Exact conversion from Bézier tetrahedra to Bézier hexahedra

Gang Xu; Yaoli Jin; Zhoufang Xiao; Qing Wu; Bernard Mourrain; Timon Rabczuk

doi:10.1016/j.cagd.2018.03.022

Exact conversion from Bézier tetrahedra to Bézier hexahedra

Gang Xu, Yaoli Jin, Zhoufang Xiao, Qing Wu, Bernard Mourrain, Timon Rabczuk

College of Engineering

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

4 Citations (Scopus)

Abstract

Modeling and computing of trivariate parametric volumes is an important research topic in the field of three-dimensional isogeometric analysis. In this paper, we propose two kinds of exact conversion approaches from Bézier tetrahedra to Bézier hexahedra with the same degree by reparametrization technique. In the first method, a Bézier tetrahedron is converted into a degenerate Bézier hexahedron, and in the second approach, a non-degenerate Bézier tetrahedron is converted into four non-degenerate Bézier hexahedra. For the proposed methods, explicit formulas are given to compute the control points of the resulting tensor–product Bézier hexahedra. Furthermore, in the second method, we prove that tetrahedral spline solids with C^k-continuity can be converted into a set of tensor–product Bézier volumes with G^k-continuity. The proposed methods can be used for the volumetric data exchange problems between different trivariate spline representations in CAD/CAE. Several experimental results are presented to show the effectiveness of the proposed methods.

Original language	English
Pages (from-to)	154-165
Number of pages	12
Journal	Computer Aided Geometric Design
Volume	62
DOIs	https://doi.org/10.1016/j.cagd.2018.03.022
Publication status	Published - 2018 May

Keywords

Bézier hexahedra
Bézier tetrahedra
Isogeometric analysis
Reparameterization
Volumetric modeling

ASJC Scopus subject areas

Modelling and Simulation
Automotive Engineering
Aerospace Engineering
Computer Graphics and Computer-Aided Design

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10.1016/j.cagd.2018.03.022

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title = "Exact conversion from B{\'e}zier tetrahedra to B{\'e}zier hexahedra",

abstract = "Modeling and computing of trivariate parametric volumes is an important research topic in the field of three-dimensional isogeometric analysis. In this paper, we propose two kinds of exact conversion approaches from B{\'e}zier tetrahedra to B{\'e}zier hexahedra with the same degree by reparametrization technique. In the first method, a B{\'e}zier tetrahedron is converted into a degenerate B{\'e}zier hexahedron, and in the second approach, a non-degenerate B{\'e}zier tetrahedron is converted into four non-degenerate B{\'e}zier hexahedra. For the proposed methods, explicit formulas are given to compute the control points of the resulting tensor–product B{\'e}zier hexahedra. Furthermore, in the second method, we prove that tetrahedral spline solids with Ck-continuity can be converted into a set of tensor–product B{\'e}zier volumes with Gk-continuity. The proposed methods can be used for the volumetric data exchange problems between different trivariate spline representations in CAD/CAE. Several experimental results are presented to show the effectiveness of the proposed methods.",

keywords = "B{\'e}zier hexahedra, B{\'e}zier tetrahedra, Isogeometric analysis, Reparameterization, Volumetric modeling",

author = "Gang Xu and Yaoli Jin and Zhoufang Xiao and Qing Wu and Bernard Mourrain and Timon Rabczuk",

note = "Funding Information: This research was supported by the National Natural Science Foundation of China under Grant Nos. 61772163 , 61761136010 , 61472111 , Zhejiang Provincial Natural Science Foundation of China under Grant Nos. LQ16F020005 , LR16F020003 , and the Graduate Scientific Research Foundation of Hangzhou Dianzi University . Publisher Copyright: {\textcopyright} 2018 Elsevier B.V.",

year = "2018",

month = may,

doi = "10.1016/j.cagd.2018.03.022",

language = "English",

volume = "62",

pages = "154--165",

journal = "Computer Aided Geometric Design",

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AU - Xu, Gang

AU - Jin, Yaoli

AU - Xiao, Zhoufang

AU - Wu, Qing

AU - Mourrain, Bernard

AU - Rabczuk, Timon

N1 - Funding Information: This research was supported by the National Natural Science Foundation of China under Grant Nos. 61772163 , 61761136010 , 61472111 , Zhejiang Provincial Natural Science Foundation of China under Grant Nos. LQ16F020005 , LR16F020003 , and the Graduate Scientific Research Foundation of Hangzhou Dianzi University . Publisher Copyright: © 2018 Elsevier B.V.

PY - 2018/5

Y1 - 2018/5

N2 - Modeling and computing of trivariate parametric volumes is an important research topic in the field of three-dimensional isogeometric analysis. In this paper, we propose two kinds of exact conversion approaches from Bézier tetrahedra to Bézier hexahedra with the same degree by reparametrization technique. In the first method, a Bézier tetrahedron is converted into a degenerate Bézier hexahedron, and in the second approach, a non-degenerate Bézier tetrahedron is converted into four non-degenerate Bézier hexahedra. For the proposed methods, explicit formulas are given to compute the control points of the resulting tensor–product Bézier hexahedra. Furthermore, in the second method, we prove that tetrahedral spline solids with Ck-continuity can be converted into a set of tensor–product Bézier volumes with Gk-continuity. The proposed methods can be used for the volumetric data exchange problems between different trivariate spline representations in CAD/CAE. Several experimental results are presented to show the effectiveness of the proposed methods.

AB - Modeling and computing of trivariate parametric volumes is an important research topic in the field of three-dimensional isogeometric analysis. In this paper, we propose two kinds of exact conversion approaches from Bézier tetrahedra to Bézier hexahedra with the same degree by reparametrization technique. In the first method, a Bézier tetrahedron is converted into a degenerate Bézier hexahedron, and in the second approach, a non-degenerate Bézier tetrahedron is converted into four non-degenerate Bézier hexahedra. For the proposed methods, explicit formulas are given to compute the control points of the resulting tensor–product Bézier hexahedra. Furthermore, in the second method, we prove that tetrahedral spline solids with Ck-continuity can be converted into a set of tensor–product Bézier volumes with Gk-continuity. The proposed methods can be used for the volumetric data exchange problems between different trivariate spline representations in CAD/CAE. Several experimental results are presented to show the effectiveness of the proposed methods.

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KW - Bézier tetrahedra

KW - Isogeometric analysis

KW - Reparameterization

KW - Volumetric modeling

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Exact conversion from Bézier tetrahedra to Bézier hexahedra

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Keywords

ASJC Scopus subject areas

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