Finite mixture copulas for modeling dependence in longitudinal count data

Dependence modeling of multivariate count data has been receiving a considerable attention in recent times. Multivariate elliptical copulas are typically preferred in statistical literature to analyze dependence between repeated measurements of longitudinal data since they allow for different choices of the correlation structure. But these copulas lack in flexibility to model dependence and inference is only feasible under parametric restrictions. In this article, we propose the use of finite mixture of elliptical copulas in order to capture complex and hidden temporal dependency of discrete longitudinal data. With guaranteed model identifiability, our approach permits to use different correlation matrices in each component of the mixture copula. We theoretically examine the dependence properties of finite mixture of copulas, before applying them for constructing regression models for count longitudinal data. The inference of the proposed class of models is based on composite likelihood approach and the finite sample performance of the parameter estimates are investigated through extensive simulation studies. For model validation, besides the standard techniques we extended the t-plot method to accommodate finite mixture of elliptical copulas. Finally, our models are applied to analyze the temporal dependency of two real world longitudinal data sets and shown to provide improvements if compared against standard elliptical copulas.