Finite metric spaces

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Finite metric spaces: combinatorics, geometry and algorithms

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Annual Symposium on Computational Geometry archive
Proceedings of the eighteenth annual symposium on Computational geometry table of contents

Barcelona, Spain

Pages: 63 - 63

Year of Publication: 2002

ISBN:1-58113-504-1

Author

Nathan Linial

Hebrew University, Jerusalem

Sponsors

SIGGRAPH: ACM Special Interest Group on Computer Graphics and Interactive Techniques
SIGACT: ACM Special Interest Group on Algorithms and Computation Theory

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): n/a, Downloads (12 Months): n/a, Citation Count: 1

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ABSTRACT

In the last several years a number of very interesting results were proved about finite metric spaces. Some of this work is motivated by practical considerations: Large data sets (coming e.g. from computational molecular biology, brain research or data mining) can be viewed as large metric spaces that should be analyzed (e.g. correctly clustered).On the other hand, these investigations connect to some classical areas of geometry - the asymptotic theory of finite-dimensional normed spaces and differential geometry. Finally, the metric theory of finite graphs has proved very useful in the study of graphs per se and the design of approximation algorithms for hard computational problems. In this talk I will try to explain some of the results and review some of the emerging new connections and the many fascinating open problems in this area.

CITED BY

Nikhil R. Devanur , Subhash A. Khot , Rishi Saket , Nisheeth K. Vishnoi, Integrality gaps for sparsest cut and minimum linear arrangement problems, Proceedings of the thirty-eighth annual ACM symposium on Theory of computing, May 21-23, 2006, Seattle, WA, USA

INDEX TERMS

Primary Classification:
F. Theory of Computation
F.2 ANALYSIS OF ALGORITHMS AND PROBLEM COMPLEXITY
F.2.2 Nonnumerical Algorithms and Problems
Subjects: Geometrical problems and computations