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polychor

Polychoric Correlation


Description

Computes the polychoric correlation (and its standard error) between two ordinal variables or from their contingency table, under the assumption that the ordinal variables dissect continuous latent variables that are bivariate normal. Either the maximum-likelihood estimator or a (possibly much) quicker “two-step” approximation is available. For the ML estimator, the estimates of the thresholds and the covariance matrix of the estimates are also available.

Usage

polychor(x, y, ML = FALSE, control = list(), std.err = FALSE, maxcor=.9999)

Arguments

x

a contingency table of counts or an ordered categorical variable; the latter can be numeric, logical, a factor, an ordered factor, or a character variable, but if a factor, its levels should be in proper order, and the values of a character variable are ordered alphabetically.

y

if x is a variable, a second ordered categorical variable.

ML

if TRUE, compute the maximum-likelihood estimate; if FALSE, the default, compute a quicker “two-step” approximation.

control

optional arguments to be passed to the optim function.

std.err

if TRUE, return the estimated variance of the correlation (for the two-step estimator) or the estimated covariance matrix (for the ML estimator) of the correlation and thresholds; the default is FALSE.

maxcor

maximum absolute correlation (to insure numerical stability).

Details

The ML estimator is computed by maximizing the bivariate-normal likelihood with respect to the thresholds for the two variables (τ^x[i], i = 1,…, r - 1; τ^y[j], j = 1,…, c - 1) and the population correlation (ρ). Here, r and c are respectively the number of levels of x and y. The likelihood is maximized numerically using the optim function, and the covariance matrix of the estimated parameters is based on the numerical Hessian computed by optim.

The two-step estimator is computed by first estimating the thresholds (τ^x[i], i = 1,…, r - 1 and τ^y[j], i = j,…, c - 1) separately from the marginal distribution of each variable. Then the one-dimensional likelihood for ρ is maximized numerically, using optim if standard errors are requested, or optimise if they are not. The standard error computed treats the thresholds as fixed.

Value

If std.err is TRUE, returns an object of class "polycor" with the following components:

type

set to "polychoric".

rho

the polychoric correlation.

row.cuts

estimated thresholds for the row variable (x), for the ML estimate.

col.cuts

estimated thresholds for the column variable (y), for the ML estimate.

var

the estimated variance of the correlation, or, for the ML estimate, the estimated covariance matrix of the correlation and thresholds.

n

the number of observations on which the correlation is based.

chisq

chi-square test for bivariate normality.

df

degrees of freedom for the test of bivariate normality.

ML

TRUE for the ML estimate, FALSE for the two-step estimate.

Othewise, returns the polychoric correlation.

Author(s)

References

Drasgow, F. (1986) Polychoric and polyserial correlations. Pp. 68–74 in S. Kotz and N. Johnson, eds., The Encyclopedia of Statistics, Volume 7. Wiley.

Olsson, U. (1979) Maximum likelihood estimation of the polychoric correlation coefficient. Psychometrika 44, 443-460.

See Also

Examples

if(require(mvtnorm)){
    set.seed(12345)
    data <- rmvnorm(1000, c(0, 0), matrix(c(1, .5, .5, 1), 2, 2))
    x <- data[,1]
    y <- data[,2]
    cor(x, y)  # sample correlation
    }
if(require(mvtnorm)){
    x <- cut(x, c(-Inf, .75, Inf))
    y <- cut(y, c(-Inf, -1, .5, 1.5, Inf))
    polychor(x, y)  # 2-step estimate
    }
if(require(mvtnorm)){
    set.seed(12345)
    polychor(x, y, ML=TRUE, std.err=TRUE)  # ML estimate
    }

polycor

Polychoric and Polyserial Correlations

v0.7-10
GPL (>= 2)
Authors
John Fox [aut, cre]
Initial release
2019-07-22

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