Developing a ridge estimator for the gamma regression model

The ridge regression model has been consistently demonstrated to be an attractive shrinkage method to reduce the effects of multicollinearity. The gamma regression model is a very popular model in the application when the response variable is positively skewed. However, it is known that multicolline...

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Bibliographic Details
Published in:Journal of chemometrics 2018-10, Vol.32 (10), p.n/a
Main Author: Algamal, Zakariya Yahya
Format: Article
Language:English
Subjects:
Computer simulation
Economic models
gamma regression model
jackknife estimator
Maximum likelihood estimators
Monte Carlo simulation
multicollinearity
Regression coefficients
Regression models
ridge estimator
Shrinkage
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Summary:The ridge regression model has been consistently demonstrated to be an attractive shrinkage method to reduce the effects of multicollinearity. The gamma regression model is a very popular model in the application when the response variable is positively skewed. However, it is known that multicollinearity negatively affects the variance of maximum likelihood estimator of the gamma regression coefficients. To address this problem, a gamma ridge regression model has been proposed. In this study, a new estimator is developed by proposing a modification of Jackknife estimator with gamma ridge regression model. Our Monte Carlo simulation results and the real data application suggest that the proposed estimator can bring significant improvement relative to other competitor estimators, in absolute bias and mean squared error. This study deals with the problem of the presence of multicollinearity in regression modeling. The gamma regression model is a very popular model in the application when the response variable is positively skewed. In this study, a new estimator is developed by proposing a modification of Jackknife estimator with gamma ridge regression model. The simulation results and the real data application reveal that the proposed estimator can bring significant improvement relative to other competitor estimators, in absolute bias and mean squared error.
ISSN:0886-9383
1099-128X
DOI:10.1002/cem.3054