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CPHYSICS
2004
2004
Kinetic and dynamic Delaunay tetrahedralizations in three dimensions
We describe algorithms to implement fully dynamic and kinetic three-dimensional unconstrained Delaunay triangulations, where the time evolution of the triangulation is not only governed by moving vertices but also by a changing number of vertices. We use three-dimensional simplex flip algorithms, a stochastic visibility walk algorithm for point location and in addition, we propose a new simple method of deleting vertices from an existing three-dimensional Delaunay triangulation while maintaining the Delaunay property. As an example, we analyse the performance in various cases of practical relevance. The dual Dirichlet tessellation can be used to solve differential equations on an irregular grid, to define partitions in cell tissue simulations, for collision detection etc. 2004 Elsevier B.V. All rights reserved. PACS: 02.40.S; 02.10.R
Real-time TrafficCPHYSICS 2004 | Delaunay Triangulation | Three-dimensional Delaunay Triangulation | Three-dimensional Unconstrained Delaunay |
| Added | 17 Dec 2010 |
| Updated | 17 Dec 2010 |
| Type | Journal |
| Year | 2004 |
| Where | CPHYSICS |
| Authors | Gernot Schaller, Michael Meyer-Hermann |
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