Abstract
A family of coefficients of relational agreement for numerical scales is proposed. The theory is a generalization to multiple judges of the Zegers and ten Berge theory of association coefficients for two variables and is based on the premise that the choice of a coefficient depends on the scale type of the variables, defined by the class of admissible transformations. Coefficients of relational agreement that denote agreement with respect to empirically meaningful relationships are derived for absolute, ratio, interval, and additive scales. The proposed theory is compared to intraclass correlation, and it is shown that the coefficient of additivity is identical to one measure of intraclass correlation.
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Fagot, R.F. A generalized family of coefficients of relational agreement for numerical scales. Psychometrika 58, 357–370 (1993). https://doi.org/10.1007/BF02294581
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DOI: https://doi.org/10.1007/BF02294581