3D ball skinning using PDEs for generation of smooth tubular surfaces

Unal, Gozde and Slabaugh, Greg and Whited, Brian and Rossignac, Jarek and Fang, Tong (2009) 3D ball skinning using PDEs for generation of smooth tubular surfaces. (Accepted/In Press)

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Abstract

We present an approach to compute a smooth, interpolating skin of an ordered set of 3D balls. By construction, the skin is constrained to be C1 continuous, and for each ball, it is tangent to the ball along a circle of contact. Using an energy formulation, we derive differential equations that are designed to minimize the skin’s surface area, mean curvature, or convex combination of both. Given an initial skin, we update the skin’s parametric representation using the differential equations until convergence occurs. We demonstrate the method’s usefulness in generating interpolating skins of balls of different sizes and in various configurations.

Item Type:	Article
Subjects:	Q Science > QA Mathematics > QA075 Electronic computers. Computer science
Divisions:	Faculty of Engineering and Natural Sciences
Depositing User:	Gözde Ünal
Date Deposited:	02 Dec 2009 12:53
Last Modified:	22 Jul 2019 15:16
URI:	https://research.sabanciuniv.edu/id/eprint/12997

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3D ball skinning using PDEs for generation of smooth tubular surfaces. (deposited 02 Dec 2009 12:53) [Currently Displayed]
- 3D ball skinning using PDEs for generation of smooth tubular surfaces. (deposited 16 Nov 2010 22:17)

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