Alleviating estimation problems in small sample structural equation modeling-A comparison of constrained maximum likelihood, Bayesian estimation, and fixed reliability approaches.

IF 7.6 1区 心理学 Q1 PSYCHOLOGY, MULTIDISCIPLINARY
Esther Ulitzsch, Oliver Lüdtke, Alexander Robitzsch
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引用次数: 3

Abstract

Small sample structural equation modeling (SEM) may exhibit serious estimation problems, such as failure to converge, inadmissible solutions, and unstable parameter estimates. A vast literature has compared the performance of different solutions for small sample SEM in contrast to unconstrained maximum likelihood (ML) estimation. Less is known, however, on the gains and pitfalls of different solutions in contrast to each other. Focusing on three current solutions-constrained ML, Bayesian methods using Markov chain Monte Carlo techniques, and fixed reliability single indicator (SI) approaches-we bridge this gap. When doing so, we evaluate the potential and boundaries of different parameterizations, constraints, and weakly informative prior distributions for improving the quality of the estimation procedure and stabilizing parameter estimates. The performance of all approaches is compared in a simulation study. Under conditions with low reliabilities, Bayesian methods without additional prior information by far outperform constrained ML in terms of accuracy of parameter estimates as well as the worst-performing fixed reliability SI approach and do not perform worse than the best-performing fixed reliability SI approach. Under conditions with high reliabilities, constrained ML shows good performance. Both constrained ML and Bayesian methods exhibit conservative to acceptable Type I error rates. Fixed reliability SI approaches are prone to undercoverage and severe inflation of Type I error rates. Stabilizing effects on Bayesian parameter estimates can be achieved even with mildly incorrect prior information. In an empirical example, we illustrate the practical importance of carefully choosing the method of analysis for small sample SEM. (PsycInfo Database Record (c) 2023 APA, all rights reserved).

缓解小样本结构方程建模中的估计问题——约束最大似然、贝叶斯估计和固定可靠性方法的比较。
小样本结构方程建模(SEM)可能会出现严重的估计问题,如不收敛、不可接受的解和不稳定的参数估计。大量文献比较了小样本SEM与无约束最大似然(ML)估计的不同解决方案的性能。然而,人们对不同解决方案相互比较的利弊却知之甚少。专注于三种当前的解决方案-约束ML,使用马尔可夫链蒙特卡罗技术的贝叶斯方法和固定可靠性单指标(SI)方法-我们弥合了这一差距。当这样做时,我们评估了不同参数化、约束和弱信息先验分布的潜力和边界,以提高估计过程的质量和稳定参数估计。在仿真研究中比较了各种方法的性能。在低可靠性条件下,没有额外先验信息的贝叶斯方法在参数估计的准确性以及性能最差的固定可靠性SI方法方面远远优于约束ML,并且不会比性能最佳的固定可靠性SI方法表现更差。在高可靠性条件下,约束机器学习表现出良好的性能。约束ML和贝叶斯方法都表现出保守到可接受的I型错误率。固定可靠性SI方法容易出现覆盖不足和I类错误率的严重膨胀。即使有轻微错误的先验信息,也可以实现贝叶斯参数估计的稳定效果。在一个经验例子中,我们说明了仔细选择小样本SEM分析方法的实际重要性。(PsycInfo数据库记录(c) 2023 APA,版权所有)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Psychological methods
Psychological methods PSYCHOLOGY, MULTIDISCIPLINARY-
CiteScore
13.10
自引率
7.10%
发文量
159
期刊介绍: Psychological Methods is devoted to the development and dissemination of methods for collecting, analyzing, understanding, and interpreting psychological data. Its purpose is the dissemination of innovations in research design, measurement, methodology, and quantitative and qualitative analysis to the psychological community; its further purpose is to promote effective communication about related substantive and methodological issues. The audience is expected to be diverse and to include those who develop new procedures, those who are responsible for undergraduate and graduate training in design, measurement, and statistics, as well as those who employ those procedures in research.
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