Tight Bounds for the Expected Risk of Linear Classifiers and PAC-Bayes Finite-Sample Guarantees

Jean Honorio; Tommi Jaakkola

2014 AISTATS AISTATS 2014

Tight Bounds for the Expected Risk of Linear Classifiers and PAC-Bayes Finite-Sample Guarantees

Abstract

We analyze the expected risk of linear classifiers for a fixed weight vector in the “minimax” setting. That is, we analyze the worst-case risk among all data distributions with a given mean and covariance. We provide a simpler proof of the tight polynomial-tail bound for general random variables. For sub-Gaussian random variables, we derive a novel tight exponential-tail bound. We also provide new PAC-Bayes finite-sample guarantees when training data is available. Our “minimax” generalization bounds are dimensionality-independent and \mathcalO(\sqrt1/m) for m samples.

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Authors

Jean Honorio , Tommi Jaakkola

Topics

Machine Learning > Core Methods > Classification Machine Learning > Optimization & Theory > Learning Theory Machine Learning > Optimization & Theory > Statistical Learning

Keywords

expected risk minimax analysis linear classifier generalization bound pac-bayes bound

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