fabric structure provide an optimal setting for efficient GPU implementations. However, nodal discretizations complicate the design of robust and controllable bending. In this paper, we address this challenge, and propose a model of bending that is both robust and controllable, and employs only nodal degrees of freedom. We extract information of yarn and fabric orientation implicitly from the nodal degrees of freedom, with no need to augment the model explicitly. But most importantly, and unlike previous formulations that use implicit orientations, the computation of bending forces bears no overhead with respect to other nodal forces such as stretch. This is possible by tracking optimal orientations efficiently. We demonstrate the impact of our bending model in examples with controllable anisotropy, as well as ironing, wrinkling, and plasticity.
Idioma:
English
Relation:
TouchDesign (M1792)
Autor/Productor:
Pizana, Jos? M.
Rodr?guez, Alejandro
Cirio, Gabriel
Otaduy, Miguel A.
Publisher:
Wiley
Rights:
Attribution-NonCommercial-NoDerivatives 4.0 Internacional
http://creativecommons.org/licenses/by-nc-nd/4.0/
info:eu-repo/semantics/openAccess
Date:
2021-04-19T10:45:57Z
2020
Tipo de recurso:
info:eu-repo/semantics/article

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Se ha omitido la presentación del registro por ser demasiado largo. Si lo desea, puede descargárselo en el enlace anterior.

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    7. <dcterms:abstract>To deploy yarn-level cloth simulations in production environments, it is paramount to design very efficient implementations, which mitigate the cost of the extremely high resolution. To this end, nodal discretizations aligned with the regularity of the fabric structure provide an optimal setting for efficient GPU implementations. However, nodal discretizations complicate the design of robust and controllable bending. In this paper, we address this challenge, and propose a model of bending that is both robust and controllable, and employs only nodal degrees of freedom. We extract information of yarn and fabric orientation implicitly from the nodal degrees of freedom, with no need to augment the model explicitly. But most importantly, and unlike previous formulations that use implicit orientations, the computation of bending forces bears no overhead with respect to other nodal forces such as stretch. This is possible by tracking optimal orientations efficiently. We demonstrate the impact of our bending model in examples with controllable anisotropy, as well as ironing, wrinkling, and plasticity.</dcterms:abstract>

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