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Automatic paper sliceform design from 3D solid models.

Tuong-Vu Le-Nguyen1, Kok-Lim Low, Conrado Ruiz

  • 1National University of Singapore, Singapore.

IEEE Transactions on Visualization and Computer Graphics
|September 14, 2013
PubMed
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This study introduces an automatic algorithm for designing paper sliceforms, a type of foldable papercraft. The method ensures stable, flat-foldable, and physically realizable designs from 3D models.

Area of Science:

  • Computational geometry
  • Computer graphics
  • Papercraft design

Background:

  • Paper sliceforms (lattice-style pop-ups) are foldable structures made from slotted paper patches.
  • Automatic design of these structures is computationally challenging and lacks robust methods.

Purpose of the Study:

  • To develop novel geometric formulations for valid paper sliceform designs.
  • To present an automatic algorithm for generating sliceform designs from 3D models.

Main Methods:

  • Geometric formulations considering stability, flat-foldability, and physical realizability.
  • Approximating 3D models with generalized cylinders to reduce search space.
  • Algorithm generates interlocking-free slots for physical assembly.

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Main Results:

  • A set of sufficient conditions for valid sliceform construction.
  • An automatic algorithm generating valid sliceform designs from 3D models.
  • Demonstrated successful creation of real paper sliceforms from generated designs.

Conclusions:

  • The proposed method enables automatic generation of stable, flat-foldable, and physically realizable paper sliceforms.
  • The approach simplifies the design process for complex papercraft structures.
  • The algorithm ensures local pairwise assembility, leading to global assembly.