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arxiv: 2010.13520 · v3 · pith:JE2WFIKEnew · submitted 2020-10-22 · 💻 cs.LG · cs.CR· stat.ML

Differentially Private (Gradient) Expectation Maximization Algorithm with Statistical Guarantees

classification 💻 cs.LG cs.CRstat.ML
keywords gradientguaranteesstatisticalalgorithmmixturemodelmodelsdata
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(Gradient) Expectation Maximization (EM) is a widely used algorithm for estimating the maximum likelihood of mixture models or incomplete data problems. A major challenge facing this popular technique is how to effectively preserve the privacy of sensitive data. Previous research on this problem has already lead to the discovery of some Differentially Private (DP) algorithms for (Gradient) EM. However, unlike in the non-private case, existing techniques are not yet able to provide finite sample statistical guarantees. To address this issue, we propose in this paper the first DP version of (Gradient) EM algorithm with statistical guarantees. Moreover, we apply our general framework to three canonical models: Gaussian Mixture Model (GMM), Mixture of Regressions Model (MRM) and Linear Regression with Missing Covariates (RMC). Specifically, for GMM in the DP model, our estimation error is near optimal in some cases. For the other two models, we provide the first finite sample statistical guarantees. Our theory is supported by thorough numerical experiments.

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    Gradient EM converges exponentially to optimal population loss minimizers for agnostic fitting of k parametric functions under strong convexity and smoothness of the loss, proper initialization, and separation conditions.