Differentially Private Algorithms for Learning Mixtures of Separated Gaussians

2020 Information Theory and Applications Workshop (ITA) Pub Date : 2019-09-09 DOI:10.1109/ITA50056.2020.9244945
Gautam Kamath, Or Sheffet, Vikrant Singhal, Jonathan Ullman
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引用次数: 43

Abstract

Learning the parameters of Gaussian mixture models is a fundamental and widely studied problem with numerous applications. In this work, we give new algorithms for learning the parameters of a high-dimensional, well separated, Gaussian mixture model subject to the strong constraint of differential privacy. In particular, we give a differentially private analogue of the algorithm of Achlioptas and McSherry. Our algorithm has two key properties not achieved by prior work: (1) The algorithm’s sample complexity matches that of the corresponding non-private algorithm up to lower order terms in a wide range of parameters. (2) The algorithm does not require strong a priori bounds on the parameters of the mixture components.
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分离高斯分布混合学习的差分私有算法
高斯混合模型参数的学习是一个基本的、被广泛研究的问题,有着广泛的应用。在这项工作中,我们给出了一种新的算法来学习受差分隐私强约束的高维、良好分离的高斯混合模型的参数。特别地,我们给出了Achlioptas和McSherry算法的差分私有模拟。我们的算法有两个先前工作没有实现的关键特性:(1)在广泛的参数范围内,该算法的样本复杂度与相应的非私有算法的样本复杂度相匹配,直到低阶项。(2)该算法不需要混合组分参数的强先验界。
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2020 Information Theory and Applications Workshop (ITA)
2020 Information Theory and Applications Workshop (ITA)
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