Title :
Dual marching cubes: primal contouring of dual grids
Author :
Schaefer, Scott ; Warren, Joe
Author_Institution :
Rice Univ., Houston, TX, USA
Abstract :
We present a method for contouring an implicit function using a grid topologically dual to structured grids such as octrees. By aligning the vertices of the dual grid with the features of the implicit function, we are able to reproduce thin features of the extracted surface without excessive subdivision required by methods such as marching cubes or dual contouring. Dual marching cubes produces a crack-free, adaptive polygonalization of the surface that reproduces sharp features. Our approach maintains the advantage of using structured grids for operations such as CSG while being able to conform to the relevant features of the implicit function yielding much sparser polygonalizations than has been possible using structured grids.
Keywords :
computational geometry; feature extraction; octrees; solid modelling; crack-free adaptive polygonalization; dual contouring; dual grids; dual marching cube; excessive subdivision; feature extraction; implicit function contouring; octree; primal contouring; structured grids; surface extraction; surface polygonalization; Chromium; Data mining; Feature extraction; Geometry; Level set; Magnetic resonance imaging; Sampling methods; Surface cracks; Topology; X-ray tomography;
Conference_Titel :
Computer Graphics and Applications, 2004. PG 2004. Proceedings. 12th Pacific Conference on
Print_ISBN :
0-7695-2234-3
DOI :
10.1109/PCCGA.2004.1348336
