Multiclass Learning from Contradictions
Abstract
We introduce the notion of learning from contradictions, a.k.a Universum learning, for multiclass problems and propose a novel formulation for multiclass universum SVM (MU-SVM). We show that learning from contradictions (using MU-SVM) incurs lower sample complexity compared to multiclass SVM (M-SVM) by deriving the Natarajan dimension for sample complexity for PAC-learnability of MU-SVM. We also propose an analytic span bound for MU-SVM and demonstrate its utility for model selection resulting in $\sim 2-4 \times$ faster computation times than standard resampling techniques. We empirically demonstrate the efficacy of MU- SVM on several real world datasets achieving $>$ 20\% improvement in test accuracies compared to M-SVM. Insights into the underlying behavior of MU-SVM using a histograms-of-projections method are also provided.
Cite
Text
Dhar et al. "Multiclass Learning from Contradictions." Neural Information Processing Systems, 2019.Markdown
[Dhar et al. "Multiclass Learning from Contradictions." Neural Information Processing Systems, 2019.](https://mlanthology.org/neurips/2019/dhar2019neurips-multiclass/)BibTeX
@inproceedings{dhar2019neurips-multiclass,
title = {{Multiclass Learning from Contradictions}},
author = {Dhar, Sauptik and Cherkassky, Vladimir and Shah, Mohak},
booktitle = {Neural Information Processing Systems},
year = {2019},
pages = {8400-8410},
url = {https://mlanthology.org/neurips/2019/dhar2019neurips-multiclass/}
}