Geometric modeling
Computer Aided Geometric Design - Special issue: Topics in CAGD
Loop detection in surface patch intersections
Computer Aided Geometric Design
Intersection of arbitrary surfaces
Computer-Aided Design
Computer Aided Geometric Design
A marching method for parametric surface/surface intersection
Computer Aided Geometric Design
Using plane vector fields to obtain all the intersection curves of two general surfaces
Theory and practice of geometric modeling
Procedural method for evaluating the intersection curves of two parametric surfaces
Computer-Aided Design
Surface-to-Surface Intersections
IEEE Computer Graphics and Applications - Special issue on computer-aided geometric design
Marching along surface/surface intersection curves with an adaptive step length
Computer Aided Geometric Design
Fundamentals of computer aided geometric design
Fundamentals of computer aided geometric design
Tracing tangential surface-surface intersections
SMA '95 Proceedings of the third ACM symposium on Solid modeling and applications
A new approach to the surface intersection problem
Computer Aided Geometric Design
Marching along a regular surface/surface intersection with circular steps
Computer Aided Geometric Design
Exploiting topological and geometric properties for selective subdivision
SCG '85 Proceedings of the first annual symposium on Computational geometry
Differential geometry of intersection curves of two surfaces
Computer Aided Geometric Design
Development of automated generation algorithm for skipped surface in die design
ICCSA'06 Proceedings of the 2006 international conference on Computational Science and Its Applications - Volume Part V
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In this paper we present an algorithm with a new trace-terminating condition for tracing along surface-surface intersection curves on surface boundaries, while several tracing methods and embedding methods that include tracing scheme may cause false termination with a traditional trace-terminating condition: tracing stops when the surface-domain's boundary is reached. And we also suggest another iterative method to calculate intersection points on surface boundaries with parallel surface normal. Some numerical examples with these two ideas and comparisons to 'DESIGNBASE','ACIS', and 'Parasolid' are included to demonstrate the effectiveness of our algorithm.