Title :
Discretized Marching Cubes
Author :
Montani, C. ; Scateni, R. ; Scopigno, R.
Author_Institution :
CNR, Pisa, Italy
Abstract :
Since the introduction of standard techniques for isosurface extraction from volumetric datasets, one of the hardest problems has been to reduce the number of triangles (or polygons) generated. The paper presents an algorithm that considerably reduces the number of polygons generated by a Marching Cubes-like scheme (W. Lorensen and H. Cline, 1987) without excessively increasing the overall computational complexity. The algorithm assumes discretization of the dataset space and replaces cell edge interpolation by midpoint selection. Under these assumptions, the extracted surfaces are composed of polygons lying within a finite number of incidences, thus allowing simple merging of the output facets into large coplanar polygons. An experimental evaluation of the proposed approach on datasets related to biomedical imaging and chemical modelling is reported
Keywords :
computational complexity; computational geometry; data structures; data visualisation; feature extraction; interpolation; Marching Cubes-like scheme; biomedical imaging; cell edge interpolation; chemical modelling; computational complexity; dataset space; discretized Marching Cubes; extracted surfaces; isosurface extraction; large coplanar polygons; midpoint selection; output facets; simple merging; standard techniques; triangles; volumetric datasets; Adaptive filters; Application software; Biomedical imaging; Chemicals; Filtering algorithms; Interpolation; Merging; Software algorithms; Surface fitting; Surface reconstruction;
Conference_Titel :
Visualization, 1994., Visualization '94, Proceedings., IEEE Conference on
Conference_Location :
Washington, DC
Print_ISBN :
0-8186-6627-7
DOI :
10.1109/VISUAL.1994.346308
