你能走多低?二水平线性模型中样本大小和模型复杂度对点和区间估计影响的研究

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2014-01-01 DOI:10.1027/1614-2241/A000062
B. Bell, G. Morgan, J. Schoeneberger, J. Kromrey, J. Ferron
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引用次数: 156

摘要

虽然在估计多层模型时建议了一般样本量指南,但它们只能推广到相对有限数量的数据条件和模型结构,这两者对于应用研究人员来说都不是很可行。为了扩大我们对非理想条件下的两级多水平模型的理解,我们通过SAS/IML使用蒙特卡罗方法来检查模型的收敛率、参数点估计(统计偏差)、参数区间估计(置信区间准确度和精度),以及与PROC MIXED估计的线性两级模型的固定效应相关的I型误差控制和统计能力。将这些结果作为(a)一级样本量、(b)二级样本量、(c)截距方差、(d)斜率方差、(e)共线性和(f)模型复杂性的函数进行分析。在几乎所有模拟条件下,偏差都是最小的。95%置信区间覆盖率和I型错误率略显保守。统计效力程度与样本量和固定效应水平有关;样本量越大,一级固定效应越显著。在教育、临床和其他经常发生研究的环境中,分层组织的数据是司空见惯的。学生嵌套在教室或教师中,教师嵌套在学校中。或者,服务接受者嵌套在提供服务的社会工作者中,而社会工作者又可能嵌套在当地的公务员机构中。在这些层面上进行研究,而忽略更详细的层面(学生)或背景层面(学校)可能会导致错误的结论。因此,已经开发了多层模型来适当地解释
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How Low Can You Go? An Investigation of the Influence of Sample Size and Model Complexity on Point and Interval Estimates in Two-Level Linear Models
Whereas general sample size guidelines have been suggested when estimating multilevel models, they are only generalizable to a relatively limited number of data conditions and model structures, both of which are not very feasible for the applied researcher. In an effort to expand our understanding of two-level multilevel models under less than ideal conditions, Monte Carlo methods, through SAS/IML, were used to examine model convergence rates, parameter point estimates (statistical bias), parameter interval estimates (confidence interval accuracy and precision), and both Type I error control and statistical power of tests associated with the fixed effects from linear two-level models estimated with PROC MIXED. These outcomes were analyzed as a function of: (a) level-1 sample size, (b) level-2 sample size, (c) intercept variance, (d) slope variance, (e) collinearity, and (f) model complexity. Bias was minimal across nearly all conditions simulated. The 95% confidence interval coverage and Type I error rate tended to be slightly conservative. The degree of statistical power was related to sample sizes and level of fixed effects; higher power was observed with larger sample sizes and level-1 fixed effects. Hierarchically organized data are commonplace in educa- tional, clinical, and other settings in which research often occurs. Students are nested within classrooms or teachers, and teachers are nested within schools. Alternatively, service recipients are nested within social workers providing ser- vices, who may in turn be nested within local civil service entities. Conducting research at any of these levels while ignoring the more detailed levels (students) or contextual levels (schools) can lead to erroneous conclusions. As such, multilevel models have been developed to properly account
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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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