Generalization Bounds for Uniformly Stable Algorithms

Abstract

Uniform stability of a learning algorithm is a classical notion of algorithmic stability introduced to derive high-probability bounds on the generalization error (Bousquet and Elisseeff, 2002). Specifically, for a loss function with range bounded in [0,1], the generalization error of a -uniformly stable learning algorithm on n samples is known to be within O(( +1/n) n (1/)) of the empirical error with probability at least 1-. Unfortunately, this bound does not lead to meaningful generalization bounds in many common settings where 1/n. At the same time the bound is known to be tight only when = O(1/n). We substantially improve generalization bounds for uniformly stable algorithms without making any additional assumptions. First, we show that the bound in this setting is O(( + 1/n) (1/)) with probability at least 1-. In addition, we prove a tight bound of O(^2 + 1/n) on the second moment of the estimation error. The best previous bound on the second moment is O( + 1/n). Our proofs are based on new analysis techniques and our results imply substantially stronger generalization guarantees for several well-studied algorithms.

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Reproductions