Approximating a finite metric by a small number of tree metrics

Proceedings 39th Annual Symposium on Foundations of Computer Science (Cat. No.98CB36280) Pub Date : 1998-11-08 DOI:10.1109/SFCS.1998.743488

M. Charikar, C. Chekuri, Ashish Goel, S. Guha, Serge A. Plotkin

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引用次数: 202

Abstract

Y. Bartal (1996, 1998) gave a randomized polynomial time algorithm that given any n point metric G, constructs a tree T such that the expected stretch (distortion) of any edge is at most O (log n log log n). His result has found several applications and in particular has resulted in approximation algorithms for many graph optimization problems. However approximation algorithms based on his result are inherently randomized. In this paper we derandomize the use of Bartal's algorithm in the design of approximation algorithms. We give an efficient polynomial time algorithm that given a finite n point metric G, constructs O(n log n) trees and a probability distribution /spl mu/ on them such that the expected stretch of any edge of G in a tree chosen according to /spl mu/ is at most O(log n log log n). Our result establishes that finite metrics can be probabilistically approximated by a small number of tree metrics. We obtain the first deterministic approximation algorithms for buy-at-bulk network design and vehicle routing; in addition we subsume results from our earlier work on derandomization. Our main result is obtained by a novel view of probabilistic approximation of metric spaces as a deterministic optimization problem via linear programming.

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用少量的树形度量来近似有限的度量

Y. Bartal(1996, 1998)给出了一种随机多项式时间算法，该算法给定任意n个点度量G，构建一棵树T，使得任何边的预期拉伸(变形)最多为O (log n log log n)。他的结果已经找到了几种应用，特别是导致了许多图优化问题的近似算法。然而，基于他的结果的近似算法本质上是随机的。在本文中，我们在设计近似算法时对Bartal算法的使用进行了非随机化。我们给出了一个有效的多项式时间算法，给定有限n个点度量G，构造O(n log n)棵树和它们的概率分布/spl mu/，使得根据/spl mu/选择的树中G的任何边的期望拉伸最多为O(log n log log n)。我们的结果建立了有限度量可以由少量树度量概率近似。我们获得了第一个用于批量购买网络设计和车辆路径的确定性近似算法;此外，我们纳入了我们早期关于非随机化工作的结果。我们的主要结果是通过线性规划将度量空间的概率近似看作一个确定性优化问题而得到的。

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 39th Annual Symposium on Foundations of Computer Science (Cat. No.98CB36280)

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