3D object metamorphosis with pseudo metameshes

Bogdan Mocanu; Ruxandra Tapu; Titus Zaharia

doi:10.4316/AECE.2015.01016

3D object metamorphosis with pseudo metameshes

Bogdan Mocanu
, Ruxandra Tapu
, Titus Zaharia

University 'Politehnica' of Bucharest
Telecom Sudparis

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper we introduce a novel framework for 3D object metamorphosis, represented by closed triangular meshes. The systems returns a high quality transition sequence, smooth and gradual, that is visual pleasant and consistent to both source and target topologies. The method starts by parameterizing both the source and the target model to a common domain (the unit sphere). Then, the features selected from the two models are aligned by applying the CTPS C² a radial basis functions. We demonstrate how the selected approach can create valid warping by deforming the models embedded into the parametric domain. In the final stage, we propose and validate a novel algorithm to construct a pseudosupermesh able to approximate both, the source and target 3D objects. By using the pseudo-supermesh we developed a morphing transition consistent with respect to both geometry and topology of the 3D models.

Original language	English
Pages (from-to)	115-122
Number of pages	8
Journal	Advances in Electrical and Computer Engineering
Volume	15
Issue number	1
DOIs	https://doi.org/10.4316/AECE.2015.01016
Publication status	Published - 1 Jan 2015

Keywords

3D mesh morphing
Pseudo-supermesh
Radial basis function
Spherical parameterization

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title = "3D object metamorphosis with pseudo metameshes",

abstract = "In this paper we introduce a novel framework for 3D object metamorphosis, represented by closed triangular meshes. The systems returns a high quality transition sequence, smooth and gradual, that is visual pleasant and consistent to both source and target topologies. The method starts by parameterizing both the source and the target model to a common domain (the unit sphere). Then, the features selected from the two models are aligned by applying the CTPS C2 a radial basis functions. We demonstrate how the selected approach can create valid warping by deforming the models embedded into the parametric domain. In the final stage, we propose and validate a novel algorithm to construct a pseudosupermesh able to approximate both, the source and target 3D objects. By using the pseudo-supermesh we developed a morphing transition consistent with respect to both geometry and topology of the 3D models.",

keywords = "3D mesh morphing, Pseudo-supermesh, Radial basis function, Spherical parameterization",

author = "Bogdan Mocanu and Ruxandra Tapu and Titus Zaharia",

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T1 - 3D object metamorphosis with pseudo metameshes

AU - Mocanu, Bogdan

AU - Tapu, Ruxandra

AU - Zaharia, Titus

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N2 - In this paper we introduce a novel framework for 3D object metamorphosis, represented by closed triangular meshes. The systems returns a high quality transition sequence, smooth and gradual, that is visual pleasant and consistent to both source and target topologies. The method starts by parameterizing both the source and the target model to a common domain (the unit sphere). Then, the features selected from the two models are aligned by applying the CTPS C2 a radial basis functions. We demonstrate how the selected approach can create valid warping by deforming the models embedded into the parametric domain. In the final stage, we propose and validate a novel algorithm to construct a pseudosupermesh able to approximate both, the source and target 3D objects. By using the pseudo-supermesh we developed a morphing transition consistent with respect to both geometry and topology of the 3D models.

AB - In this paper we introduce a novel framework for 3D object metamorphosis, represented by closed triangular meshes. The systems returns a high quality transition sequence, smooth and gradual, that is visual pleasant and consistent to both source and target topologies. The method starts by parameterizing both the source and the target model to a common domain (the unit sphere). Then, the features selected from the two models are aligned by applying the CTPS C2 a radial basis functions. We demonstrate how the selected approach can create valid warping by deforming the models embedded into the parametric domain. In the final stage, we propose and validate a novel algorithm to construct a pseudosupermesh able to approximate both, the source and target 3D objects. By using the pseudo-supermesh we developed a morphing transition consistent with respect to both geometry and topology of the 3D models.

KW - 3D mesh morphing

KW - Pseudo-supermesh

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KW - Spherical parameterization

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DO - 10.4316/AECE.2015.01016

M3 - Article

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SP - 115

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JO - Advances in Electrical and Computer Engineering

JF - Advances in Electrical and Computer Engineering

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ER -

3D object metamorphosis with pseudo metameshes

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Keywords

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