Tianjun Sun, Ph.D.

#iopsych #personality #psychometrics #quantmethods



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Tianjun Sun

Assistant Professor, Industrial-Organizational Psychology + Quantitative Methods


Curriculum vitae



Department of Psychological Sciences

Rice University

472 Sewall Hall
Rice University, MS-25
6100 Main Street
Houston, TX 77005 USA




Tianjun Sun, Ph.D.

#iopsych #personality #psychometrics #quantmethods



Department of Psychological Sciences

Rice University

472 Sewall Hall
Rice University, MS-25
6100 Main Street
Houston, TX 77005 USA



Estimating the Multidimensional Generalized Graded Unfolding Model with Covariates Using a Bayesian Approach


Journal article


Naidan Tu, Bo Zhang, Lawrence Angrave, Tianjun Sun, Mathew Neuman
Journal of Intelligence, 2023

Semantic Scholar DOI PubMedCentral PubMed
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APA   Click to copy
Tu, N., Zhang, B., Angrave, L., Sun, T., & Neuman, M. (2023). Estimating the Multidimensional Generalized Graded Unfolding Model with Covariates Using a Bayesian Approach. Journal of Intelligence.


Chicago/Turabian   Click to copy
Tu, Naidan, Bo Zhang, Lawrence Angrave, Tianjun Sun, and Mathew Neuman. “Estimating the Multidimensional Generalized Graded Unfolding Model with Covariates Using a Bayesian Approach.” Journal of Intelligence (2023).


MLA   Click to copy
Tu, Naidan, et al. “Estimating the Multidimensional Generalized Graded Unfolding Model with Covariates Using a Bayesian Approach.” Journal of Intelligence, 2023.


BibTeX   Click to copy

@article{naidan2023a,
  title = {Estimating the Multidimensional Generalized Graded Unfolding Model with Covariates Using a Bayesian Approach},
  year = {2023},
  journal = {Journal of Intelligence},
  author = {Tu, Naidan and Zhang, Bo and Angrave, Lawrence and Sun, Tianjun and Neuman, Mathew}
}

Abstract

Noncognitive constructs are commonly assessed in educational and organizational research. They are often measured by summing scores across items, which implicitly assumes a dominance item response process. However, research has shown that the unfolding response process may better characterize how people respond to noncognitive items. The Generalized Graded Unfolding Model (GGUM) representing the unfolding response process has therefore become increasingly popular. However, the current implementation of the GGUM is limited to unidimensional cases, while most noncognitive constructs are multidimensional. Fitting a unidimensional GGUM separately for each dimension and ignoring the multidimensional nature of noncognitive data may result in suboptimal parameter estimation. Recently, an R package bmggum was developed that enables the estimation of the Multidimensional Generalized Graded Unfolding Model (MGGUM) with covariates using a Bayesian algorithm. However, no simulation evidence is available to support the accuracy of the Bayesian algorithm implemented in bmggum. In this research, two simulation studies were conducted to examine the performance of bmggum. Results showed that bmggum can estimate MGGUM parameters accurately, and that multidimensional estimation and incorporating relevant covariates into the estimation process improved estimation accuracy. The effectiveness of two Bayesian model selection indices, WAIC and LOO, were also investigated and found to be satisfactory for model selection. Empirical data were used to demonstrate the use of bmggum and its performance was compared with three other GGUM software programs: GGUM2004, GGUM, and mirt.


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