近似多边形曲线的填充性

Joachim Gudmundsson, Y. Sha, Sampson Wong
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引用次数: 6

摘要

2012年,Driemel等\cite{DBLP:journals/dcg/DriemelHW12}引入了$c$填充曲线的概念,作为一种现实的输入模型。在$c$为常数的情况下,他们给出了一个近似线性时间$(1+\varepsilon)$ -近似算法,用于计算两条$c$填充多边形曲线之间的Frechet距离。从那以后,许多论文都使用了这个模型。本文考虑了$\mathbb{R}^d$中给定多边形曲线为$c$填充的最小$c$的计算问题。我们提出了两种近似算法。第一种算法是$2$ -近似算法,运行时间为$O(dn^2 \log n)$。在$d=2$的情况下,我们开发了一个更快的算法,它返回一个$(6+\varepsilon)$ -近似值,运行时间为$O((n/\varepsilon^3)^{4/3} polylog (n/\varepsilon)))$。我们还实现了第一种算法,并计算了16组真实轨迹的近似打包值。实验表明,$c$ -填充的概念对于许多曲线和轨迹是一个有用的现实输入模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Approximating the packedness of polygonal curves
In 2012 Driemel et al. \cite{DBLP:journals/dcg/DriemelHW12} introduced the concept of $c$-packed curves as a realistic input model. In the case when $c$ is a constant they gave a near linear time $(1+\varepsilon)$-approximation algorithm for computing the Frechet distance between two $c$-packed polygonal curves. Since then a number of papers have used the model. In this paper we consider the problem of computing the smallest $c$ for which a given polygonal curve in $\mathbb{R}^d$ is $c$-packed. We present two approximation algorithms. The first algorithm is a $2$-approximation algorithm and runs in $O(dn^2 \log n)$ time. In the case $d=2$ we develop a faster algorithm that returns a $(6+\varepsilon)$-approximation and runs in $O((n/\varepsilon^3)^{4/3} polylog (n/\varepsilon)))$ time. We also implemented the first algorithm and computed the approximate packedness-value for 16 sets of real-world trajectories. The experiments indicate that the notion of $c$-packedness is a useful realistic input model for many curves and trajectories.
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