Arslan, TalhaYu, Keming2025-06-012025-06-0120251303-50102651-477X10.15672/hujms.15332052-s2.0-105005533327https://doi.org/10.15672/hujms.1533205https://search.trdizin.gov.tr/en/yayin/detay/1312347/the-unit-cauchy-quantile-regression-model-with-variates-observed-on-0-1-percentages-proportions-and-fractionsIn this study, a new parametric quantile regression model is introduced as an alterna- tive to the beta regression and Kumaraswamy quantile regression model. The proposed quantile regression model is obtained by reparametrization of the unit-Cauchy distribu- tion in terms of its quantiles. The model parameters are estimated using the maximum likelihood method. A Monte-Carlo simulation study is conducted to show the efficiency of the maximum likelihood estimation of the model parameters. The implementation of the proposed quantile regression model is shown by using real datasets. Quantile regression models based on unit-Weibull, unit generalized half normal, and unit Burr XII are also considered in the applications. The application results show that the proposed quantile regression model is preferable over its rivals when several comparison criteria are taken into account. In addition, the fitting plots indicate that the proposed quantile regression model fits extreme observations on the right tail better than its strong rivals, which is important in quantile regression modeling.eninfo:eu-repo/semantics/openAccessMaximum LikelihoodMonte-Carlo SimulationParametric ModelQuantile RegressionUnit-CauchyArticle542Q2Q36336551312347