Bayesian Estimation and Testing of Structural Equation Models
Copyright policy )Bayesian Estimation and Testing of Structural Equation Models
The Gibbs sampler can be used to obtain samples of arbitrary size from the posterior distribution over the parameters of a structural equation model (SEM) given covariance data and a prior distribution over the parameters. Point estimates, standard deviations and interval estimates for the parameters can be computed from these samples. If the prior distribution over the parameters is uninformative, the posterior is proportional to the likelihood, and asymptotically the inferences based on the Gibbs sample are the same as those based on the maximum likelihood solution, for example, output from LISREL or EQS. In small samples, however, the likelihood surface is not Gaussian and in some cases contains local maxima. Nevertheless, the Gibbs sample comes from the correct posterior distribution over the parameters regardless of the sample size and the shape of the likelihood surface. With an informative prior distribution over the parameters, the posterior can be used to make inferences about the parameters underidentified models, as we illustrate on a simple errors-in-variables model.
- University of Groningen Netherlands
- Utrecht University Netherlands
- Carnegie Mellon University United States
- University Museum Utrecht Netherlands
Bayesian inference, posterior predictive p-values, COVARIANCE STRUCTURE-ANALYSIS, posterior predictive \(p\)-values, ERRORS, FOS: Philosophy, ethics and religion, Philosophy not elsewhere classified, TEST STATISTICS, LEAD, structural equation models, Philosophy, MONTE-CARLO, Gibbs sampler, DISTRIBUTIONS, GIBBS SAMPLER, Overige Sociale Wetenschappen/Bestuurskunde (OSOC), Applications of statistics to psychology
Bayesian inference, posterior predictive p-values, COVARIANCE STRUCTURE-ANALYSIS, posterior predictive \(p\)-values, ERRORS, FOS: Philosophy, ethics and religion, Philosophy not elsewhere classified, TEST STATISTICS, LEAD, structural equation models, Philosophy, MONTE-CARLO, Gibbs sampler, DISTRIBUTIONS, GIBBS SAMPLER, Overige Sociale Wetenschappen/Bestuurskunde (OSOC), Applications of statistics to psychology
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