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On the edit distance function of the random graph

Part of: Graph theory

Published online by Cambridge University Press:  02 September 2021

Ryan R. Martin  and
Alex W. N. Riasanovsky
Ryan R. Martin
Affiliation:
Department of Mathematics, Iowa State University, Ames, IA 50011-2064, USA
Alex W. N. Riasanovsky*
Affiliation:
Department of Mathematics, Iowa State University, Ames, IA 50011-2064, USA
*
*Corresponding author. Email: awnr@iastate.edu
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Abstract

Given a hereditary property of graphs $\mathcal{H}$ and a $p\in [0,1]$ , the edit distance function $\textrm{ed}_{\mathcal{H}}(p)$ is asymptotically the maximum proportion of edge additions plus edge deletions applied to a graph of edge density p sufficient to ensure that the resulting graph satisfies $\mathcal{H}$ . The edit distance function is directly related to other well-studied quantities such as the speed function for $\mathcal{H}$ and the $\mathcal{H}$ -chromatic number of a random graph.

Let $\mathcal{H}$ be the property of forbidding an Erdős–Rényi random graph $F\sim \mathbb{G}(n_0,p_0)$ , and let $\varphi$ represent the golden ratio. In this paper, we show that if $p_0\in [1-1/\varphi,1/\varphi]$ , then a.a.s. as $n_0\to\infty$ ,

\begin{align*} {\textrm{ed}}_{\mathcal{H}}(p) = (1+o(1))\,\frac{2\log n_0}{n_0} \cdot\min\left\{ \frac{p}{-\log(1-p_0)}, \frac{1-p}{-\log p_0} \right\}. \end{align*}
Moreover, this holds for $p\in [1/3,2/3]$ for any $p_0\in (0,1)$ .

A primary tool in the proof is the categorization of p-core coloured regularity graphs in the range $p\in[1-1/\varphi,1/\varphi]$ . Such coloured regularity graphs must have the property that the non-grey edges form vertex-disjoint cliques.

Keywords

edit distancespeed functioncoloured regularity graphsrandom graphs

MSC classification

Primary: 05C35: Extremal problems
Secondary: 05C80: Random graphs
Type
Paper
Information
Combinatorics, Probability and Computing , Volume 31 , Issue 2 , March 2022 , pp. 345 - 367
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Copyright
© The Author(s), 2021. Published by Cambridge University Press

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Footnotes

Both authors’ research was partially supported by NSF award DMS-1839918 (RTG). Martin’s was partially supported by Simons Foundation Collaboration Grant #353292.

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