This project deals with the development, testing and deployment of models for multiple social networks, particularly those with conditionally independent ties. We develop methods for single networks, as well as for partial pooling across ensembles of networks, and explore both the influence of covariates and interventions, and the evolution of networks over time.

Data on multiple social networks arising from the same generative mechanisms, and evolving over time together, are becoming increasingly available in education research, public health and the social sciences. Our work provides new, clearly formulated methodology and models for this type of data, rather than treating each network separately or assuming that all come from exactly the same model. We are also developing R packages for fitting these models, that can be used by any researcher with multiple network data.

Our work elaborates, and explores the operating characteristics of, the Hierarchical Network Models (HNM) framework of Sweet, Thomas and Junker (2013), including the Hierarchical Latent Space Model and Hierarchical Mixed-Membership Stochastic Block Model for ensembles of networks. With this framework one can model and detect the effects of interventions and other covariates on the structure of social networks, by pooling information across ensembles of social networks (teachers’ professional networks across multiple school buildings, students’ peer networks across multiple geographic areas, etc.).

There are currently no projects for this lab group.

There are currently no publications for this lab group.