Folding Polyominoes into (Poly)Cubes
Abstract
We study the problem of folding a polyomino into a polycube , allowing faces of to be covered multiple times. First, we define a variety of folding models according to whether the folds (a) must be along grid lines of or can divide squares in half (diagonally and/or orthogonally), (b) must be mountain or can be both mountain and valley, (c) can remain flat (forming an angle of ), and (d) must lie on just the polycube surface or can have interior faces as well. Second, we give all the inclusion relations among all models that fold on the grid lines of . Third, we characterize all polyominoes that can fold into a unit cube, in some models. Fourth, we give a linear-time dynamic programming algorithm to fold a tree-shaped polyomino into a constant-size polycube, in some models. Finally, we consider the triangular version of the problem, characterizing which polyiamonds fold into a regular tetrahedron.
Keywords
Cite
@article{arxiv.1712.09317,
title = {Folding Polyominoes into (Poly)Cubes},
author = {Oswin Aichholzer and Michael Biro and Erik D. Demaine and Martin L. Demaine and David Eppstein and Sándor P. Fekete and Adam Hesterberg and Irina Kostitsyna and Christiane Schmidt},
journal= {arXiv preprint arXiv:1712.09317},
year = {2018}
}
Comments
30 pages, 19 figures, full version of extended abstract that appeared in CCCG 2015. (Change over previous version: Fixed a missing reference.)