Power of Modified Brown-Forsythe and Mixed-Model Approaches in Split-Plot Designs

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Pablo Livacic-Rojas, G. Vallejo, P. Fernández, Ellián Tuero-Herrero
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引用次数: 2

Abstract

Low precision of the inferences of data analyzed with univariate or multivariate models of the Analysis of Variance (ANOVA) in repeated-measures design is associated to the absence of normality distribution of data, nonspherical covariance structures and free variation of the variance and covariance, the lack of knowledge of the error structure underlying the data, and the wrong choice of covariance structure from different selectors. In this study, levels of statistical power presented the Modified Brown Forsythe (MBF) and two procedures with the Mixed-Model Approaches (the Akaike’s Criterion, the Correctly Identified Model [CIM]) are compared. The data were analyzed using Monte Carlo simulation method with the statistical package SAS 9.2, a split-plot design, and considering six manipulated variables. The results show that the procedures exhibit high statistical power levels for within and interactional effects, and moderate and low levels for the between-groups effects under the different conditions analyzed. For the latter, only the Modified Brown Forsythe shows high level of power mainly for groups with 30 cases and Unstructured (UN) and Autoregressive Heterogeneity (ARH) matrices. For this reason, we recommend using this procedure since it exhibits higher levels of power for all effects and does not require a matrix type that underlies the structure of the data. Future research needs to be done in order to compare the power with corrected selectors using single-level and multilevel designs for fixed and random effects.
改良Brown Forsyth的幂和混合模型方法在分割图设计中的应用
在重复测量设计中,用方差分析(ANOVA)的单变量或多变量模型分析的数据的推断精度低与数据的正态分布、非球形协方差结构和方差和协方差的自由变化、缺乏对数据背后的误差结构的知识、,以及来自不同选择器的协方差结构的错误选择。在这项研究中,比较了修正的Brown Forsyth(MBF)和混合模型方法(Akaike准则,正确识别模型[CIM])的两个程序的统计能力水平。数据采用蒙特卡罗模拟方法进行分析,采用SAS 9.2统计软件包,采用分裂图设计,并考虑六个操纵变量。结果表明,在所分析的不同条件下,程序对内部效应和交互效应表现出较高的统计能力水平,对组间效应表现出中等和较低的统计能力。对于后者,只有改进的Brown Forsyth主要对具有30种情况和非结构化(UN)和自回归异质性(ARH)矩阵的组显示出高水平的幂。因此,我们建议使用此程序,因为它对所有效果都表现出更高的功率水平,并且不需要作为数据结构基础的矩阵类型。未来需要进行研究,以比较使用固定和随机效应的单级和多级设计的校正选择器的功率。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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