English

Confidence Intervals and Hypothesis Testing for High-Dimensional Regression

Methodology 2014-04-03 v2 Information Theory Machine Learning math.IT

Abstract

Fitting high-dimensional statistical models often requires the use of non-linear parameter estimation procedures. As a consequence, it is generally impossible to obtain an exact characterization of the probability distribution of the parameter estimates. This in turn implies that it is extremely challenging to quantify the \emph{uncertainty} associated with a certain parameter estimate. Concretely, no commonly accepted procedure exists for computing classical measures of uncertainty and statistical significance as confidence intervals or pp-values for these models. We consider here high-dimensional linear regression problem, and propose an efficient algorithm for constructing confidence intervals and pp-values. The resulting confidence intervals have nearly optimal size. When testing for the null hypothesis that a certain parameter is vanishing, our method has nearly optimal power. Our approach is based on constructing a `de-biased' version of regularized M-estimators. The new construction improves over recent work in the field in that it does not assume a special structure on the design matrix. We test our method on synthetic data and a high-throughput genomic data set about riboflavin production rate.

Keywords

Cite

@article{arxiv.1306.3171,
  title  = {Confidence Intervals and Hypothesis Testing for High-Dimensional Regression},
  author = {Adel Javanmard and Andrea Montanari},
  journal= {arXiv preprint arXiv:1306.3171},
  year   = {2014}
}

Comments

40 pages, 4 pdf figures

R2 v1 2026-06-22T00:33:27.012Z