Simple Proofs of Classical Theorems in Discrete Geometry via the Guth-Katz Polynomial Partitioning Technique

Haim Kaplan; J. Matoušek; Micha Sharir

doi:10.1007/s00454-012-9443-3

Simple Proofs of Classical Theorems in Discrete Geometry via the Guth-Katz Polynomial Partitioning Technique

Haim Kaplan^*, J. Matoušek, Micha Sharir

^*Corresponding author for this work

School of Computer Science

Research output: Contribution to journal › Article › peer-review

Abstract

Recently Guth and Katz (arXiv:1011.4105, 2010) invented, as a step in their nearly complete solution of Erdo{double acute}s's distinct distances problem, a new method for partitioning finite point sets in ℝ ^d, based on the Stone-Tukey polynomial ham-sandwich theorem. We apply this method to obtain new and simple proofs of two well known results: the Szemerédi-Trotter theorem on incidences of points and lines, and the existence of spanning trees with low crossing numbers. Since we consider these proofs particularly suitable for teaching, we aim at self-contained, expository treatment. We also mention some generalizations and extensions, such as the Pach-Sharir bound on the number of incidences with algebraic curves of bounded degree.

Original language	English
Pages (from-to)	499-517
Number of pages	19
Journal	Discrete and Computational Geometry
Volume	48
Issue number	3
DOIs	https://doi.org/10.1007/s00454-012-9443-3
State	Published - Oct 2012

Keywords

Algebraic techniques
Crossing number
Incidences
Partitioning polynomial
Polynomial ham-sandwich
Spanning tree with low crossing number

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10.1007/s00454-012-9443-3

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abstract = "Recently Guth and Katz (arXiv:1011.4105, 2010) invented, as a step in their nearly complete solution of Erdo{double acute}s's distinct distances problem, a new method for partitioning finite point sets in ℝ d, based on the Stone-Tukey polynomial ham-sandwich theorem. We apply this method to obtain new and simple proofs of two well known results: the Szemer{\'e}di-Trotter theorem on incidences of points and lines, and the existence of spanning trees with low crossing numbers. Since we consider these proofs particularly suitable for teaching, we aim at self-contained, expository treatment. We also mention some generalizations and extensions, such as the Pach-Sharir bound on the number of incidences with algebraic curves of bounded degree.",

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AU - Matoušek, J.

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KW - Incidences

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Simple Proofs of Classical Theorems in Discrete Geometry via the Guth-Katz Polynomial Partitioning Technique

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