EXOSKELETON: Curve network abstraction for 3D shapes

Creators: de Goes, Fernando; Goldenstein, Siome; Desbrun, Mathieu; Velho, Luiz

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Abstract

In this paper, we introduce the concept of an exoskeleton as a new abstraction of arbitrary shapes that succinctly conveys both the perceptual and the geometric structure of a 3D model. We extract exoskeletons via a principled framework that combines segmentation and shape approximation. Our method starts from a segmentation of the shape into perceptually relevant parts and then constructs the exoskeleton using a novel extension of the Variational Shape Approximation method. Benefits of the exoskeleton abstraction to graphics applications such as simplification and chartification are presented.

Additional Information

© 2010 Elsevier Ltd. Received 16 August 2010. Received in revised form 13 November 2010. Accepted 18 November 2010. Available online 25 November 2010. We would like to thank Alan H. Barr and Lance Williams for their helpful comments, and Patrick Mullen for proof-reading the paper. Meshes are courtesy of the AIM@Shape Project, Autodesk, and the Princeton Benchmark. This research was partially funded by NSF grants (CCF-0811373, CMMI-0757106, and CCF-1011944), CNPq (Proc. 309254/2007-8, 200717/2010-3), and FAPESP (Proc. 2007/52015-0, 2009/18438-7).

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Resource type: Journal Article
Publisher: Elsevier
Published in: Computers and Graphics, 35(1), 112-121, ISSN: 0097-8493.