Litcius/Paper detail

Inference for reliability in a multicomponent stress-strength model from generalized inverted exponential lifetime distribution under progressive first failure censoring

Anita Kumari, Shrawan Kumar, Kapil Kumar

2022Journal of Statistical Computation and Simulation18 citationsDOI

Abstract

This article considers the non-Bayesian and Bayesian estimation procedures for multicomponent stress-strength reliability (MSSR) from generalized inverted exponential lifetime distributions using a progressively first failure censoring scheme. For the non-Bayesian estimation method of MSSR, the maximum likelihood estimation method is used, and for the Bayesian estimation method, the Metropolis-Hastings algorithm is taken into account. Also, the highest posterior density credible interval and the asymptotic confidence interval for MSSR in the case of Bayesian and non-Bayesian estimation methods, respectively, are obtained. A Monte Carlo numerical study is conducted to compare different types of estimates. For illustrative purposes, a real data analysis is carried out.

Topics & Concepts

Censoring (clinical trials)MathematicsInterval estimationExponential distributionStatisticsBayesian probabilityBayesian inferenceCredible intervalBayes estimatorStatistical inferenceApplied mathematicsConfidence intervalExponential functionMonte Carlo methodMathematical analysisStatistical Distribution Estimation and ApplicationsProbabilistic and Robust Engineering DesignReliability and Maintenance Optimization