APPLE: Approximate Path for Penalized Likelihood Estimators
Machine Learning
2013-05-07 v3 Machine Learning
Abstract
In high-dimensional data analysis, penalized likelihood estimators are shown to provide superior results in both variable selection and parameter estimation. A new algorithm, APPLE, is proposed for calculating the Approximate Path for Penalized Likelihood Estimators. Both the convex penalty (such as LASSO) and the nonconvex penalty (such as SCAD and MCP) cases are considered. The APPLE efficiently computes the solution path for the penalized likelihood estimator using a hybrid of the modified predictor-corrector method and the coordinate-descent algorithm. APPLE is compared with several well-known packages via simulation and analysis of two gene expression data sets.
Cite
@article{arxiv.1211.0889,
title = {APPLE: Approximate Path for Penalized Likelihood Estimators},
author = {Yi Yu and Yang Feng},
journal= {arXiv preprint arXiv:1211.0889},
year = {2013}
}
Comments
24 pages, 9 figures