Abstract
We define a new four-parameter model called the odd log-logistic generalized inverse Gaussian distribution which extends the generalized inverse Gaussian and inverse Gaussian distributions. We obtain some structural properties of the new distribution. We construct an extended regression model based on this distribution with two systematic structures, which can provide more realistic fits to real data than other special regression models. We adopt the method of maximum likelihood to estimate the model parameters. In addition, various simulations are performed for different parameter settings and sample sizes to check the accuracy of the maximum likelihood estimators. We provide a diagnostics analysis based on case-deletion and quantile residuals. Finally, the potentiality of the new regression model to predict price of urban property is illustrated by means of real data.
Highlights
The inverse Gaussian (IG) distribution is widely used in several research areas, such as life-time analysis, reliability, meteorology and hydrology, engineering, and medicine
Koudou [8] presented a survey about its characterizations and Lemonte and Cordeiro [9] obtained some mathematical properties of the exponentiated generalized inverse Gaussian (EGIG) distribution
We study a new four-parameter model named the odd log-logistic generalized inverse Gaussian (OLLGIG) distribution which contains as special cases the GIG and IG distributions, among others
Summary
The inverse Gaussian (IG) distribution is widely used in several research areas, such as life-time analysis, reliability, meteorology and hydrology, engineering, and medicine. We study a new four-parameter model named the odd log-logistic generalized inverse Gaussian (OLLGIG) distribution which contains as special cases the GIG and IG distributions, among others. We obtain some mathematical properties and discuss maximum likelihood estimation of the parameters For these models, we presented some ways to perform global influence (case-deletion) and, we developed residual analysis based on the quantile residual. For different parameter settings and sample sizes, various simulation studies were performed and the empirical distribution of quantile residual was displayed and compared with the standard normal distribution.
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