Computational Design of Rubber Balloons

 

This paper presents an automatic process for fabrication-oriented design of custom-shaped rubber balloons.

May 13, 2012
Eurographics 2012

 

Authors

Melina Skouras (Disney Research/ETH Joint PhD)

Bernhard Thomaszewski (Disney Research)

Bernd Bickel (Disney Research)

Markus Gross (Disney Research/ETH Zurich)

Computational Design of Rubber Balloons

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Abstract

This paper presents an automatic process for fabrication-oriented design of custom-shaped rubber balloons. We cast computational balloon design as an inverse problem: given a target shape, we compute an optimal balloon that, when inflated, approximates the target as closely as possible. To solve this problem numerically, we propose a novel physics-driven shape optimization method, which combines physical simulation of inflatable elastic membranes with a dedicated constrained optimization algorithm. We validate our approach by fabricating balloons designed with our method and comparing their inflated shapes to the results predicted by simulation. An extensive set of manufactured sample balloons demonstrates the shape diversity that can be achieved by our method.

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