Type I and Type II Error Rates and Overall Accuracy of the Revised Parallel Analysis Method for Determining the Number of Factors

Overview

Journal Educ Psychol Meas

Publisher Sage Publications

Date 2018 May 26

PMID 29795828

Citations 14

Authors

Samuel B Green

Marilyn S Thompson

Roy Levy

Wen-Juo Lo

Affiliations

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Abstract

Traditional parallel analysis (T-PA) estimates the number of factors by sequentially comparing sample eigenvalues with eigenvalues for randomly generated data. Revised parallel analysis (R-PA) sequentially compares the th eigenvalue for sample data to the th eigenvalue for generated data sets, conditioned on - 1 underlying factors. T-PA and R-PA are conceptualized as stepwise hypothesis-testing procedures and, thus, are alternatives to sequential likelihood ratio test (LRT) methods. We assessed the accuracy of T-PA, R-PA, and LRT methods using a Monte Carlo approach. Although no method was uniformly more accurate across all 180 conditions, the PA approaches outperformed LRT methods overall. Relative to T-PA, R-PA tended to perform better within the framework of hypothesis testing and to evidence greater accuracy in conditions with higher factor loadings.

Citing Articles

A Comparison of the Next Eigenvalue Sufficiency Test to Other Stopping Rules for the Number of Factors in Factor Analysis.

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Improving the Use of Parallel Analysis by Accounting for Sampling Variability of the Observed Correlation Matrix.

Xia Y, Zhou X Educ Psychol Meas. 2024; :00131644241268073.

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Comparing Accuracy of Parallel Analysis and Fit Statistics for Estimating the Number of Factors With Ordered Categorical Data in Exploratory Factor Analysis.

Lee H, Cham H Educ Psychol Meas. 2024; 84(6):1173-1202.

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Fully and partially exploratory factor analysis with bi-level Bayesian regularization.

Chen J Behav Res Methods. 2022; 55(4):2125-2142.

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Determining the Number of Factors When Population Models Can Be Closely Approximated by Parsimonious Models.

Xia Y Educ Psychol Meas. 2021; 81(6):1143-1171.

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References

Buja A, Eyuboglu N . Remarks on Parallel Analysis. Multivariate Behav Res. 2016; 27(4):509-40. DOI: 10.1207/s15327906mbr2704_2. View

Rindskopf D, Rose T . Some Theory and Applications of Confirmatory Second-Order Factor Analysis. Multivariate Behav Res. 2016; 23(1):51-67. DOI: 10.1207/s15327906mbr2301_3. View

Preacher K, Zhang G, Kim C, Mels G . Choosing the Optimal Number of Factors in Exploratory Factor Analysis: A Model Selection Perspective. Multivariate Behav Res. 2016; 48(1):28-56. DOI: 10.1080/00273171.2012.710386. View

Horn J . A RATIONALE AND TEST FOR THE NUMBER OF FACTORS IN FACTOR ANALYSIS. Psychometrika. 1965; 30:179-85. DOI: 10.1007/BF02289447. View

Fava J, Velicer W . The Effects of Overextraction on Factor and Component Analysis. Multivariate Behav Res. 2016; 27(3):387-415. DOI: 10.1207/s15327906mbr2703_5. View