Private Distribution Learning with Public Data: The View from Sample Compression
Abstract
We study the problem of private distribution learning with access to public data. In this setup, which we refer to as public-private learning, the learner is given public and private samples drawn from an unknown distribution belonging to a class , with the goal of outputting an estimate of while adhering to privacy constraints (here, pure differential privacy) only with respect to the private samples. We show that the public-private learnability of a class is connected to the existence of a sample compression scheme for , as well as to an intermediate notion we refer to as list learning. Leveraging this connection: (1) approximately recovers previous results on Gaussians over ; and (2) leads to new ones, including sample complexity upper bounds for arbitrary -mixtures of Gaussians over , results for agnostic and distribution-shift resistant learners, as well as closure properties for public-private learnability under taking mixtures and products of distributions. Finally, via the connection to list learning, we show that for Gaussians in , at least public samples are necessary for private learnability, which is close to the known upper bound of public samples.
Cite
@article{arxiv.2308.06239,
title = {Private Distribution Learning with Public Data: The View from Sample Compression},
author = {Shai Ben-David and Alex Bie and Clément L. Canonne and Gautam Kamath and Vikrant Singhal},
journal= {arXiv preprint arXiv:2308.06239},
year = {2023}
}
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31 pages