A solid modelling system free from topological inconsistency
Journal of Information Processing
Towards exact geometric computation
Computational Geometry: Theory and Applications - Special issue: computational geometry, theory and applications
LEDA: a platform for combinatorial and geometric computing
LEDA: a platform for combinatorial and geometric computing
Sliver-free perturbation for the Delaunay tetrahedrization
Computer-Aided Design
| Hi-index | 0.00 |
To make geometric computation robust against numerical errors is one of the most important issues for practical applications of geometric algorithms. We first review existing approaches to robust geometric computation, and next show that there still remain many difficulties. Finally we discuss possible directions to overcome these difficulties and thus to achieve superrobustness.