JSM 2021 Online Program

Modeling responses on the nodes of a large-scale network is an important task that arises commonly in practice. This paper proposes a community network vector autoregressive (CNAR) model, which utilizes the network structure to characterize the dependence and intra-community homogeneity of the high-dimensional time series. The CNAR model is fundamentally different from the network vector autoregressive NAR (Zhu et al. 2017) model in that the CNAR is a population-level generative model while the NAR only utilizes a realized sample adjacency matrix. The CNAR model greatly increases the flexibility and generality of the NAR model by allowing heterogeneous network effects across different network communities. In addition, the non-community-related latent factors are included to account for unknown cross-sectional dependence. The number of network communities can diverge as the network expands, which leads to estimating a diverging number of model parameters. We obtain a set of stationary conditions and develop an efficient two-step weighted least-squares estimator. The consistency and asymptotic normality properties of the estimators are established.