Tag Archives: HGR

KurtHGR: A Neural Maximal Correlation for Tabular Datasets

Our paper, KurtHGR: A Neural Maximal Correlation for Tabular Datasets, with Samuel Stocksieker and Denys Pommeret has been published in Procedia Computer Science

The study of dependencies between variables is a fundamental pillar of machine learning, influencing areas as diverse as feature selection, fairness, dimensionality reduction, and multimodal learning. Among nonlinear correlation measures, the Hirschfeld-Gebelein-Rényi (HGR) maximal correlation stands out for its universality and remarkable theoretical properties. Defined as the maximum achievable correlation between nonlinear transformations of two random variables, it provides an intrinsic quantification of statistical dependence, regardless of their marginal distributions. However, despite its theoretical potential, its practical adoption still faces several challenges. In this paper, we present a new approach called KurtHGR, dedicated to the estimation of the bivariate nonlinear correlation matrix of a set of variables. We show that this solution is effective in detecting nonlinear correlations, robust to noise, and computationally efficient, thanks to a neural architecture specifically designed for this purpose. We evaluate its performance through numerical illustrations and feature selection experiments, where we demonstrate that KurtHGR empirically outperforms state-of-the-art approaches.