Skeleton Based As-Rigid-As-Possible Volume Modeling
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Date
2010
Journal Title
Journal ISSN
Volume Title
Publisher
The Eurographics Association
Abstract
Shape deformation and editing are important for animation and game design. Based on as-rigid-as-possible (ARAP) surface modeling, an efficient approach is proposed to approximately preserve the volume of an object with large-scale deformations. The classical ARAP surface modeling uses two-stage iterations to recover rotations and preserve edge lengths. However, there is no volume preserving constraint, which may cause undesired artifacts. We show that the volume can be roughly kept by leveraging the skeleton information. First a skeleton is selected, and points are evenly generated on the skeleton. Then each point is correlated with several vertices on the surface of the object. The connectivity between the skeleton and the surface is defined as skeleton edges, which can be easily added into the linear system of the ARAP method as additional rows without breaking the manifoldness or sacrificing speed. Since this linear system is able to preserve the lengths of both the surface and skeleton edges, the area of cross sections and the volume between cross sections can be approximately preserved. In our experiments, we show that the rotations are natural and volumes are roughly kept. The system achieves real time performance for surface meshes with 5k vertices.
Description
@inproceedings{10.2312:egsh.20101038,
booktitle = {Eurographics 2010 - Short Papers},
editor = {H. P. A. Lensch and S. Seipel},
title = {{Skeleton Based As-Rigid-As-Possible Volume Modeling}},
author = {Zhang, Shaoting and Nealen, Andrew and Metaxas, Dimitris},
year = {2010},
publisher = {The Eurographics Association},
ISBN = {},
DOI = {10.2312/egsh.20101038}
}