@article{Alotaibi2025, 
author = {Refah Alotaibi and Mazen Nassar and Zareen A. Khan and Wejdan Ali Alajlan and Ahmed Elshahhat},
title = {Entropy evaluation in inverse Weibull unified hybrid censored data with application to mechanical components and head-neck cancer patients},
year = {2025},
journal = {AIMS Mathematics},
volume = {10},
number = {1},
pages = {1085-1115},
keywords = {entropy, Monte Carlo simulation, Bayesian estimation, censored data, inverse Weibull, likelihood estimation, MCMC process},
url = {https://www.sciopen.com/article/10.3934/math.2025052},
doi = {10.3934/math.2025052},
abstract = {Entropy is a scientific term that finds applications in various domains, such as the laws of thermodynamics, where it was initially discovered, as well as statistical physics and information theory. We used unified hybrid censored data to investigate some inverse Weibull distribution entropy metrics. Entropy is defined using three measures: Rényi, Shannon, and Tsallis entropy. The classical estimates of the entropy measures were developed using the unified hybrid censored data, which included both point and approximation confidence intervals. The Bayesian method utilized the Markov Chain Monte Carlo sampling technique to develop Bayesian estimations. This was done by employing two loss functions, namely squared error and general entropy loss functions. Additionally, we delved into the investigation of Bayes credible intervals. Monte Carlo simulations were applied to explain how the estimates functioned at different sample sizes and censoring strategies via some accuracy criteria. Several observations were made in light of the simulation results. To provide a clear explanation of the offered methodologies, two applications using mechanical and cancer data sets were investigated.}
}