A Bayesian Approach to Multilevel Structural Equation Modeling With Continuous and Dichotomous Outcomes |
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| Authors: | Sarah Depaoli James P Clifton |
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| Institution: | 1. University of California, Mercedsdepaoli@ucmerced.edu;3. University of California, Merced |
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| Abstract: | Multilevel Structural equation models are most often estimated from a frequentist framework via maximum likelihood. However, as shown in this article, frequentist results are not always accurate. Alternatively, one can apply a Bayesian approach using Markov chain Monte Carlo estimation methods. This simulation study compared estimation quality using Bayesian and frequentist approaches in the context of a multilevel latent covariate model. Continuous and dichotomous variables were examined because it is not yet known how different types of outcomes—most notably categorical—affect parameter recovery in this modeling context. Within the Bayesian estimation framework, the impact of diffuse, weakly informative, and informative prior distributions were compared. Findings indicated that Bayesian estimation may be used to overcome convergence problems and improve parameter estimate bias. Results highlight the differences in estimation quality between dichotomous and continuous variable models and the importance of prior distribution choice for cluster-level random effects. |
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| Keywords: | Bayesian estimation multilevel modeling structural equation modeling |
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