Community Detection in Sparse Time-Evolving Graphs with a Dynamical Bethe-Hessian
Abstract
This article considers the problem of community detection in sparse dynamical graphs in which the community structure evolves over time. A fast spectral algorithm based on an extension of the Bethe-Hessian matrix is proposed, which benefits from the positive correlation in the class labels and in their temporal evolution and is designed to be applicable to any dynamical graph with a community structure. Under the dynamical degree-corrected stochastic block model, in the case of two classes of equal size, we demonstrate and support with extensive simulations that our proposed algorithm is capable of making non-trivial community reconstruction as soon as theoretically possible, thereby reaching the optimal detectability threshold and provably outperforming competing spectral methods.
Cite
Text
Dall'Amico et al. "Community Detection in Sparse Time-Evolving Graphs with a Dynamical Bethe-Hessian." Neural Information Processing Systems, 2020.Markdown
[Dall'Amico et al. "Community Detection in Sparse Time-Evolving Graphs with a Dynamical Bethe-Hessian." Neural Information Processing Systems, 2020.](https://mlanthology.org/neurips/2020/dallamico2020neurips-community/)BibTeX
@inproceedings{dallamico2020neurips-community,
title = {{Community Detection in Sparse Time-Evolving Graphs with a Dynamical Bethe-Hessian}},
author = {Dall'Amico, Lorenzo and Couillet, Romain and Tremblay, Nicolas},
booktitle = {Neural Information Processing Systems},
year = {2020},
url = {https://mlanthology.org/neurips/2020/dallamico2020neurips-community/}
}