Pearson Chi-squared Conditional Randomization Test
Conditional independence (CI) testing arises naturally in many scientific problems and applications domains. The goal of this problem is to investigate the conditional independence between a response variable Y and another variable X, while controlling for the effect of a high-dimensional confounding variable Z. In this paper, we introduce a novel test, called `Pearson Chi-squared Conditional Randomization' (PCR) test, which uses the distributional information on covariates X,Z and constructs randomizations to test conditional independence. Our proposal is motivated by some of the hard alternatives for the vanilla conditional randomization test (Candès et al., 2018). We also provide a power analysis of the PCR test, which captures the effect of various parameters of the test, the sample size and the distance of the alternative from the set of null distributions, measured in terms of a notion called `conditional relative density'. In addition, we propose two extensions of the PCR test, with important practical implications: (i) parameter-free PCR, which uses Bonferroni's correction to decide on a tuning parameter in the test; (ii) robust PCR, which avoids inflations in the size of the test when there is slight error in estimating the conditional law P_X|Z.
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