Computing Origami Universal Molecules with Cyclic Tournament Forests

2013 15th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing Pub Date : 2013-09-23 DOI:10.1109/SYNASC.2013.13
J. Bowers, I. Streinu
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引用次数: 4

Abstract

Lang's "universal molecule" algorithm solves a variant of the origami design problem. It takes as input a metric tree and a convex polygonal region (the "paper") having a certain metric relationship with the tree. It computes a crease- pattern which allows for the paper to "fold" to a uniaxial base, which is a 3-dimensional shape projecting onto the given tree. Lang's universal molecule algorithm runs in cubic time and quadratic space. We investigate two implementations which improve the running time to sub-cubic time. The first uses a cyclic tournament forest, a new data structure which extends kinetic tournament trees to allow for cycle splitting operations, and the second uses a priority queue to store events.
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用循环锦标赛森林计算折纸通用分子
朗的 "通用分子 "算法解决了折纸设计问题的一个变种。它的输入是一棵度量树和一个与树有一定度量关系的凸多边形区域("纸")。它计算出一种折痕模式,使纸张 "折叠 "成单轴基,即投影到给定树上的三维形状。兰的通用分子算法以三次方时间和二次方空间运行。我们研究了两种实现方法,它们将运行时间提高到了亚立方时间。第一种使用循环锦标赛森林,这是一种新的数据结构,它扩展了动力学锦标赛树,允许进行循环拆分操作;第二种使用优先队列来存储事件。
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2013 15th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing
2013 15th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing
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