10.1184/R1/6586388.v1 Richard Lockhart Richard Lockhart Jonathan Taylor Jonathan Taylor Ryan Tibshirani Ryan Tibshirani Robert Tibshirani Robert Tibshirani A significance test for the lasso Carnegie Mellon University 2007 lasso least angle regression significance test 2007-06-01 00:00:00 Journal contribution https://kilthub.cmu.edu/articles/journal_contribution/A_significance_test_for_the_lasso/6586388 <p>In the sparse linear regression setting, we consider testing the significance of the predictor variable that enters the current lasso model, in the sequence of models visited along the lasso solution path. We propose a simple test statistic based on lasso fitted values, called the <em>it covariance test statistic</em>, and show that when the true model is linear, this statistic has an Exp(1) asymptotic distribution under the null hypothesis (the null being that all truly active variables are contained in the current lasso model). Our proof of this result assumes some (reasonable) regularity conditions on the predictor matrix $X$, and covers the important high-dimensional case p>n.</p> <p>Of course, for testing the significance of an additional variable between two nested linear models, one may use the usual chi-squared test, comparing the drop in residual sum of squares (RSS) to a x2_1 distribution. But when this additional variable is not fixed, but has been chosen adaptively or greedily, this test is no longer appropriate: adaptivity makes the drop in RSS stochastically much larger than X^2_1 under the null hypothesis. Our analysis explicitly accounts for adaptivity, as it must, since the lasso builds an adaptive sequence of linear models as the tuning parameter λ decreases. In this analysis, shrinkage plays a key role: though additional variables are chosen adaptively, the coefficients of lasso active variables are shrunken due to the ℓ<sub>1</sub> penalty. Therefore the test statistic (which is based on lasso fitted values) is in a sense balanced by these two opposing properties---adaptivity and shrinkage---and its null distribution is tractable and asymptotically Exp(1).</p>