Statistical Inference for Multicomponent System Stress-Strength Model with Bounded Strengths

In this paper,the statistical inference for system stress-strength reliability with bounded strength is discussed.When the stress and strength variables follow the three-parameter Exponentiated-Weibull distributions with unequal scale and shape parameters,the maximum likelihood estimator(MLE)and bootstrap-p confidence interval for system reliability are derived.In addition,combining the score equations which are got by taking the first derivative of the log-likelihood function with respect to the model parameters,the modified generalized pivotal quantity for the system reliability is obtained.After that,two point estimators and a modified generalized confidence interval based on the modified generalized pivotal quantity for the system reliability are derived.Monte Carlo simulations are performed to compare the performances of the proposed point estimators and confidence intervals.Finally,a real data analysis is provided to illustrate the proposed procedures.