Bayesian Analysis of Dynamic Cumulative Residual Entropy for Lindley Distribution |
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| Authors: | Abdullah M Almarashi Ali Algarni Amal S Hassan Ahmed N Zaky Mohammed Elgarhy |
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| Institution: | 1.Statistics Department, Faculty of Science, King Abdulaziz University, Jeddah 21551, Saudi Arabia; (A.M.A.); (A.A.);2.Faculty of Graduate Studies for Statistical Research, Cairo University, Giza 12613, Egypt;3.Institute of National Planning, Cairo 11765, Egypt;4.The Higher Institute of Commercial Sciences, Al Mahalla Al Kubra, Algarbia 31951, Egypt |
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| Abstract: | Dynamic cumulative residual (DCR) entropy is a valuable randomness metric that may be used in survival analysis. The Bayesian estimator of the DCR Rényi entropy (DCRRéE) for the Lindley distribution using the gamma prior is discussed in this article. Using a number of selective loss functions, the Bayesian estimator and the Bayesian credible interval are calculated. In order to compare the theoretical results, a Monte Carlo simulation experiment is proposed. Generally, we note that for a small true value of the DCRRéE, the Bayesian estimates under the linear exponential loss function are favorable compared to the others based on this simulation study. Furthermore, for large true values of the DCRRéE, the Bayesian estimate under the precautionary loss function is more suitable than the others. The Bayesian estimates of the DCRRéE work well when increasing the sample size. Real-world data is evaluated for further clarification, allowing the theoretical results to be validated. |
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| Keywords: | Ré nyi entropy Lindley distribution Bayesian estimators squared error loss function |
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