A Doubly-Flexible Model Based on Generalized Gamma Frailty for Two-component Load-sharing Systems
Abstract
For two-component load-sharing systems, a doubly-flexible model is developed where the generalized Fruend bivariate (GFB) distribution is used for the baseline of the component lifetimes, and the generalized gamma (GG) family of distributions is used to incorporate a shared frailty that captures dependence between the component lifetimes. The proposed model structure results in a very general two-way class of models that enables a researcher to choose an appropriate model for a given two-component load-sharing data within the respective families of distributions. The GFB-GG model structure provides better fit to two-component load-sharing systems compared to existing models. Fitting methods for the proposed model, based on direct optimization and an expectation maximization (EM) type algorithm, are discussed. Through simulations, effectiveness of the fitting methods is demonstrated. Also, through simulations, it is shown that the proposed model serves the intended purpose of model choice for a given two-component load-sharing data. A simulation case, and analysis of a real dataset are presented to illustrate the strength of the proposed model.