Litcius/Paper detail

Parametric inference on partially accelerated life testing for the inverted Kumaraswamy distribution based on Type-II progressive censoring data

Manal M. Yousef, Rehab Alsultan, Said G. Nassr

2022Mathematical Biosciences & Engineering26 citationsDOIOpen Access PDF

Abstract

This article discusses the problem of estimation with step stress partially accelerated life tests using Type-II progressively censored samples. The lifetime of items under use condition follows the two-parameters inverted Kumaraswamy distribution. The maximum likelihood estimates for the unknown parameters are computed numerically. Using the property of asymptotic distributions for maximum likelihood estimation, we constructed asymptotic interval estimates. The Bayes procedure is used to calculate estimates of the unknown parameters from symmetrical and asymmetric loss functions. The Bayes estimates cannot be obtained explicitly, therefor the Lindley's approximation and the Markov chain Monte Carlo technique are used to obtaining the Bayes estimates. Furthermore, the highest posterior density credible intervals for the unknown parameters are calculated. An example is presented to illustrate the methods of inference. Finally, a numerical example of March precipitation (in inches) in Minneapolis failure times in the real world is provided to illustrate how the approaches will perform in practice.

Topics & Concepts

Censoring (clinical trials)MathematicsBayes' theoremApplied mathematicsInferenceStatisticsParametric statisticsMarkov chain Monte CarloInterval estimationMonte Carlo methodBayesian probabilityConfidence intervalComputer scienceArtificial intelligenceStatistical Distribution Estimation and ApplicationsProbabilistic and Robust Engineering DesignReliability and Maintenance Optimization