Spherical blend skinning: a real-time deformation of articulated models
Proceedings of the 2005 symposium on Interactive 3D graphics and games
H-animator: a visual tool for modeling, reuse and sharing of X3D humanoid animations
Proceedings of the eleventh international conference on 3D web technology
Real-time animation of ancient Roman sites
Proceedings of the 4th international conference on Computer graphics and interactive techniques in Australasia and Southeast Asia
Animation space: A truly linear framework for character animation
ACM Transactions on Graphics (TOG)
A comparison of linear skinning techniques for character animation
AFRIGRAPH '07 Proceedings of the 5th international conference on Computer graphics, virtual reality, visualisation and interaction in Africa
Implicit skinning: real-time skin deformation with contact modeling
ACM Transactions on Graphics (TOG) - SIGGRAPH 2013 Conference Proceedings
Geometric algebra rotors for skinned character animation blending
SIGGRAPH Asia 2013 Technical Briefs
Hi-index | 0.00 |
Although graphical human modeling has been a long sought subject in computer graphics, when it comes to dealing with real-time applications, it raises a number of unique requirements for both CG artists and researchers.For example, for a real-time performance it is highly desirable to lighten the geometry and optimize the runtime animation of characters wherever possible.An important need in such systems is to assist the CG artists in seamlessly transforming their modeling work from CG packages to the real-time application, without limiting their expressively. In this paper we describe techniques by which dressed human characters are modeled, loaded into VR scenes, and simulated in real-time.In doing so, we point out challenging issues and solutions that such tasks imply at each phase of modeling and simulation. In particular, we turn our attention to what we consider as key technical components: body and clothes.Case studies show that our modelers successfully meet the need of real-time requirements over a wide variety of scenarios.