We consider the problem of the assignment of nodes into communities from a set of hyperedges, where every hyperedge is a noisy observation of the community assignment of the adjacent nodes. We focus in particular on the sparse regime where the number of edges is of the same order as the number of vertices. We propose a spectral method based on a generalization of the non-backtracking Hashimoto matrix into hypergraphs. We analyze its performance on a planted generative model and compare it with other spectral methods and with Bayesian belief propagation (which was conjectured to be asymptotically optimal for this model). We conclude that the proposed spectral method detects communities whenever belief propagation does, while having the important advantages to be simpler, entirely nonparametric, and to be able to learn the rule according to which the hyperedges were generated without prior information.
Spectral detection on sparse hypergraphs / Angelini, Maria Chiara; Caltagirone, Francesco; Krzakala, Florent; Zdeborova, Lenka. - (2015), pp. 66-73. (Intervento presentato al convegno 53th Annual Allerton Conference on Communication, Control, and Computing (Allerton) tenutosi a Monticello; United States) [10.1109/ALLERTON.2015.7446987].
Spectral detection on sparse hypergraphs
ANGELINI, Maria Chiara;CALTAGIRONE, FRANCESCO;
2015
Abstract
We consider the problem of the assignment of nodes into communities from a set of hyperedges, where every hyperedge is a noisy observation of the community assignment of the adjacent nodes. We focus in particular on the sparse regime where the number of edges is of the same order as the number of vertices. We propose a spectral method based on a generalization of the non-backtracking Hashimoto matrix into hypergraphs. We analyze its performance on a planted generative model and compare it with other spectral methods and with Bayesian belief propagation (which was conjectured to be asymptotically optimal for this model). We conclude that the proposed spectral method detects communities whenever belief propagation does, while having the important advantages to be simpler, entirely nonparametric, and to be able to learn the rule according to which the hyperedges were generated without prior information.| File | Dimensione | Formato | |
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