factor.fit: How well does the factor model fit a correlation matrix. Part...
In psych: Procedures for Psychological, Psychometric, and Personality Research
factor.fit R Documentation
How well does the factor model fit a correlation matrix. Part of the VSS package
Description
The basic factor or principal components model is that a correlation or covariance matrix may be reproduced by the product of a factor loading matrix times its transpose: F'F or P'P. One simple index of fit is the 1 - sum squared residuals/sum squared original correlations. This fit index is used by VSS, ICLUST, etc.
Usage
factor.fit(r, f)
Arguments
r
a correlation matrix
f
A factor matrix of loadings.
Details
There are probably as many fit indices as there are psychometricians. This fit is a plausible estimate of the amount of reduction in a correlation matrix given a factor model. Note that it is sensitive to the size of the original correlations. That is, if the residuals are small but the original correlations are small, that is a bad fit.
Let
R* = R - FF'
fit = 1 - \frac{ \sum(R*^2)}{\sum(R^2)}
.
The sums are taken for the off diagonal elements.
Value
fit
Author(s)
William Revelle
See Also
VSS, ICLUST
Examples
## Not run:
#compare the fit of 4 to 3 factors for the Harman 24 variables
fa4 <- factanal(x,4,covmat=Harman74.cor$cov)
round(factor.fit(Harman74.cor$cov,fa4$loading),2)
#[1] 0.9
fa3 <- factanal(x,3,covmat=Harman74.cor$cov)
round(factor.fit(Harman74.cor$cov,fa3$loading),2)
#[1] 0.88
## End(Not run)
psych documentation built on June 27, 2024, 5:07 p.m.
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| factor.fit | R Documentation |
How well does the factor model fit a correlation matrix. Part of the VSS package
Description
The basic factor or principal components model is that a correlation or covariance matrix may be reproduced by the product of a factor loading matrix times its transpose: F'F or P'P. One simple index of fit is the 1 - sum squared residuals/sum squared original correlations. This fit index is used by VSS, ICLUST, etc.
Usage
factor.fit(r, f)
Arguments
r |
a correlation matrix |
f |
A factor matrix of loadings. |
Details
There are probably as many fit indices as there are psychometricians. This fit is a plausible estimate of the amount of reduction in a correlation matrix given a factor model. Note that it is sensitive to the size of the original correlations. That is, if the residuals are small but the original correlations are small, that is a bad fit.
Let
R* = R - FF'
fit = 1 - \frac{ \sum(R*^2)}{\sum(R^2)}
.
The sums are taken for the off diagonal elements.
Value
fit
Author(s)
William Revelle
See Also
VSS, ICLUST
Examples
## Not run:
#compare the fit of 4 to 3 factors for the Harman 24 variables
fa4 <- factanal(x,4,covmat=Harman74.cor$cov)
round(factor.fit(Harman74.cor$cov,fa4$loading),2)
#[1] 0.9
fa3 <- factanal(x,3,covmat=Harman74.cor$cov)
round(factor.fit(Harman74.cor$cov,fa3$loading),2)
#[1] 0.88
## End(Not run)
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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