Bayesian estimation and prediction for the inverse weibull distribution under general progressive censoring |
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Authors: | Peng Xiuyun |
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Affiliation: | Department of Mathematics, Science College, Inner Mongolia University of Technology, Hohhot, Inner Mongolia, P. R. China |
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Abstract: | AbstractThis paper deals with Bayesian estimation and prediction for the inverse Weibull distribution with shape parameter α and scale parameter λ under general progressive censoring. We prove that the posterior conditional density functions of α and λ are both log-concave based on the assumption that λ has a gamma prior distribution and α follows a prior distribution with log-concave density. Then, we present the Gibbs sampling strategy to estimate under squared-error loss any function of the unknown parameter vector (α, λ) and find credible intervals, as well as to obtain prediction intervals for future order statistics. Monte Carlo simulations are given to compare the performance of Bayesian estimators derived via Gibbs sampling with the corresponding maximum likelihood estimators, and a real data analysis is discussed in order to illustrate the proposed procedure. Finally, we extend the developed methodology to other two-parameter distributions, including the Weibull, Burr type XII, and flexible Weibull distributions, and also to general progressive hybrid censoring. |
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Keywords: | Log-concave Gibbs sampling Two-sample prediction General progressive censoring General progressive hybrid censoring |
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