Linear embeddings of graphs and graph limits
Abstract
Consider a random graph process where vertices are chosen from the interval , and edges are chosen independently at random, but so that, for a given vertex , the probability that there is an edge to a vertex decreases as the distance between and increases. We call this a random graph with a linear embedding. We define a new graph parameter , which aims to measure the similarity of the graph to an instance of a random graph with a linear embedding. For a graph , if and only if is a unit interval graph, and thus a deterministic example of a graph with a linear embedding. We show that the behaviour of is consistent with the notion of convergence as defined in the theory of dense graph limits. In this theory, graph sequences converge to a symmetric, measurable function on . We define an operator which applies to graph limits, and which assumes the value zero precisely for graph limits that have a linear embedding. We show that, if a graph sequence converges to a function , then converges as well. Moreover, there exists a function arbitrarily close to under the box distance, so that is arbitrarily close to .
Cite
@article{arxiv.1210.4451,
title = {Linear embeddings of graphs and graph limits},
author = {Huda Chuangpishit and Mahya Ghandehari and Matt Hurshman and Jeannette Janssen and Nauzer Kalyaniwalla},
journal= {arXiv preprint arXiv:1210.4451},
year = {2020}
}
Comments
In press