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Application of Gibbs Sampling to Nested Variance Components Models With Heterogeneous Within-Group Variance

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  • Rafa M. Kasim
  • Stephen W. Raudenbush

Abstract

Bayesian analysis of hierarchically structured data with random intercept and heterogeneous within-group (Level-1) variance is presented. Inferences about all parameters, including the Level-1 variance and intercept for each group, are based on their marginal posterior distributions approximated via the Gibbs sampler Analysis of artificial data with varying degrees of heterogeneity and varying Level-2 sample sizes illustrates the likely benefits of using a Bayesian approach to model heterogeneity of variance (Bayes/Het). Results are compared to those based on now-standard restricted maximum likelihood with homogeneous Level-1 variance (RML/Hom). Bayes/Het provides sensible interval estimates for Level-1 variances and their heterogeneity, and, relatedly, for each group’s intercept. RML/Hom inferences about Level-2 regression coefficients appear surprisingly robust to heterogeneity, and conditions under which such robustness can be expected are discussed. Application is illustrated in a reanalysis of High School and Beyond data. It appears informative and practically feasible to obtain approximate marginal posterior distributions for all Level-1 and Level-2 parameters when analyzing large- or small-scale survey data. A key advantage of the Bayes approach is that inferences about any parameter appropriately reflect uncertainty about all remaining parameters.

Suggested Citation

  • Rafa M. Kasim & Stephen W. Raudenbush, 1998. "Application of Gibbs Sampling to Nested Variance Components Models With Heterogeneous Within-Group Variance," Journal of Educational and Behavioral Statistics, , vol. 23(2), pages 93-116, June.
  • Handle: RePEc:sae:jedbes:v:23:y:1998:i:2:p:93-116
    DOI: 10.3102/10769986023002093
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    Cited by:

    1. Martin X. Dunbar & Hani M. Samawi & Robert Vogel & Lili Yu, 2014. "Steady-state Gibbs sampler estimation for lung cancer data," Journal of Applied Statistics, Taylor & Francis Journals, vol. 41(5), pages 977-988, May.

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