Uniform Deviation Bounds for k-Means Clustering

Olivier Bachem; Mario Lucic; S. Hamed Hassani; Andreas Krause

2017 ICML ICML 2017

Uniform Deviation Bounds for k-Means Clustering

Abstract

Uniform deviation bounds limit the difference between a model’s expected loss and its loss on an empirical sample uniformly for all models in a learning problem. In this paper, we provide a novel framework to obtain uniform deviation bounds for loss functions which are unbounded. As a result, we obtain competitive uniform deviation bounds for k-Means clustering under weak assumptions on the underlying distribution. If the fourth moment is bounded, we prove a rate of $O(m^{-1/2})$ compared to the previously known $O(m^{-1/4})$ rate. Furthermore, we show that the rate also depends on the kurtosis – the normalized fourth moment which measures the “tailedness” of a distribution. We also provide improved rates under progressively stronger assumptions, namely, bounded higher moments, subgaussianity and bounded support of the underlying distribution.

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Authors

Olivier Bachem , Mario Lucic , S. Hamed Hassani , Andreas Krause

Topics

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

Keywords

statistical learning learning theory k-means clustering rate of convergence uniform deviation bounds

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