English

Information-theoretic thresholds for community detection in sparse networks

Probability 2016-07-07 v1 Statistical Mechanics Computational Complexity Information Theory Social and Information Networks math.IT

Abstract

We give upper and lower bounds on the information-theoretic threshold for community detection in the stochastic block model. Specifically, consider the symmetric stochastic block model with qq groups, average degree dd, and connection probabilities cin/nc_\text{in}/n and cout/nc_\text{out}/n for within-group and between-group edges respectively; let λ=(cincout)/(qd)\lambda = (c_\text{in}-c_\text{out})/(qd). We show that, when qq is large, and λ=O(1/q)\lambda = O(1/q), the critical value of dd at which community detection becomes possible---in physical terms, the condensation threshold---is dc=Θ ⁣(logqqλ2), d_\text{c} = \Theta\!\left( \frac{\log q}{q \lambda^2} \right) \, , with tighter results in certain regimes. Above this threshold, we show that any partition of the nodes into qq groups which is as `good' as the planted one, in terms of the number of within- and between-group edges, is correlated with it. This gives an exponential-time algorithm that performs better than chance; specifically, community detection becomes possible below the Kesten-Stigum bound for q5q \ge 5 in the disassortative case λ<0\lambda < 0, and for q11q \ge 11 in the assortative case λ>0\lambda >0 (similar upper bounds were obtained independently by Abbe and Sandon). Conversely, below this threshold, we show that no algorithm can label the vertices better than chance, or even distinguish the block model from an \ER\ random graph with high probability. Our lower bound on dcd_\text{c} uses Robinson and Wormald's small subgraph conditioning method, and we also give (less explicit) results for non-symmetric stochastic block models. In the symmetric case, we obtain explicit results by using bounds on certain functions of doubly stochastic matrices due to Achlioptas and Naor; indeed, our lower bound on dcd_\text{c} is their second moment lower bound on the qq-colorability threshold for random graphs with a certain effective degree.

Keywords

Cite

@article{arxiv.1607.01760,
  title  = {Information-theoretic thresholds for community detection in sparse networks},
  author = {Jess Banks and Cristopher Moore and Joe Neeman and Praneeth Netrapalli},
  journal= {arXiv preprint arXiv:1607.01760},
  year   = {2016}
}

Comments

This paper is a combination of arXiv:1601.02658 and arXiv:1404.6304 which appeared in COLT 2016

R2 v1 2026-06-22T14:47:28.783Z