Dries F. Benoit scite author profile

Recently, variable selection by penalized likelihood has attracted much research interest. In this paper, we propose adaptive Lasso quantile regression (BALQR) from a Bayesian perspective. The method extends the Bayesian Lasso quantile regression by allowing different penalization parameters for different regression coefficients. Inverse gamma prior distributions are placed on the penalty parameters. We treat the hyperparameters of the inverse gamma prior as unknowns and estimate them along with the other parameters. A Gibbs sampler is developed to simulate the parameters from the posterior distributions. Through simulation studies and analysis of a prostate cancer data set, we compare the performance of the BALQR method proposed with six existing Bayesian and non-Bayesian methods. The simulation studies and the prostate cancer data analysis indicate that the BALQR method performs well in comparision to the other approaches.

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Binary quantile regression: a Bayesian approach based on the asymmetric Laplace distribution

Benoit

Poel

2010

J of Applied Econometrics

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SUMMARY This paper develops a Bayesian method for quantile regression for dichotomous response data. The frequentist approach to this type of regression has proven problematic in both optimizing the objective function and making inferences on the parameters. By accepting additional distributional assumptions on the error terms, the Bayesian method proposed sets the problem in a parametric framework in which these problems are avoided. To test the applicability of the method, we ran two Monte Carlo experiments and applied it to Horowitz's (1993) often studied work‐trip mode choice dataset. Compared to previous estimates for the latter dataset, the method proposed leads to a different economic interpretation. Copyright © 2010 John Wiley & Sons, Ltd.

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bayesQR: A Bayesian Approach to Quantile Regression

Benoit¹,

Poel²

2017

J. Stat. Soft.

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After its introduction by Koenker and Basset (1978), quantile regression has become an important and popular tool to investigate the conditional response distribution in regression. The R package bayesQR contains a number of routines to estimate quantile regression parameters using a Bayesian approach based on the asymmetric Laplace distribution. The package contains functions for the typical quantile regression with continuous dependent variable, but also supports quantile regression for binary dependent variables. For both types of dependent variables, an approach to variable selection using the adaptive lasso approach is provided. For the binary quantile regression model, the package also contains a routine that calculates the fitted probabilities for each vector of predictors. In addition, functions for summarizing the results, creating traceplots, posterior histograms and drawing quantile plots are included. This paper starts with a brief overview of the theoretical background of the models used in the bayesQR package. The main part of this paper discusses the computational problems that arise in the implementation of the procedure and illustrates the usefulness of the package through selected examples.

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Predicting student dropout in subscription-based online learning environments: The beneficial impact of the logit leaf model

Coussement

Phan

Caigny

et al. 2020

Decision Support Systems

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Benefits of quantile regression for the analysis of customer lifetime value in a contractual setting: An application in financial services

Benoit

Poel

2009

Expert Systems with Applications

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Dries F. Benoit

Bayesian adaptive Lasso quantile regression

Binary quantile regression: a Bayesian approach based on the asymmetric Laplace distribution

bayesQR: A Bayesian Approach to Quantile Regression

Predicting student dropout in subscription-based online learning environments: The beneficial impact of the logit leaf model

Benefits of quantile regression for the analysis of customer lifetime value in a contractual setting: An application in financial services

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