mi.inference: Multiple Imputation Inference

Description Usage Arguments Value Method References

View source: R/mix.R

Description

Combines estimates and standard errors from m complete-data analyses performed on m imputed datasets to produce a single inference. Uses the technique described by Rubin (1987) for multiple imputation inference for a scalar estimand.

Usage

1
mi.inference(est, std.err, confidence=0.95)

Arguments

est

a list of m (at least 2) vectors representing estimates (e.g., vectors of estimated regression coefficients) from complete-data analyses performed on m imputed datasets.

std.err

a list of m vectors containing standard errors from the complete-data analyses corresponding to the estimates in est.

confidence

desired coverage of interval estimates.

Value

a list with the following components, each of which is a vector of the same length as the components of est and std.err:

est

the average of the complete-data estimates.

std.err

standard errors incorporating both the between and the within-imputation uncertainty (the square root of the "total variance").

df

degrees of freedom associated with the t reference distribution used for interval estimates.

signif

P-values for the two-tailed hypothesis tests that the estimated quantities are equal to zero.

lower

lower limits of the (100*confidence)% interval estimates.

upper

upper limits of the (100*confidence)% interval estimates.

r

estimated relative increases in variance due to nonresponse.

fminf

estimated fractions of missing information.

Method

Uses the method described on pp. 76-77 of Rubin (1987) for combining the complete-data estimates from $m$ imputed datasets for a scalar estimand. Significance levels and interval estimates are approximately valid for each one-dimensional estimand, not for all of them jointly.

References

Rubin, D. B. (1987) Multiple Imputation for Nonresponse in Surveys. Wiley.

Schafer, J. L. (1996) Analysis of Incomplete Multivariate Data. Chapman \& Hall.


mix documentation built on June 20, 2017, 9:13 a.m.