Approximate shape fitting via linearization

Proceedings 2001 IEEE International Conference on Cluster Computing Pub Date : 2001-10-14 DOI:10.1109/SFCS.2001.959881

Sariel Har-Peled, Kasturi R. Varadarajan

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引用次数: 30

Abstract

Shape fitting is a fundamental optimization problem in computer science. The authors present a general and unified technique for solving a certain family of such problems. Given a point set P in R/sup d/, this technique can be used to /spl epsi/-approximate: (i) the min-width annulus and shell that contains P, (ii) minimum width cylindrical shell containing P, (iii) diameter, width, minimum volume bounding box of P, and (iv) all the previous measures for the case the points are moving. The running time of the resulting algorithms is O(n + 1//spl epsi//sup c/), where c is a constant that depends on the problem at hand. Our new general technique enables us to solve those problems without resorting to a careful and painful case by case analysis, as was previously done for those problems. Furthermore, for several of those problems our results are considerably simpler and faster than what was previously known. In particular, for the minimum width cylindrical shell problem, our solution is the first algorithm whose running time is subquadratic in n. (In fact we get running time linear in n.).

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通过线性化近似形状拟合

形状拟合是计算机科学中的一个基本优化问题。作者提出了一种通用的、统一的方法来解决这类问题。给定R/sup /中的点集P，该技术可用于/spl epsi/-近似:(i)包含P的最小宽度环空和壳，(ii)包含P的最小宽度圆柱壳，(iii) P的直径，宽度，最小体积边界框，以及(iv)所有先前的点在移动情况下的测量。结果算法的运行时间为O(n + 1//spl epsi//sup c/)，其中c是一个常数，取决于手头的问题。我们的新通用技术使我们能够解决这些问题，而不必诉诸于仔细和痛苦的逐个案例分析，就像以前对这些问题所做的那样。此外，对于其中的一些问题，我们的结果比以前已知的要简单和快速得多。特别是，对于最小宽度圆柱壳问题，我们的解是第一个运行时间在n上是次二次的算法(实际上我们得到的运行时间在n上是线性的)。

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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Proceedings 2001 IEEE International Conference on Cluster Computing

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