Sample-Optimal Locally Private Hypothesis Selection and the Provable Benefits of Interactivity

Abstract

We study the problem of hypothesis selection under the constraint of local differential privacy. Given a class F of k distributions and a set of i.i.d. samples from an unknown distribution h, the goal of hypothesis selection is to pick a distribution f whose total variation distance to h is comparable with the best distribution in F (with high probability). We devise an -locally-differentially-private (-LDP) algorithm that uses (kα2 \2,1\) samples to guarantee that dTV(h,f)≤ α + 9 f∈ FdTV(h,f) with high probability. This sample complexity is optimal for <1, matching the lower bound of Gopi et al. (2020). All previously known algorithms for this problem required (k kα2 \ 2 ,1\ ) samples to work. Moreover, our result demonstrates the power of interaction for -LDP hypothesis selection. Namely, it breaks the known lower bound of (k kα2 \ 2 ,1\ ) for the sample complexity of non-interactive hypothesis selection. Our algorithm breaks this barrier using only ( k) rounds of interaction. To prove our results, we define the notion of critical queries for a Statistical Query Algorithm (SQA) which may be of independent interest. Informally, an SQA is said to use a small number of critical queries if its success relies on the accuracy of only a small number of queries it asks. We then design an LDP algorithm that uses a smaller number of critical queries.

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