Math @ Duke
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Publications [#378346] of Nicholas A Cook
search arxiv.org.Papers Published
- Cook, NA; Dembo, A, TYPICAL STRUCTURE OF SPARSE EXPONENTIAL RANDOM GRAPH MODELS,
Annals of Applied Probability, vol. 34 no. 3
(June, 2024),
pp. 2885-2939 [doi]
(last updated on 2024/11/20)
Abstract: We consider general exponential random graph models (ERGMs) where the sufficient statistics are functions of homomorphism counts for a fixed collection of simple graphs Fk. Whereas previous work has shown a degeneracy phenomenon in dense ERGMs, we show this can be cured by raising the sufficient statistics to a fractional power. We rigorously establish the naïve mean-field approximation for the partition function of the corresponding Gibbs measures, and in case of “ferromagnetic” models with vanishing edge density show that typical samples resemble a typical Erdős–Rényi graph with a planted clique and/or a planted complete bipartite graph of appropriate sizes. We establish such behavior also for the conditional structure of the Erdős–Rényi graph in the large deviations regime for excess Fk-homomorphism counts. These structural results are obtained by combining quantitative large deviation principles, established in previous works, with a novel stability form of a result of (Adv. Math. 319 (2017) 313–347) on the asymptotic solution for the associated entropic variational problem. A technical ingredient of independent interest is a stability form of Finner’s generalized Hölder inequality.
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