Covariate-Dependent Graphical Model Estimation via Neural Networks with Statistical Guarantees
Abstract
Graphical models are widely used in diverse application domains to model the conditional dependencies amongst a collection of random variables. In this paper, we consider settings where the graph structure is covariate-dependent, and investigate a deep neural network-based approach to estimate it. The method allows for flexible functional dependency on the covariate, and fits the data reasonably well in the absence of a Gaussianity assumption. Theoretical results with PAC guarantees are established for the method, under assumptions commonly used in an Empirical Risk Minimization framework. The performance of the proposed method is evaluated on several synthetic data settings and benchmarked against existing approaches. The method is further illustrated on real datasets involving data from neuroscience and finance, respectively, and produces interpretable results.
Cite
Text
Lin et al. "Covariate-Dependent Graphical Model Estimation via Neural Networks with Statistical Guarantees." Transactions on Machine Learning Research, 2025.Markdown
[Lin et al. "Covariate-Dependent Graphical Model Estimation via Neural Networks with Statistical Guarantees." Transactions on Machine Learning Research, 2025.](https://mlanthology.org/tmlr/2025/lin2025tmlr-covariatedependent/)BibTeX
@article{lin2025tmlr-covariatedependent,
title = {{Covariate-Dependent Graphical Model Estimation via Neural Networks with Statistical Guarantees}},
author = {Lin, Jiahe and Zhang, Yikai and Michailidis, George},
journal = {Transactions on Machine Learning Research},
year = {2025},
url = {https://mlanthology.org/tmlr/2025/lin2025tmlr-covariatedependent/}
}