DocumentCode
3063160
Title
Delaunay Meshing of Isosurfaces
Author
Dey, Tamal K. ; Levine, Joshua A.
Author_Institution
Ohio State Univ., Columbus
fYear
2007
fDate
13-15 June 2007
Firstpage
241
Lastpage
250
Abstract
We present an isosurface meshing algorithm, DelIso, based on the Delaunay refinement paradigm. This paradigm has been successfully applied to mesh a variety of domains with guarantees for topology, geometry, mesh gradedness, and triangle shape. A restricted Delaunay tri- angulation, dual of the intersection between the surface and the three dimensional Voronoi diagram, is often the main ingredient in Delaunay refinement. Computing and storing three dimensional Voronoi/Delaunay diagrams become bottlenecks for Delaunay refinement techniques since isosurface computations generally have large input datasets and output meshes. A highlight of our algorithm is that we find a simple way to recover the restricted Delaunay triangulation of the surface without computing the full 3D structure. We employ techniques for efficient ray tracing of isosurfaces to generate surface sample points, and demonstrate the effectiveness of our implementation using a variety of volume datasets.
Keywords
computational geometry; mesh generation; ray tracing; surface fitting; topology; 3D Voronoi diagram; DELISO isosurface meshing algorithm; Delaunay meshing; Delaunay refinement paradigm; Delaunay triangulation; mesh gradedness; ray tracing; topology; triangle shape; Computer science; Costs; Geometry; Isosurfaces; Lightweight structures; Ray tracing; Refining; Shape; Termination of employment; Topology;
fLanguage
English
Publisher
ieee
Conference_Titel
Shape Modeling and Applications, 2007. SMI '07. IEEE International Conference on
Conference_Location
Lyon
Print_ISBN
0-7695-2815-5
Type
conf
DOI
10.1109/SMI.2007.15
Filename
4273388
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