標題: A comparison of two approaches for power and sample size calculations in logistic regression models
作者: Shieh, G
管理科學系
Department of Management Science
關鍵字: likelihood ratio test;logistic regression;maximum likelihood estimate;power;sample size
公開日期: 2000
摘要: Whittemore (1981) proposed an approach for calculating the sample size needed to test hypotheses with specified significance and power against a given alternative for logistic regression with small response probability. Based on the distribution of covariate, which could be either discrete or continuous, this approach first provides a simple closed-form approximation to the asymptotic covariance matrix of the maximum likelihood estimates, and then uses it to calculate the sample size needed to test a hypothesis about the parameter. Self et al. (1992) described a general approach for power and sample size calculations within the framework of generalized linear models, which include logistic regression as a special case. Their approach is based on an approximation to the distribution of the likelihood ratio statistic. Unlike the Whittemore approach, their approach is not limited to situations of small response probability. However, it is restricted to models with a finite number of covariate configurations. This study compares these two approaches to see how accurate they would be for the calculations of power and sample size in logistic regression models with various response probabilities and covariate distributions. The results indicate that the Whittemore approach has a slight advantage in achieving the nominal power only for one case with small response probability. It is outperformed for all other cases with larger response probabilities. In general, the approach proposed in Self et al. (1992) is recommended for all values of the response probability. However, its extension for logistic regression models with an infinite number of covariate configurations involves an arbitrary decision for categorization and leads to a discrete approximation. As shown in this paper, the examined discrete approximations appear to be sufficiently accurate for practical purpose.
URI: http://hdl.handle.net/11536/30880
http://dx.doi.org/10.1080/03610910008813639
ISSN: 0361-0918
DOI: 10.1080/03610910008813639
期刊: COMMUNICATIONS IN STATISTICS-SIMULATION AND COMPUTATION
Volume: 29
Issue: 3
起始頁: 763
結束頁: 791
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