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Parametric modeling of quantile regression coefficient functions with count data

Paolo Frumento, Nicola Salvati

2021Statistical Methods & Applications13 citationsDOIOpen Access PDF

Abstract

Abstract Applying quantile regression to count data presents logical and practical complications which are usually solved by artificially smoothing the discrete response variable through jittering. In this paper, we present an alternative approach in which the quantile regression coefficients are modeled by means of (flexible) parametric functions. The proposed method avoids jittering and presents numerous advantages over standard quantile regression in terms of computation, smoothness, efficiency, and ease of interpretation. Estimation is carried out by minimizing a “simultaneous” version of the loss function of ordinary quantile regression. Simulation results show that the described estimators are similar to those obtained with jittering, but are often preferable in terms of bias and efficiency. To exemplify our approach and provide guidelines for model building, we analyze data from the US National Medical Expenditure Survey. All the necessary software is implemented in the existing R package .

Topics & Concepts

Quantile regressionEstimatorQuantileComputer scienceParametric statisticsCount dataSmoothingData miningStatisticsEconometricsMathematicsMachine learningPoisson distributionStatistical Methods and InferenceStatistical Methods and Bayesian InferenceAdvanced Statistical Methods and Models
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