The Odd Log-Logistic Geometric Normal Regression Model with Applications

IF 0.5 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Advances in Data Science and Adaptive Analysis Pub Date : 2019-07-02 DOI:10.1142/S2424922X19500037

F. Prataviera, G. Cordeiro, E. Ortega, A. K. Suzuki

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引用次数: 1

Abstract

In several applications, the distribution of the data is frequently unimodal, asymmetric or bimodal. The regression models commonly used for applications to data with real support are the normal, skew normal, beta normal and gamma normal, among others. We define a new regression model based on the odd log-logistic geometric normal distribution for modeling asymmetric or bimodal data with support in [Formula: see text], which generalizes some known regression models including the widely known heteroscedastic linear regression. We adopt the maximum likelihood method for estimating the model parameters and define diagnostic measures to detect influential observations. For some parameter settings, sample sizes and different systematic structures, various simulations are performed to verify the adequacy of the estimators of the model parameters. The empirical distribution of the quantile residuals is investigated and compared with the standard normal distribution. We prove empirically the usefulness of the proposed models by means of three applications to real data.

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奇对数-逻辑几何正态回归模型及其应用

在一些应用中，数据的分布经常是单峰的、不对称的或双峰的。对于具有实际支持的数据应用程序，通常使用的回归模型包括正态、偏态、beta正态和gamma正态等。我们定义了一种新的基于奇对数-逻辑几何正态分布的回归模型，用于非对称或双峰数据的建模，并得到了[公式:见文本]的支持，它推广了一些已知的回归模型，包括广为人知的异方差线性回归。我们采用极大似然法来估计模型参数，并定义诊断措施来检测有影响的观测值。对于某些参数设置、样本大小和不同的系统结构，进行了各种模拟以验证模型参数估计量的充分性。研究了分位数残差的经验分布，并与标准正态分布进行了比较。我们通过三个实际数据的应用，从经验上证明了所提出模型的有效性。

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Advances in Data Science and Adaptive Analysis MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

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