wp.regression: Statistical Power Analysis for Linear Regression
In johnnyzhz/WebPower: Basic and Advanced Statistical Power Analysis
wp.regression R Documentation
Statistical Power Analysis for Linear Regression
Description
This function is for power analysis for regression models. Regression is a statistical technique for examining the relationship between one or more independent variables (or predictors) and one dependent variable (or the outcome).
Regression provides an F-statistic that can be formulated using the ratio between variation in the outcome variable that is explained by the predictors and the unexplained variation (Cohen, 1988)).
The test statistc can also be experessed in terms of caomparison between Full and Reduced models (Maxwell & Delaney, 2003).
Usage
wp.regression(n = NULL, p1 = NULL, p2 = 0, f2 = NULL, alpha = 0.05,
power = NULL, type=c("regular", "Cohen"))
Arguments
n
Sample size.
p1
Number of predictors in the full model.
p2
Number of predictors in the reduced moedel, it is 0 by default. See the book by Maxwell and Delaney (2003) for the definition of the reduced model.
f2
Effect size.
We use the statistic f2 as the measure of effect size for linear regression proposed by Cohen(1988, p.410).
Cohen discussed the effect size in three different cases.
The calculation of f2 can be generalized using the idea of a full model and a reduced model by Maxwell and Delaney (2003).
alpha
significance level chosen for the test. It equals 0.05 by default.
power
Statistical power.
type
If set to "Cohen", the formula used in the Cohen's book will be used (not recommended).
Value
An object of the power analysis
References
Cohen, J. (1988). Statistical power analysis for the behavioral sciences (2nd Ed). Hillsdale, NJ: Lawrence Erlbaum Associates.
Maxwell, S. E., & Delaney, H. D. (2004). Designing experiments and analyzing data: A model comparison perspective (Vol. 1). Psychology Press.
Zhang, Z., & Yuan, K.-H. (2018). Practical Statistical Power Analysis Using Webpower and R (Eds). Granger, IN: ISDSA Press.
Examples
#To calculate the statistical power given sample size and effect size:
wp.regression(n = 100, p1 = 3, f2 = 0.1, alpha = 0.05, power = NULL)
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 100 3 0 0.1 0.05 0.7420463
#
# URL: http://psychstat.org/regression
#To generate a power curve given a sequence of sample sizes:
res <- wp.regression(n = seq(50,300,50), p1 = 3, f2 = 0.1,
alpha = 0.05, power = NULL)
res
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 50 3 0 0.1 0.05 0.4077879
# 100 3 0 0.1 0.05 0.7420463
# 150 3 0 0.1 0.05 0.9092082
# 200 3 0 0.1 0.05 0.9724593
# 250 3 0 0.1 0.05 0.9925216
# 300 3 0 0.1 0.05 0.9981375
#
# URL: http://psychstat.org/regression
#To plot the power curve:
plot(res)
#To calculate the required sample size given power and effect size:
wp.regression(n = NULL, p1 = 3, f2 = 0.1, alpha = 0.05, power = 0.8)
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 113.0103 3 0 0.1 0.05 0.8
#
# URL: http://psychstat.org/regression
#The statistical power given sample size and effect size when controling two predictors:
wp.regression(n = 100, p1 = 3, p2 = 2, f2 = 0.1429, alpha = 0.05, power = NULL)
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 100 3 2 0.1429 0.05 0.9594695
#
# URL: http://psychstat.org/regression
# To generate a power curve given a sequence of effect sizes:
res <- wp.regression(n = 50, p1 = 3, f2 = seq(0.05,0.5,0.05),
alpha = 0.05, power = NULL)
res
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 50 3 0 0.05 0.05 0.2164842
# 50 3 0 0.10 0.05 0.4077879
# 50 3 0 0.15 0.05 0.5821296
# 50 3 0 0.20 0.05 0.7210141
# 50 3 0 0.25 0.05 0.8220164
# 50 3 0 0.30 0.05 0.8906954
# 50 3 0 0.35 0.05 0.9350154
# 50 3 0 0.40 0.05 0.9624324
# 50 3 0 0.45 0.05 0.9788077
# 50 3 0 0.50 0.05 0.9883012
#
# URL: http://psychstat.org/regression
johnnyzhz/WebPower documentation built on Jan. 17, 2024, 5:44 p.m.
