On the structure of subsets of the discrete cube with small edge boundary

David Ellis; Nathan Keller; Noam Lifshitz

doi:10.19086/da.3668

On the structure of subsets of the discrete cube with small edge boundary

David Ellis, Nathan Keller, Noam Lifshitz

Department of Mathematics

Bar-Ilan University

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

Abstract

The edge isoperimetric inequality in the discrete cube specifies, for each pair of integers m and n, the minimum size g_n(m) of the edge boundary of an m-element subset of (0,1)ⁿ; the extremal families (up to automorphisms of the discrete cube) are initial segments of the lexicographic ordering on (0,1)ⁿ. We show that for any m-element subset F ⊂ (0,1)ⁿ and any integer l, if the edge boundary of F has size at most g_n(m)+l, then there exists an extremal family G⊂(0,1)ⁿ such that |FΔG| ≤ Cl, where C is an absolute constant. This is best possible, up to the value of C. Our result can be seen as a 'stability' version of the edge isoperimetric inequality in the discrete cube, and as a discrete analogue of the seminal stability result of Fusco, Maggi and Pratelli [15] for the isoperimetric inequality in Euclidean space.

Original language	English
Pages (from-to)	1-29
Number of pages	29
Journal	Discrete Analysis
Volume	9
Issue number	2018
DOIs	https://doi.org/10.19086/da.3668
State	Published - 2018

Keywords

Discrete cube
Discrete isoperimetric inequalities
Stability

All Science Journal Classification (ASJC) codes

Algebra and Number Theory
Geometry and Topology
Discrete Mathematics and Combinatorics

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10.19086/da.3668

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abstract = "The edge isoperimetric inequality in the discrete cube specifies, for each pair of integers m and n, the minimum size gn(m) of the edge boundary of an m-element subset of (0,1)n; the extremal families (up to automorphisms of the discrete cube) are initial segments of the lexicographic ordering on (0,1)n. We show that for any m-element subset F ⊂ (0,1)n and any integer l, if the edge boundary of F has size at most gn(m)+l, then there exists an extremal family G⊂(0,1)n such that |FΔG| ≤ Cl, where C is an absolute constant. This is best possible, up to the value of C. Our result can be seen as a 'stability' version of the edge isoperimetric inequality in the discrete cube, and as a discrete analogue of the seminal stability result of Fusco, Maggi and Pratelli [15] for the isoperimetric inequality in Euclidean space.",

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AB - The edge isoperimetric inequality in the discrete cube specifies, for each pair of integers m and n, the minimum size gn(m) of the edge boundary of an m-element subset of (0,1)n; the extremal families (up to automorphisms of the discrete cube) are initial segments of the lexicographic ordering on (0,1)n. We show that for any m-element subset F ⊂ (0,1)n and any integer l, if the edge boundary of F has size at most gn(m)+l, then there exists an extremal family G⊂(0,1)n such that |FΔG| ≤ Cl, where C is an absolute constant. This is best possible, up to the value of C. Our result can be seen as a 'stability' version of the edge isoperimetric inequality in the discrete cube, and as a discrete analogue of the seminal stability result of Fusco, Maggi and Pratelli [15] for the isoperimetric inequality in Euclidean space.

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On the structure of subsets of the discrete cube with small edge boundary

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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