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Gentle Local Robustness implies Generalization

Machine Learning 2025-04-29 v2 Machine Learning

Abstract

Robustness and generalization ability of machine learning models are of utmost importance in various application domains. There is a wide interest in efficient ways to analyze those properties. One important direction is to analyze connection between those two properties. Prior theories suggest that a robust learning algorithm can produce trained models with a high generalization ability. However, we show in this work that the existing error bounds are vacuous for the Bayes optimal classifier which is the best among all measurable classifiers for a classification problem with overlapping classes. Those bounds cannot converge to the true error of this ideal classifier. This is undesirable, surprizing, and never known before. We then present a class of novel bounds, which are model-dependent and provably tighter than the existing robustness-based ones. Unlike prior ones, our bounds are guaranteed to converge to the true error of the best classifier, as the number of samples increases. We further provide an extensive experiment and find that two of our bounds are often non-vacuous for a large class of deep neural networks, pretrained from ImageNet.

Keywords

Cite

@article{arxiv.2412.06381,
  title  = {Gentle Local Robustness implies Generalization},
  author = {Khoat Than and Dat Phan and Giang Vu},
  journal= {arXiv preprint arXiv:2412.06381},
  year   = {2025}
}

Comments

To appear in Machine Learning journal

R2 v1 2026-06-28T20:27:43.065Z