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A Unified Algorithm for Penalized Convolution Smoothed Quantile Regression

Rebeka Man, Xiaoou Pan, Kean Ming Tan, Wen‐Xin Zhou

2023Journal of Computational and Graphical Statistics19 citationsDOI

Abstract

Penalized quantile regression (QR) is widely used for studying the relationship between a response variable and a set of predictors under data heterogeneity in high-dimensional settings. Compared to penalized least squares, scalable algorithms for fitting penalized QR are lacking due to the non-differentiable piecewise linear loss function. To overcome the lack of smoothness, a recently proposed convolution-type smoothed method brings an interesting tradeoff between statistical accuracy and computational efficiency for both standard and penalized quantile regressions. In this article, we propose a unified algorithm for fitting penalized convolution smoothed quantile regression with various commonly used convex penalties, accompanied by an R-language package conquer available from the Comprehensive R Archive Network. We perform extensive numerical studies to demonstrate the superior performance of the proposed algorithm over existing methods in both statistical and computational aspects. We further exemplify the proposed algorithm by fitting a fused lasso additive QR model on the world happiness data.

Topics & Concepts

AlgorithmLasso (programming language)QuantileSmoothnessConvolution (computer science)MathematicsQuantile regressionComputer scienceMathematical optimizationArtificial intelligenceStatisticsArtificial neural networkWorld Wide WebMathematical analysisStatistical Methods and InferenceAdvanced Statistical Methods and ModelsStatistical Methods and Bayesian Inference