Computes a test for the independence of k sets of multivariate normal variables.

Routine MVIND computes a likelihood ratio test statistic proposed by Wilks (1935) for testing the independence of NGROUP sets of multivariate normal variates. The likelihood ratio statistic is computed as the ratio of the determinant ∣S∣ of the sample covariance matrix to the product of the determinants ∣S1∣…∣SK∣ of the covariance matrices of each of the k = NGROUP sets of variates. An asymptotic chi‑squared statistic obtained from the likelihood ratio, along with corresponding p‑value, is computed according to formulas given by Morrison (1976, pages 258‑259). The chi‑squared statistic is computed as:

where n = NDF,

where ∣Sii∣ is the determinant of the i‑th covariance matrix, k = NGROUP, and pi = NVSET(i), and ∣S∣ is the determinant of COV.

Because determinants appear in both the numerator and denominator of the likelihood ratio, the test statistic is unchanged when correlation matrices are substituted for covariance matrices as input to MVIND.

In using MVIND, the covariance matrix must first be computed (possibly via routine CORVC, see Chapter 3, “Correlation”). The covariance matrix may then need to be rearranged (possible via routine RORDM) so that the NVSET(1) variables in the first set correspond to the first NVSET(1) columns (and rows) of the covariance matrix, with the next NVSET(2) columns and rows containing the variables for the second set of variables, etc. With this special arrangement of the covariance matrix, routine MVIND may then be called.

The example is taken from Morrison (1976, page 258). It involves two sets of covariates, with each set having two covariates. The null hypothesis of no relationship is rejected.