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Autores principales: Kim, Mingang, Kaplan, Brent A., Koffarnus, Mikhail N., Franck, Christopher T.
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2509.13167
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author Kim, Mingang
Kaplan, Brent A.
Koffarnus, Mikhail N.
Franck, Christopher T.
author_facet Kim, Mingang
Kaplan, Brent A.
Koffarnus, Mikhail N.
Franck, Christopher T.
contents Beta regression is frequently used when the outcome variable y is bounded within a specific interval, transformed to the (0, 1) domain if necessary. However, standard beta regression cannot handle data observed at the boundary values of 0 or 1, as the likelihood function takes on values of either 0 or infinity. To address this issue, we propose the Scale-Location-Truncated beta (SLTB) regression model, which extends the beta distribution's domain to the [0, 1] interval. By using scale-location transformation and truncation, SLTB distribution allows positive finite mass to the boundary values, offering a flexible approach for handling values at 0 and 1. In this paper, we demonstrate the effectiveness of the SLTB regression model in comparison to standard beta regression models and other approaches like the Zero-One Inflated Beta (ZOIB) mixture model and XBX regression. Using empirical and simulated data, we compare the performance including predictive accuracy of the SLTB regression model with other methods, particularly in cases with observed boundary data values for y. The SLTB model is shown to offer great flexibility, supporting both linear and nonlinear relationships. Additionally, we implement the SLTB model within maximum likelihood and Bayesian frameworks, employing both hierarchical and non-hierarchical models. These comprehensive implementations demonstrate the broad applicability of SLTB model for modeling data with bounded values in a variety of contexts.
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spellingShingle Scale-Location-Truncated Beta Regression: Expanding Beta Regression to Accommodate 0 and 1
Kim, Mingang
Kaplan, Brent A.
Koffarnus, Mikhail N.
Franck, Christopher T.
Methodology
Beta regression is frequently used when the outcome variable y is bounded within a specific interval, transformed to the (0, 1) domain if necessary. However, standard beta regression cannot handle data observed at the boundary values of 0 or 1, as the likelihood function takes on values of either 0 or infinity. To address this issue, we propose the Scale-Location-Truncated beta (SLTB) regression model, which extends the beta distribution's domain to the [0, 1] interval. By using scale-location transformation and truncation, SLTB distribution allows positive finite mass to the boundary values, offering a flexible approach for handling values at 0 and 1. In this paper, we demonstrate the effectiveness of the SLTB regression model in comparison to standard beta regression models and other approaches like the Zero-One Inflated Beta (ZOIB) mixture model and XBX regression. Using empirical and simulated data, we compare the performance including predictive accuracy of the SLTB regression model with other methods, particularly in cases with observed boundary data values for y. The SLTB model is shown to offer great flexibility, supporting both linear and nonlinear relationships. Additionally, we implement the SLTB model within maximum likelihood and Bayesian frameworks, employing both hierarchical and non-hierarchical models. These comprehensive implementations demonstrate the broad applicability of SLTB model for modeling data with bounded values in a variety of contexts.
title Scale-Location-Truncated Beta Regression: Expanding Beta Regression to Accommodate 0 and 1
topic Methodology
url https://arxiv.org/abs/2509.13167