Face flips in origami tessellations

Q4 Mathematics International Journal of Computational Geometry & Applications Pub Date : 2019-10-13 DOI:10.20382/jocg.v11i1a15

H. Akitaya, V. Dujmovic, D. Eppstein, Thomas C. Hull, Kshitij Jain, A. Lubiw

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引用次数: 1

Abstract

Given a flat-foldable origami crease pattern $G=(V,E)$ (a straight-line drawing of a planar graph on a region of the plane) with a mountain-valley (MV) assignment $\mu:E\to\{-1,1\}$ indicating which creases in $E$ bend convexly (mountain) or concavely (valley), we may \emph{flip} a face $F$ of $G$ to create a new MV assignment $\mu_F$ which equals $\mu$ except for all creases $e$ bordering $F$, where we have $\mu_F(e)=-\mu(e)$. In this paper we explore the configuration space of face flips for a variety of crease patterns $G$ that are tilings of the plane, proving examples where $\mu_F$ results in a MV assignment that is either never, sometimes, or always flat-foldable for various choices of $F$. We also consider the problem of finding, given two foldable MV assignments $\mu_1$ and $\mu_2$ of a given crease pattern $G$, a minimal sequence of face flips to turn $\mu_1$ into $\mu_2$. We find polynomial-time algorithms for this in the cases where $G$ is either a square grid or the Miura-ori, and show that this problem is NP-hard in the case where $G$ is the triangle lattice.

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在折纸镶嵌面翻转

给定一个可平折的折纸折痕图$G=(V,E)$(平面区域上的平面图形的直线图)，其中山谷(MV)分配$\mu:E\to\{-1,1\}$表示$E$中的折痕是凸折(山折)还是凹折(谷折)，我们可以将$G$的面$F$\emph{翻个}面，以创建一个新的MV分配$\mu_F$，它等于$\mu$，除了$e$与$F$相邻的所有折痕。我们有$\mu_F(e)=-\mu(e)$。在本文中，我们探索了各种平面平铺的折痕图$G$的面翻转的构型空间，证明了$\mu_F$导致MV分配的例子，对于各种选择的$F$，该MV分配要么永远不能，有时或总是可平折的。我们还考虑了在给定折痕图$G$的两个可折叠MV分配$\mu_1$和$\mu_2$的情况下，寻找将$\mu_1$变成$\mu_2$的最小脸翻转序列的问题。我们在$G$是方形网格或Miura-ori的情况下找到了多项式时间算法，并证明了在$G$是三角形晶格的情况下这个问题是np困难的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Computational Geometry & Applications 数学-计算机：理论方法

CiteScore

0.80

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The International Journal of Computational Geometry & Applications (IJCGA) is a quarterly journal devoted to the field of computational geometry within the framework of design and analysis of algorithms. Emphasis is placed on the computational aspects of geometric problems that arise in various fields of science and engineering including computer-aided geometry design (CAGD), computer graphics, constructive solid geometry (CSG), operations research, pattern recognition, robotics, solid modelling, VLSI routing/layout, and others. Research contributions ranging from theoretical results in algorithm design — sequential or parallel, probabilistic or randomized algorithms — to applications in the above-mentioned areas are welcome. Research findings or experiences in the implementations of geometric algorithms, such as numerical stability, and papers with a geometric flavour related to algorithms or the application areas of computational geometry are also welcome.

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