Title :
Automatically Approximating 3D Points with Co-Axisal Objects
Author :
Tempero, Russell ; Bereg, Sergey ; Meng, Xiangxu ; Tu, Changhe ; Yang, Chenglei ; Zhu, Binhai
Author_Institution :
Dept. of Comput. Sci., Montana State Univ., Bozeman, MT
fDate :
June 30 2008-July 3 2008
Abstract :
In this paper, we investigate the problem of approximating a set S of 3D points with co-axisal objects typically from CAD/CAM (namely, cylindrical segments, cones and conical frustums). The objective is to minimize the sum of volumes of these objects (as well as the number of objects used). The general problem when the objects can have arbitrary axes is strongly NP-hard as a cylindrical segment, a cone and a conical frustum can all degenerate into a line segment. We present a general algorithm which combines a neat doubling search method to decompose S into desired subsets (or components). For each subset S, we present a unified practical approximation algorithm for minimizing the volume of the cone (conical frustum, or cylindrical segment) which encloses points in S. Preliminary empirical results indicate that the algorithm is in fact very accurate.
Keywords :
CAD/CAM; approximation theory; computational geometry; search problems; 3D points; CAD/CAM; NP-hard; approximation algorithm; co-axisal objects; conical frustum; cylindrical segment; doubling search method; Approximation algorithms; CADCAM; Computer aided manufacturing; Computer science; Fitting; Humans; Neurons; Search methods; Solid modeling; USA Councils; Approximation algorithms; Geometric modeling; Smallest enclosing cone; Smallest enclosing conical frustum; Smallest enclosing cylindrical segment;
Conference_Titel :
Computational Sciences and Its Applications, 2008. ICCSA '08. International Conference on
Conference_Location :
Perugia
Print_ISBN :
978-0-7695-3243-1
DOI :
10.1109/ICCSA.2008.12
