Bayesian inference of Unit Gompertz distribution based on dual generalized order statistics
Date
2021-06-28Author
Arshad, Mohd.
J. Azhad, Qazi
Gupta, Neetu
Pathak, Ashok Kumar
Metadata
Show full item recordAbstract
In this article, we consider the estimation problem of Unit Gompertz distribution with parameters ? and ? under the framework of dual generalized order statistics. This article is purely devoted to present the Bayesian view of estimation of Unit Gompertz distribution. For this purpose, we consider two widely popular approximation methods called Markov chain Monte Carlo and Lindley approximation methods. The results are derived under the symmetric (squared error) and asymmetric (Linear exponential and General entropy) loss functions. Since the order statistics and lower record values are the particular cases of the dual generalized order statistics, a simulation study is provided for order statistics and lower record values to observe the behavior of estimators. The average lengths of highest posterior density intervals of ?, ?, and R(t) are calculated for 95% confidence coefficient. Finally, real data applications are reported for lower record values and order statistics, separately, to show the practical aspects of the derived results. � 2021 Taylor & Francis Group, LLC.
Journal
Communications in Statistics: Simulation and Computation
Access Type
Closed Access