Maximum gradient embeddings and monotone clustering

A. Gupta; A. Gupta; Assaf Naor; B. Brinkman; Ch. Swamy; G. Calinescu; G. Cornuéjols; I. Newman; J. R. Lee; J. R. Lee; K. Jain; K. Jain; K. Jain; M. Charikar; M. Charikar; M. Charikar; M. Elkin; M. Ledoux; M. Mendel; M. Mendel; M. R. Bridson; M. R. Korupolu; Manor Mendel; N. Alon; P. B. Mirchandani; R. Krauthgamer; S. Guha; S. Har-Peled; V. Arya; Y. Bartal; Y. Bartal; Y. Bartal; Y. Bartal; Y. Bartal; Y. Rabinovich

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Maximum gradient embeddings and monotone clustering

Authors: A. Gupta
A. Gupta
Assaf Naor
B. Brinkman
Ch. Swamy
G. Calinescu
G. Cornuéjols
I. Newman
J. R. Lee
J. R. Lee
K. Jain
K. Jain
K. Jain
M. Charikar
M. Charikar
M. Charikar
M. Elkin
M. Ledoux
M. Mendel
M. Mendel
M. R. Bridson
M. R. Korupolu
Manor Mendel
N. Alon
P. B. Mirchandani
R. Krauthgamer
S. Guha
S. Har-Peled
V. Arya
Y. Bartal
Y. Bartal
Y. Bartal
Y. Bartal
Y. Bartal
Y. Rabinovich
Publication date: 19 November 2009
Publisher: 'Springer Science and Business Media LLC'
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Abstract

Let (X,d_X) be an n-point metric space. We show that there exists a distribution D over non-contractive embeddings into trees f:X-->T such that for every x in X, the expectation with respect to D of the maximum over y in X of the ratio d_T(f(x),f(y)) / d_X(x,y) is at most C (log n)^2, where C is a universal constant. Conversely we show that the above quadratic dependence on log n cannot be improved in general. Such embeddings, which we call maximum gradient embeddings, yield a framework for the design of approximation algorithms for a wide range of clustering problems with monotone costs, including fault-tolerant versions of k-median and facility location.Comment: 25 pages, 2 figures. Final version, minor revision of the previous one. To appear in "Combinatorica

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