最小凸分区和最大空多边形

IF 0.4 Q4 MATHEMATICS Journal of Computational Geometry Pub Date : 2011-12-05 DOI:10.20382/jocg.v5i1a5

A. Dumitrescu, Sariel Har-Peled, Csaba D. Tóth

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引用次数: 7

摘要

设S是R d中n个点的集合。Steiner凸分割是由具有空凸体的conv(S)进行的平铺。对于每一个整数d，我们证明S允许一个最多有≤≤(n -1)/ d²块的Steiner凸分割。该界是平面上一般位置点的最佳可能界，并且是除固定维度d≥3的常数因子外的最佳可能界。给出了计算平面点集在一般位置上的最小Steiner凸划分的第一个常因子近似算法。在单位立方体中任意n个点的Steiner凸划分中，建立瓦片最大体积的紧下界等价于Danzer和Rogers的一个著名问题。推测最大瓦片的体积为ω(1/ n)。在这里，我们给出了一个(1-\epsilon)-近似算法，用于计算d维单位盒[0,1]d中n个给定点中的空凸体的最大体积。

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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Minimum Convex Partitions and Maximum Empty Polytopes

Let S be a set of n points in R d . A Steiner convex partition is a tiling of conv( S ) with empty convex bodies. For every integer d , we show that S admits a Steiner convex partition with at most ⌈( n -1)/ d ⌉ tiles. This bound is the best possible for points in general position in the plane, and it is the best possible apart from constant factors in every fixed dimension d ≥3. We also give the first constant-factor approximation algorithm for computing a minimum Steiner convex partition of a planar point set in general position. Establishing a tight lower bound for the maximum volume of a tile in a Steiner convex partition of any n points in the unit cube is equivalent to a famous problem of Danzer and Rogers. It is conjectured that the volume of the largest tile is ω(1/ n ). Here we give a (1-\epsilon)-approximation algorithm for computing the maximum volume of an empty convex body amidst n given points in the d -dimensional unit box [0,1] d .

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