This OSF page provides all the materials to replicate the analyses for the paper: - Ten Hove, D., Jorgensen, T. D., & van der Ark, L. A. (in press). Interrater reliability for interdependent social network data: A generalizability theory approach. *Multivariate Behavioral Research*. https://doi.org/10.1080/00273171.2024.2444940 ## Folder structure - **Simulation**: This folder contains all software code to replicate the simulation study. - **Example**: This folder contains all software code to replicate the empirical example. ## Abstract from the manuscript We propose interrater reliability coefficients for observational interdependent social network data, which are dyadic data from a network of interacting subjects that are observed by external raters. Using the social relations model, dyadic scores of subjects' behaviors during these interactions can be decomposed into actor, partner, and relationship effects. These effects constitute different facets of theoretical interest about which researchers formulate research questions. Based on generalizability theory, we extended the social relations model with rater effects, resulting in a model that decomposes the variance of dyadic observational data into effects of actors, partners, relationships, raters, and their statistical interactions. We used the variances of these effects to define intraclass correlation coefficients (ICCs) that indicate the extent the actor, partner, and relationship effects can be generalized across external raters. We proposed Markov chain Monte Carlo estimation of a Bayesian hierarchical linear model to estimate the ICCs, and tested their bias and coverage in a simulation study. The method is illustrated using data on social mimicry.