crdbrd: Shape Fabrication by Sliding Planar Slices

We introduce an algorithm and representation for fabricating 3D shape ions using mutually intersecting planar cut‐outs. The planes have prefabricated slits at their intersections and are assembled by sliding them together. Often such ions are used as a sculptural art form or in architecture and are...

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Bibliographic Details
Published in:Computer graphics forum 2012-05, Vol.31 (2pt3), p.583-592
Main Authors: Hildebrand, Kristian, Bickel, Bernd, Alexa, Marc
Format: Article
Language:English
Subjects:
3-D graphics
Algorithms
Computer graphics
Computer science
Studies
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Summary:We introduce an algorithm and representation for fabricating 3D shape ions using mutually intersecting planar cut‐outs. The planes have prefabricated slits at their intersections and are assembled by sliding them together. Often such ions are used as a sculptural art form or in architecture and are colloquially called ‘cardboard sculptures’. Based on an analysis of construction rules, we propose an extended binary space partitioning tree as an efficient representation of such cardboard models which allows us to quickly evaluate the feasibility of newly added planar elements. The complexity of insertion order quickly increases with the number of planar elements and manual analysis becomes intractable. We provide tools for generating cardboard sculptures with guaranteed constructibility. In combination with a simple optimization and sampling strategy for new elements, planar shape ion models can be designed by iteratively adding elements. As an output, we obtain a fabrication plan that can be printed or sent to a laser cutter. We demonstrate the complete process by designing and fabricating cardboard models of various well‐known 3D shapes.
ISSN:0167-7055
1467-8659
DOI:10.1111/j.1467-8659.2012.03037.x