Classical and Bayesian inference for the Kavya–Manoharan generalized exponential distribution under generalized progressively hybrid censored data
Symmetry, 2023•mdpi.com
This manuscript focuses on the statistical inference of the Kavya–Manoharan generalized
exponential distribution under the generalized type-I progressive hybrid censoring sample
(GTI-PHCS). Different classical approaches of estimation, such as maximum likelihood, the
maximum product of spacing, least squares (LS), weighted LS, and percentiles under GTI-
PHCS, are investigated. Based on the squared error and linear exponential loss functions,
the Bayes estimates for the unknown parameters utilizing separate gamma priors under GTI …
exponential distribution under the generalized type-I progressive hybrid censoring sample
(GTI-PHCS). Different classical approaches of estimation, such as maximum likelihood, the
maximum product of spacing, least squares (LS), weighted LS, and percentiles under GTI-
PHCS, are investigated. Based on the squared error and linear exponential loss functions,
the Bayes estimates for the unknown parameters utilizing separate gamma priors under GTI …
This manuscript focuses on the statistical inference of the Kavya–Manoharan generalized exponential distribution under the generalized type-I progressive hybrid censoring sample (GTI-PHCS). Different classical approaches of estimation, such as maximum likelihood, the maximum product of spacing, least squares (LS), weighted LS, and percentiles under GTI-PHCS, are investigated. Based on the squared error and linear exponential loss functions, the Bayes estimates for the unknown parameters utilizing separate gamma priors under GTI-PHCS have been derived. Point and interval estimates of unknown parameters are developed. We carry out a simulation using the Monte Carlo algorithm to show the performance of the inferential procedures. Finally, real-world data collection is examined for illustration purposes.
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