mice.impute.norm: Imputation by Bayesian linear regression

Vector with imputed data, same type as y, and of length sum(wy)

Imputation of y by the normal model by the method defined by Rubin (1987, p. 167). The procedure is as follows:

1. Calculate the cross-product matrix \(S=X_{obs}'X_{obs}\).

2. Calculate \(V = (S+{diag}(S)\kappa)^{-1}\), with some small ridge parameter \(\kappa\).

3. Calculate regression weights \(\hat\beta = VX_{obs}'y_{obs}.\)

4. Draw a random variable \(\dot g \sim \chi^2_\nu\) with \(\nu=n_1 - q\).

5. Calculate \(\dot\sigma^2 = (y_{obs} - X_{obs}\hat\beta)'(y_{obs} - X_{obs}\hat\beta)/\dot g.\)

6. Draw \(q\) independent \(N(0,1)\) variates in vector \(\dot z_1\).

7. Calculate \(V^{1/2}\) by Cholesky decomposition.

8. Calculate \(\dot\beta = \hat\beta + \dot\sigma\dot z_1 V^{1/2}\).

9. Draw \(n_0\) independent \(N(0,1)\) variates in vector \(\dot z_2\).

10. Calculate the \(n_0\) values \(y_{imp} = X_{mis}\dot\beta + \dot z_2\dot\sigma\).

Using mice.impute.norm for all columns emulates Schafer's NORM method (Schafer, 1997).