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A Practical Scheme and Fast Algorithm to Tune the Lasso With Optimality Guarantees

Michael Chichignoud, Johannes Lederer, Martin J. Wainwright; 17(229):1−20, 2016.

Abstract

We introduce a novel scheme for choosing the regularization parameter in high-dimensional linear regression with Lasso. This scheme, inspired by Lepski’s method for bandwidth selection in non-parametric regression, is equipped with both optimal finite-sample guarantees and a fast algorithm. In particular, for any design matrix such that the Lasso has low sup-norm error under an “oracle choice” of the regularization parameter, we show that our method matches the oracle performance up to a small constant factor, and show that it can be implemented by performing simple tests along a single Lasso path. By applying the Lasso to simulated and real data, we find that our novel scheme can be faster and more accurate than standard schemes such as Cross-Validation.

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