Entropy-based random models for hypergraphs
Saracco, Fabio, Petri, Giovanni, Lambiotte, Renaud and Squartini, Tiziano (2025) Entropy-based random models for hypergraphs. Communications Physics. ISSN 2399-3650 (In Press)
Abstract
Network theory has primarily focused on pairwise relationships, disregarding many-body interactions: neglecting them, however, can lead to misleading representations of complex systems. Hypergraphs represent an increasingly popular alternative for describing polyadic interactions: our innovation lies in leveraging the representation of hypergraphs based on the incidence matrix for extending the entropy-based framework to higher-order structures. In analogy with the Exponential Random Graphs, we name the members of this novel class of models Exponential Random Hypergraphs. Here, we focus on two explicit examples, i.e. the generalisations of the Erd¨ os-R´enyi Model and of the Configuration Model. After discussing their asymptotic properties, we employ them to analyse real-world configurations: more specifically, i) we extend the definition of several network quantities to hypergraphs, ii) compute their expected value under each null model and iii) compare it with the empirical one, in order to detect deviations from random behaviours. Differently from currently available techniques, ours is analytically tractable, scalable and effective in singling out the structural patterns of real-world hypergraphs differing significantly from those emerging as a consequence of simpler, structural constraints.
![[img]](https://nul.repository.guildhe.ac.uk/style/images/fileicons/text.png)
Actions (login required)
 |
Edit Item |
Altmetric
Altmetric