Computing 3D Periodic Triangulations

Manuel Caroli 1 Monique Teillaud 1
1 GEOMETRICA - Geometric computing
CRISAM - Inria Sophia Antipolis - Méditerranée , Inria Saclay - Ile de France
Abstract : This work is motivated by the need for software computing 3D periodic triangulations in numerous domains including astronomy, material engineering, biomedical computing, fluid dynamics etc. We design an algorithmic test to check whether a partition of the 3D flat torus into tetrahedra forms a triangulation (which subsumes that it is a simplicial complex). We propose an incremental algorithm that computes the Delaunay triangulation of a set of points in the 3D flat torus without duplicating any point, whenever possible; our algorithmic test detects when such a duplication can be avoided, which is usually possible in practical situations. Even in cases where point duplication is necessary, our algorithm always computes a triangulation that is homeomorpic to the flat torus. To the best of our knowledge, this is the first algorithm of this kind whose output is provably correct. Proved algorithms found in the literature are in fact always computing with 27 copies of the input points in R3 , and yield a triangulation that does not have the topology of a torus. Our implementation of the algorithm has been reviewed and accepted by the Cgal Editorial Board. A video of the work was presented at SoCG'08.
Type de document :
[Research Report] RR-6823, INRIA. 2009
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Soumis le : vendredi 12 juin 2009 - 18:10:18
Dernière modification le : lundi 28 mai 2018 - 15:38:03
Document(s) archivé(s) le : samedi 26 novembre 2016 - 10:01:41


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  • HAL Id : inria-00356871, version 4



Manuel Caroli, Monique Teillaud. Computing 3D Periodic Triangulations. [Research Report] RR-6823, INRIA. 2009. 〈inria-00356871v4〉



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