Feature uncertainty bounding schemes for large robust nonlinear SVM classifiers
Machine Learning
2017-06-30 v1 Machine Learning
Abstract
We consider the binary classification problem when data are large and subject to unknown but bounded uncertainties. We address the problem by formulating the nonlinear support vector machine training problem with robust optimization. To do so, we analyze and propose two bounding schemes for uncertainties associated to random approximate features in low dimensional spaces. The proposed techniques are based on Random Fourier Features and the Nystr\"om methods. The resulting formulations can be solved with efficient stochastic approximation techniques such as stochastic (sub)-gradient, stochastic proximal gradient techniques or their variants.
Cite
@article{arxiv.1706.09795,
title = {Feature uncertainty bounding schemes for large robust nonlinear SVM classifiers},
author = {Nicolas Couellan and Sophie Jan},
journal= {arXiv preprint arXiv:1706.09795},
year = {2017}
}