Controlling False Discovery Rate Using Gaussian Mirrors

11/21/2019

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Simultaneously finding multiple influential variables and controlling the false discovery rate (FDR) for linear regression models is a fundamental problem with a long history. We here propose the Gaussian Mirror (GM) method, which creates for each predictor variable a pair of mirror variables by adding and subtracting a randomly generated Gaussian random variable, and proceeds with a certain regression method, such as the ordinary least-square or the Lasso. The mirror variables naturally lead to a test statistic highly effective for controlling the FDR. Under a weak dependence assumption, we show that the FDR can be controlled at a user-specified level asymptotically. It is shown that the GM method is more powerful than many existing methods in selecting important variables, subject to the control of FDR especially under the case when high correlations among the covariates exist.

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Controlling False Discovery Rate Using Gaussian Mirrors

Adjusting the Benjamini-Hochberg method for controlling the false discovery rate in knockoff assisted variable selection

On the testing of multiple hypothesis in sliced inverse regression

Directional FDR Control for Sub-Gaussian Sparse GLMs

Improving knockoffs with conditional calibration

Whiteout: when do fixed-X knockoffs fail?

Controlling for multiple covariates

ECKO: Ensemble of Clustered Knockoffs for multivariate inference on fMRI data

Controlling False Discovery Rate Using Gaussian Mirrors

Related Research

Adjusting the Benjamini-Hochberg method for controlling the false discovery rate in knockoff assisted variable selection

On the testing of multiple hypothesis in sliced inverse regression

Directional FDR Control for Sub-Gaussian Sparse GLMs

Improving knockoffs with conditional calibration

Whiteout: when do fixed-X knockoffs fail?

Controlling for multiple covariates

ECKO: Ensemble of Clustered Knockoffs for multivariate inference on fMRI data