Interleaving Delaunay refinement and optimization for practical isotropic tetrahedron mesh generation

Creators: Tournois, Jane; Wormser, Camille; Alliez, Pierre; Desbrun, Mathieu

Abstract

We present a practical approach to isotropic tetrahedral meshing of 3D domains bounded by piecewise smooth surfaces. Building upon recent theoretical and practical advances, our algorithm interleaves Delaunay refinement and mesh optimization to generate quality meshes that satisfy a set of user-defined criteria. This interleaving is shown to be more conservative in number of Steiner point insertions than refinement alone, and to produce higher quality meshes than optimization alone. A careful treatment of boundaries and their features is presented, offering a versatile framework for designing smoothly graded tetrahedral meshes.

Additional Information

Copyright © 2009 ACM. The authors thank Mariette Yvinec for her constant support, Tamal Dey for his help with DelPSC, and Patrick Mullen for advice. Partial funding provided by the NSF (CCF-0811373, DMS-0453145, CMMI-0757106), the DOE (DE-FG02-04ER25657), and Pixar Animation Studios.

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Resource type: Journal Article
Publisher: Association for Computing Machinery
Published in: ACM Transactions on Graphics, 28(3), Art. No. 75, ISSN: 0730-0301.
Conference: ACM SIGGRAPH 2009, New Orleans, LA, 4-7 August 2009