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| wp.regression | R Documentation |
Statistical Power Analysis for Linear Regression
Description
This function is for power analysis for regression models. Regression is a statistical technique for examining the relationship between one or more independent variables (or predictors) and one dependent variable (or the outcome). Regression provides an F-statistic that can be formulated using the ratio between variation in the outcome variable that is explained by the predictors and the unexplained variation (Cohen, 1988)). The test statistc can also be experessed in terms of caomparison between Full and Reduced models (Maxwell & Delaney, 2003).
Usage
wp.regression(n = NULL, p1 = NULL, p2 = 0, f2 = NULL, alpha = 0.05,
power = NULL, type=c("regular", "Cohen"))
Arguments
n |
Sample size. |
p1 |
Number of predictors in the full model. |
p2 |
Number of predictors in the reduced moedel, it is 0 by default. See the book by Maxwell and Delaney (2003) for the definition of the reduced model. |
f2 |
Effect size. We use the statistic f2 as the measure of effect size for linear regression proposed by Cohen(1988, p.410). Cohen discussed the effect size in three different cases. The calculation of f2 can be generalized using the idea of a full model and a reduced model by Maxwell and Delaney (2003). |
alpha |
significance level chosen for the test. It equals 0.05 by default. |
power |
Statistical power. |
type |
If set to "Cohen", the formula used in the Cohen's book will be used (not recommended). |
Value
An object of the power analysis
References
Cohen, J. (1988). Statistical power analysis for the behavioral sciences (2nd Ed). Hillsdale, NJ: Lawrence Erlbaum Associates.
Maxwell, S. E., & Delaney, H. D. (2004). Designing experiments and analyzing data: A model comparison perspective (Vol. 1). Psychology Press.
Zhang, Z., & Yuan, K.-H. (2018). Practical Statistical Power Analysis Using Webpower and R (Eds). Granger, IN: ISDSA Press.
Examples
#To calculate the statistical power given sample size and effect size:
wp.regression(n = 100, p1 = 3, f2 = 0.1, alpha = 0.05, power = NULL)
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 100 3 0 0.1 0.05 0.7420463
#
# URL: http://psychstat.org/regression
#To generate a power curve given a sequence of sample sizes:
res <- wp.regression(n = seq(50,300,50), p1 = 3, f2 = 0.1,
alpha = 0.05, power = NULL)
res
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 50 3 0 0.1 0.05 0.4077879
# 100 3 0 0.1 0.05 0.7420463
# 150 3 0 0.1 0.05 0.9092082
# 200 3 0 0.1 0.05 0.9724593
# 250 3 0 0.1 0.05 0.9925216
# 300 3 0 0.1 0.05 0.9981375
#
# URL: http://psychstat.org/regression
#To plot the power curve:
plot(res)
#To calculate the required sample size given power and effect size:
wp.regression(n = NULL, p1 = 3, f2 = 0.1, alpha = 0.05, power = 0.8)
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 113.0103 3 0 0.1 0.05 0.8
#
# URL: http://psychstat.org/regression
#The statistical power given sample size and effect size when controling two predictors:
wp.regression(n = 100, p1 = 3, p2 = 2, f2 = 0.1429, alpha = 0.05, power = NULL)
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 100 3 2 0.1429 0.05 0.9594695
#
# URL: http://psychstat.org/regression
# To generate a power curve given a sequence of effect sizes:
res <- wp.regression(n = 50, p1 = 3, f2 = seq(0.05,0.5,0.05),
alpha = 0.05, power = NULL)
res
# Power for multiple regression
#
# n p1 p2 f2 alpha power
# 50 3 0 0.05 0.05 0.2164842
# 50 3 0 0.10 0.05 0.4077879
# 50 3 0 0.15 0.05 0.5821296
# 50 3 0 0.20 0.05 0.7210141
# 50 3 0 0.25 0.05 0.8220164
# 50 3 0 0.30 0.05 0.8906954
# 50 3 0 0.35 0.05 0.9350154
# 50 3 0 0.40 0.05 0.9624324
# 50 3 0 0.45 0.05 0.9788077
# 50 3 0 0.50 0.05 0.9883012
#
# URL: http://psychstat.org/regression
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