arXiv:2208.10558 Abstract | arXiv Analytics

arXiv:2208.10558 [math.CO]Abstract References Reviews Resources

On the clique number of noisy random geometric graphs

Published 2022-08-22Version 1

Let $G_n$ be a random geometric graph, and then for $q,p \in [0,1)$ we construct a "$(q,p)$-perturbed noisy random geometric graph" $G_n^{q,p}$ where each existing edge in $G_n$ is removed with probability $q$, while and each non-existent edge in $G_n$ is inserted with probability $p$. We give asymptotically tight bounds on the clique number $\omega\left(G_n^{q,p}\right)$ for several regimes of parameter.

Comments: 34 pages, 4 figures

Categories: math.CO, math.PR

Subjects: 05C80

Keywords: clique number, perturbed noisy random geometric graph, non-existent edge, asymptotically tight bounds, probability

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