Title :
CSG operations on point models with implicit connectivity
Author :
Zhang, Nan ; Qu, Huamin ; Kaufman, Arie
Author_Institution :
Minnesota Univ., Minneapolis, MN, USA
Abstract :
We propose point with implicit connectivity (PIC) as a new data structure for representing solid objects using points. In the PIC representation, an object is adaptively sampled into an octree, where each leaf cell contains at most one surface component of the object. Each surface component is represented by a vertex, together with inside/outside classification values of the cell corners. PIC objects are compact, feature-preserving, and supports easy construction of the boundary surfaces. To convert geometric objects into the PIC representation, we propose a sampling algorithm and use quadric error functions as error metrics. For CSG operations between PIC objects, we present a feature-preserving, adaptive CSG algorithm on the octrees. Our experiments show promising results for PIC objects with sharp features and large flat regions.
Keywords :
computational geometry; feature extraction; image classification; image representation; image sampling; octrees; solid modelling; data structure; error metrics; feature-preserving adaptive CSG algorithm; geometric objects; inside-outside classification values; octree; point with implicit connectivity representation; quadric error functions; sampling algorithm; Chromium; Computer errors; Computer graphics; Data structures; Image resolution; Multilevel systems; Sampling methods; Signal resolution; Surface reconstruction; Surface treatment;
Conference_Titel :
Computer Graphics International 2005
Print_ISBN :
0-7803-9330-9
DOI :
10.1109/CGI.2005.1500380
