Majorization-Minimization for sparse SVMs
Abstract
Several decades ago, Support Vector Machines (SVMs) were introduced for performing binary classification tasks, under a supervised framework. Nowadays, they often outperform other supervised methods and remain one of the most popular approaches in the machine learning arena. In this work, we investigate the training of SVMs through a smooth sparse-promoting-regularized squared hinge loss minimization. This choice paves the way to the application of quick training methods built on majorization-minimization approaches, benefiting from the Lipschitz differentiabililty of the loss function. Moreover, the proposed approach allows us to handle sparsity-preserving regularizers promoting the selection of the most significant features, so enhancing the performance. Numerical tests and comparisons conducted on three different datasets demonstrate the good performance of the proposed methodology in terms of qualitative metrics (accuracy, precision, recall, and F 1 score) as well as computational cost.
Cite
@article{arxiv.2308.16858,
title = {Majorization-Minimization for sparse SVMs},
author = {Alessandro Benfenati and Emilie Chouzenoux and Giorgia Franchini and Salla Latva-Aijo and Dominik Narnhofer and Jean-Christophe Pesquet and Sebastian J. Scott and Mahsa Yousefi},
journal= {arXiv preprint arXiv:2308.16858},
year = {2023}
}