Title :
Topology, Accuracy, and Quality of Isosurface Meshes Using Dynamic Particles
Author :
Meyer, M. ; Kirby, R.M. ; Whitaker, R.
Author_Institution :
Univ. of Utah, Salt Lake City
Abstract :
This paper describes a method for constructing isosurface triangulations of sampled, volumetric, three-dimensional scalar fields. The resulting meshes consist of triangles that are of consistently high quality, making them well suited for accurate interpolation of scalar and vector-valued quantities, as required for numerous applications in visualization and numerical simulation. The proposed method does not rely on a local construction or adjustment of triangles as is done, for instance, in advancing wavefront or adaptive refinement methods. Instead, a system of dynamic particles optimally samples an implicit function such that the particles´ relative positions can produce a topologically correct Delaunay triangulation. Thus, the proposed method relies on a global placement of triangle vertices. The main contributions of the paper are the integration of dynamic particles systems with surface sampling theory and PDE-based methods for controlling the local variability of particle densities, as well as detailing a practical method that accommodates Delaunay sampling requirements to generate sparse sets of points for the production of high-quality tessellations.
Keywords :
mesh generation; partial differential equations; Delaunay triangulation; dynamic particle; isosurface triangulation; partial differential equation; surface sampling theory; Biomedical measurements; Data visualization; Geometry; Image reconstruction; Interpolation; Isosurfaces; Numerical simulation; Sampling methods; Solid modeling; Topology; Delaunay triangulation.; Isosurface extraction; particle systems;
Journal_Title :
Visualization and Computer Graphics, IEEE Transactions on
DOI :
10.1109/TVCG.2007.70604
