Robust quantile regression using a generalized class of skewed distributions.

Autor:	Galarza Morales, Christian, Lachos Davila, Victor, Barbosa Cabral, Celso, Castro Cepero, Luis
Předmět:	SKEWNESS (Probability theory) QUANTILE regression REGRESSION analysis GAUSSIAN distribution DISTRIBUTION (Probability theory)
Zdroj:	Stat; 2017, Vol. 6 Issue 1, p113-130, 18p
Abstrakt:	It is well known that the widely popular mean regression model could be inadequate if the probability distribution of the observed responses do not follow a symmetric distribution. To deal with this situation, the quantile regression turns to be a more robust alternative for accommodating outliers and the misspecification of the error distribution because it characterizes the entire conditional distribution of the outcome variable. This paper presents a likelihood-based approach for the estimation of the regression quantiles based on a new family of skewed distributions. This family includes the skewed version of normal, Student- t, Laplace, contaminated normal and slash distribution, all with the zero quantile property for the error term and with a convenient and novel stochastic representation that facilitates the implementation of the expectation-maximization algorithm for maximum likelihood estimation of the pth quantile regression parameters. We evaluate the performance of the proposed expectation-maximization algorithm and the asymptotic properties of the maximum likelihood estimates through empirical experiments and application to a real-life dataset. The algorithm is implemented in the R package lqr, providing full estimation and inference for the parameters as well as simulation envelope plots useful for assessing the goodness of fit. Copyright © 2017 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]
Databáze:	Complementary Index
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