sim.ci.cor: Simulates confidence interval coverage probability for a...
In statpsych: Statistical Methods for Psychologists
sim.ci.cor R Documentation
Simulates confidence interval coverage probability for a Pearson
correlation
Description
Performs a computer simulation of confidence interval performance for a
Pearson correlation. A bias adjustment is used to reduce the bias of the
Fisher transformed Pearson correlation. Sample data can be generated
from bivariate population distributions with five different marginal
distributions. All distributions are scaled to have standard deviations
of 1.0. Bivariate random data with specified marginal skewness and
kurtosis are generated using the unonr function in the mnonr package.
Usage
sim.ci.cor(alpha, n, cor, dist1, dist2, rep)
Arguments
alpha
alpha level for 1-alpha confidence
n
sample size
cor
population Pearson correlation
dist1
type of distribution for variable 1 (1, 2, 3, 4, or 5)
dist2
type of distribution for variable 2 (1, 2, 3, 4, or 5)
1 = Gaussian (skewness = 0 and excess kurtosis = 0)
2 = platykurtic (skewness = 0 and excess kurtosis = -1.2)
3 = leptokurtic (skewness = 0 and excess kurtosis = 6)
4 = moderate skew (skewness = 1 and excess kurtosis = 1.5)
5 = large skew (skewness = 2 and excess kurtosis = 6)
rep
number of Monte Carlo samples
Value
Returns a 1-row matrix. The columns are:
Coverage - probability of confidence interval including population correlation
Lower Error - probability of lower limit greater than population correlation
Upper Error - probability of upper limit less than population correlation
Ave CI Width - average confidence interval width
Examples
sim.ci.cor(.05, 30, .7, 4, 5, 1000)
# Should return (within sampling error):
# Coverage Lower Error Upper Error Ave CI Width
# [1,] 0.93815 0.05125 0.0106 0.7778518
statpsych documentation built on Sept. 11, 2024, 7:42 p.m.
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| sim.ci.cor | R Documentation |
Simulates confidence interval coverage probability for a Pearson correlation
Description
Performs a computer simulation of confidence interval performance for a Pearson correlation. A bias adjustment is used to reduce the bias of the Fisher transformed Pearson correlation. Sample data can be generated from bivariate population distributions with five different marginal distributions. All distributions are scaled to have standard deviations of 1.0. Bivariate random data with specified marginal skewness and kurtosis are generated using the unonr function in the mnonr package.
Usage
sim.ci.cor(alpha, n, cor, dist1, dist2, rep)
Arguments
alpha |
alpha level for 1-alpha confidence |
n |
sample size |
cor |
population Pearson correlation |
dist1 |
type of distribution for variable 1 (1, 2, 3, 4, or 5) |
dist2 |
type of distribution for variable 2 (1, 2, 3, 4, or 5)
|
rep |
number of Monte Carlo samples |
Value
Returns a 1-row matrix. The columns are:
Coverage - probability of confidence interval including population correlation
Lower Error - probability of lower limit greater than population correlation
Upper Error - probability of upper limit less than population correlation
Ave CI Width - average confidence interval width
Examples
sim.ci.cor(.05, 30, .7, 4, 5, 1000)
# Should return (within sampling error):
# Coverage Lower Error Upper Error Ave CI Width
# [1,] 0.93815 0.05125 0.0106 0.7778518
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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