
doi: 10.1007/bf02294024
Canonical redundancy analysis provides an estimate of the amount of shared variance between two sets of variables and provides an alternative to canonical correlation. The proof that the total redundancy is equal to the average squared multiple correlation coefficient obtained by regressing each variable in the criterion set on all variables in the predictor set is generalized to the case in which there are a larger number of criterion than predictor variables. It is then shown that the redundancy for the criterion set of variables is invariant under affine transformation of the predictor variables, but not invariant under transformation of the criterion variables.
canonical correlation, Measures of association (correlation, canonical correlation, etc.), affine transformation, redundancy analysis
canonical correlation, Measures of association (correlation, canonical correlation, etc.), affine transformation, redundancy analysis
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