Abstract
AbstractIn this paper, inferential procedures based on classical and Bayesian framework for the Kumaraswamy distribution under random censoring model are studied. We first propose estimators for the distribution parameters, reliability function, failure rate function, and Mean time to system failure based on the maximum likelihood estimation method. Then, we calculate asymptotic confidence intervals for the parameters based on the observed Fisher’s information matrix. Also, for the parameters and reliability characteristics, Bayesian estimates are derived using the importance sampling and Gibbs sampling procedures. Highest posterior density credible intervals for the parameters are constructed using Markov Chain Monte Carlo method. Expected time on test of experiment with random censoring is also calculated. A simulation study is conducted to compare the efficiency of the derived estimates. Finally, the analysis of a real data set is presented for the illustration purpose.
Publisher
Springer Science and Business Media LLC
Reference50 articles.
1. Abo-Kasem, O.E., El Saeed, A.R., El Sayed, A.I.: Optimal sampling and statistical inferences for Kumaraswamy distribution under progressive Type-II censoring schemes. Sci. Rep. 13(1), 12063 (2023)
2. Ajmal, M., Danish, M.Y., Arshad, I.A.: Objective Bayesian analysis for Weibull distribution with application to random censorship model. J. Stat. Comput. Simul. 22(1), 43–59 (2022)
3. Akaike, H.: A new look at the statistical models identification. IEEE Trans. Autom. Control 19(6), 716–723 (1974)
4. Aslam, M., Afzaal, M., Bhatti, M.I.: A study on exponentiated Gompertz distribution under Bayesian discipline using informative priors. Stat. Transit. New Ser. 22(4), 101–119 (2021)
5. Basit, Z., Bhatti, M.I.: Efficient classes of estimators of population variance in two-phase successive sampling under random non-response. Statistica 82(2), 177–198 (2022)
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