Dressing animated synthetic actors with complex deformable clothes
SIGGRAPH '92 Proceedings of the 19th annual conference on Computer graphics and interactive techniques
I-COLLIDE: an interactive and exact collision detection system for large-scale environments
I3D '95 Proceedings of the 1995 symposium on Interactive 3D graphics
OBBTree: a hierarchical structure for rapid interference detection
SIGGRAPH '96 Proceedings of the 23rd annual conference on Computer graphics and interactive techniques
Large steps in cloth simulation
Proceedings of the 25th annual conference on Computer graphics and interactive techniques
A modeling system based on dynamic constraints
SIGGRAPH '88 Proceedings of the 15th annual conference on Computer graphics and interactive techniques
Constraints methods for flexible models
SIGGRAPH '88 Proceedings of the 15th annual conference on Computer graphics and interactive techniques
Robust treatment of collisions, contact and friction for cloth animation
Proceedings of the 29th annual conference on Computer graphics and interactive techniques
Hardware-assisted self-collision for deformable surfaces
VRST '02 Proceedings of the ACM symposium on Virtual reality software and technology
Incremental Algorithms for Collision Detection Between Polygonal Models
IEEE Transactions on Visualization and Computer Graphics
Efficient Collision Detection Using Bounding Volume Hierarchies of k-DOPs
IEEE Transactions on Visualization and Computer Graphics
Physically Based Models with Rigid and Deformable Components
IEEE Computer Graphics and Applications
An Evolving System for Simulating Clothes on Virtual Actors
IEEE Computer Graphics and Applications
Image-Based Techniques in a Hybrid Collision Detector
IEEE Transactions on Visualization and Computer Graphics
Implementing Fast Cloth Simulation with Collision Response
CGI '00 Proceedings of the International Conference on Computer Graphics
Hi-index | 0.00 |
We propose a positional constraint method to solve the multi-layered deformable surface problem based on a master-slave scheme. This allows two or more deformable surfaces to be attached together in any orientation relative to each other for the purpose of modeling cloth attachments and multi-layered clothing. The method does not require the mesh resolution of the deformable surfaces to be the same or the matching of anchor points between layers. After the attachment process, the surfaces are treated as a multi-layered surface. However, this surface contains non-manifold features. We introduce a technique for preventing self-intersection of the non-manifold features. We demonstrate the stability of this method by performing several experiments with high surface complexity and a large number of colliding feature pairs. Interactive rates can easily be achieved for multilayered surfaces with an appropriate discretization level of triangles.