Skinning arbitrary deformations
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Kavan, L. and McDonnell, R. and Dobbyn, S. and Zara, J. and O'Sullivan, C. 'Skinning arbitrary deformations' in Symposium on Interactive 3D Graphics and Games (I3D'07), Seattle WA, April 30 - May 2, ACM Press, 2007, pp. 53 - 60.
Abstract
Matrix palette skinning (also known as skeletal subspace deformation)
is a very popular real-time animation technique. So far, it has
only been applied to the class of quasi-articulated objects, such as
moving human or animal figures. In this paper, we demonstrate how
to automatically construct skinning approximations of arbitrary precomputed
animations, such as those of cloth or elastic materials.
In contrast to previous approaches, our method is particularly well
suited to input animations without rigid components. Our transformation
fitting algorithm finds optimal skinning transformations (in
a least-squares sense) and therefore achieves considerably higher
accuracy for non-quasi-articulated objects than previous methods.
This allows the advantages of skinned animations (e.g., efficient
rendering, rest-pose editing and fast collision detection) to be exploited
for arbitrary deformations.
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Sponsor: Higher Education Authority
Author's Homepage: http://people.tcd.ie/osullica
Publisher: ACM Press

