Computational Design and Automated Fabrication of Kirchhoff-Plateau Surfaces

 

We propose a computational tool for designing Kirchhoff-Plateau Surfaces-planar rod networks embedded in pre-stretched fabric that deploy into complex, three-dimensional shapes.

July 20, 2017
ACM SIGGRAPH 2017

 

Authors

Jesús Rodríguez (URJC Madrid)

Miguel Otaduy (URJC Madrid)

Bernhard Thomaszewski (Disney Research)

Computational Design and Automated Fabrication of Kirchhoff-Plateau Surfaces

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Abstract

We propose a computational tool for designing Kirchhoff-Plateau Surfaces: planar rod networks embedded in pre-tensioned fabric that deploy into complex, three-dimensional shapes. While Kirchhoff-Plateau Surfaces offer an intriguing and expressive design space, navigating this space is made difficult by the highly nonlinear nature of the underlying mechanical problem. In order to tackle this challenge, we propose a user-guided but computer-assisted approach that combines an efficient forward simulation model with a dedicated optimization algorithm in order to implement a powerful set of design tools. We demonstrate our method by designing a diverse set of complex-shaped KPSs, each validated by physically-fabricated prototypes.

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