1. CIM algorithm for approximating three-dimensional polygonal curves
- Author
-
Sun Jiaguang, Yong Jun-hai, and Hu Shimin
- Subjects
Computer science ,Approximation algorithm ,Computer Science Applications ,Theoretical Computer Science ,Constraint (information theory) ,Computer graphics ,Line segment ,Computational Theory and Mathematics ,Intersection ,Hardware and Architecture ,Polygonal chain ,Theory of computation ,Polygon ,Algorithm ,Time complexity ,Software - Abstract
The polygonal approximation problem is a primary problem in computer graphics, pattern recognition, CAD/CAM, etc. InR 2, the cone intersection method (CIM) is one of the most efficient algorithms for approximating polygonal curves. With CIM Eu and Toussaint, by imposing an additional constraint and changing the given error criteria, resolve the three-dimensional weighted minimum number polygonal approximation problem with the parallel-strip error criterion (PS-WMN) underL 2 norm. In this paper, without any additional constraint and change of the error criteria, a CIM solution to the same problem with the line segment error criterion (LS-WMN) is presented, which is more frequently encountered than the PS-WMN is. Its time complexity isO(n 3), and the space complexity isO(n 2). An approximation algorithm is also presented, which takesO(n 2) time andO(n) space. Results of some examples are given to illustrate the efficiency of these algorithms.
- Published
- 2001