Testing Dependency of Unlabeled Databases
Abstract
In this paper, we investigate the problem of deciding whether two random databases and are statistically dependent or not. This is formulated as a hypothesis testing problem, where under the null hypothesis, these two databases are statistically independent, while under the alternative, there exists an unknown row permutation , such that and , a permuted version of , are statistically dependent with some known joint distribution, but have the same marginal distributions as the null. We characterize the thresholds at which optimal testing is information-theoretically impossible and possible, as a function of , , and some spectral properties of the generative distributions of the datasets. For example, we prove that if a certain function of the eigenvalues of the likelihood function and , is below a certain threshold, as , then weak detection (performing slightly better than random guessing) is statistically impossible, no matter what the value of is. This mimics the performance of an efficient test that thresholds a centered version of the log-likelihood function of the observed matrices. We also analyze the case where is fixed, for which we derive strong (vanishing error) and weak detection lower and upper bounds.
Keywords
Cite
@article{arxiv.2311.05874,
title = {Testing Dependency of Unlabeled Databases},
author = {Vered Paslev and Wasim Huleihel},
journal= {arXiv preprint arXiv:2311.05874},
year = {2023}
}
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39 pages