Statistical Inference for the Marshall-Olkin Extended Modified Inverse Rayleigh Distribution Under Adaptive Type-II Progressive Censoring

Authors

Mahmoud MansourFollow
N. A. Mokhlis Prof., Department of Mathematics, Faculty of Science, Ain Shams UniversityThe institution will open in a new tab, Cairo, 11566, EgyptFollow
K. Hisham Mr, Department of Mathematics, Faculty of Science, Ain Shams UniversityThe institution will open in a new tab, Cairo, 11566, EgyptFollow

Document Type

Article

Publication Date

Fall 11-1-2025

Abstract

The Marshall-Olkin extended modified inverse Rayleigh (MOEMIR) distribution, a new extension of the modified inverse Rayleigh (MIR) distribution, is introduced as a member of a proposed Marshall-Olkin extended general inverse exponential (MOEGIE) family. This extension offers enhanced flexibility for modeling lifetime data. Statistical properties of the MOEGIE family are presented, and hence those of the MOEMIR distribution. Parameter estimation for the MOEMIR distribution is discussed under an adaptive Type-II progressive censoring scheme involving discrete uniformly distributed random removals. The parameters of the MOEMIR distribution are estimated using both maximum likelihood and Bayesian methods. The Bayesian estimation is refined under symmetric squared error loss (SEL) and asymmetric linear exponential loss (LINEX) functions, using a Metropolis-Hastings (M-H) sampling method of the Markov chain Monte Carlo (MCMC) technique. A simulation study is performed to highlight the obtained theoretical results. Finally, the utility of the MOEMIR distribution is demonstrated using a real-world dataset involving the remission times of patients with bladder cancer.

Recommended Citation

Mansour, Mahmoud; Mokhlis, N. A. Prof.; and Hisham, K. Mr, "Statistical Inference for the Marshall-Olkin Extended Modified Inverse Rayleigh Distribution Under Adaptive Type-II Progressive Censoring" (2025). Basic Science Engineering. 199.
https://buescholar.bue.edu.eg/basic_sci_eng/199