Estimation of stress-strength reliability for inverse exponentiated distributions with application

Purpose Inferences for multicomponent reliability is derived for a family of inverted exponentiated densities having common scale and different shape parameters. Design/methodology/approach Different estimates for multicomponent reliability is derived from frequentist viewpoint. Two bootstrap confidence intervals of this parametric function are also constructed. Findings Form a Monte-Carlo simulation study, the authors find that estimates obtained from maximum product spacing and Right-tail Anderson-Darling procedures provide better point and interval estimates of the reliability. Also the maximum likelihood estimate competes good with these estimates. Originality/value In literature several distributions are introduced and studied in lifetime analysis. Among others, exponentiated distributions have found wide applications in such studies. In this regard the authors obtain various frequentist estimates for the multicomponent reliability by considering inverted exponentiated distributions.