loglin {stats} | R Documentation |
loglin
is used to fit log-linear models to multidimensional
contingency tables by Iterative Proportional Fitting.
loglin(table, margin, start = rep(1, length(table)), fit = FALSE, eps = 0.1, iter = 20, param = FALSE, print = TRUE)
table |
a contingency table to be fit, typically the output from
|
margin |
a list of vectors with the marginal totals to be fit. (Hierarchical) log-linear models can be specified in terms of these
marginal totals which give the ‘maximal’ factor subsets contained
in the model. For example, in a three-factor model,
The names of factors (i.e., |
start |
a starting estimate for the fitted table. This optional
argument is important for incomplete tables with structural zeros
in |
fit |
a logical indicating whether the fitted values should be returned. |
eps |
maximum deviation allowed between observed and fitted margins. |
iter |
maximum number of iterations. |
param |
a logical indicating whether the parameter values should be returned. |
print |
a logical. If |
The Iterative Proportional Fitting algorithm as presented in
Haberman (1972) is used for fitting the model. At most iter
iterations are performed, convergence is taken to occur when the
maximum deviation between observed and fitted margins is less than
eps
. All internal computations are done in double precision;
there is no limit on the number of factors (the dimension of the
table) in the model.
Assuming that there are no structural zeros, both the Likelihood
Ratio Test and Pearson test statistics have an asymptotic chi-squared
distribution with df
degrees of freedom.
Note that the IPF steps are applied to the factors in the order given
in margin
. Hence if the model is decomposable and the order
given in margin
is a running intersection property ordering
then IPF will converge in one iteration.
Package MASS contains loglm
, a front-end to
loglin
which allows the log-linear model to be specified and
fitted in a formula-based manner similar to that of other fitting
functions such as lm
or glm
.
A list with the following components.
lrt |
the Likelihood Ratio Test statistic. |
pearson |
the Pearson test statistic (X-squared). |
df |
the degrees of freedom for the fitted model. There is no adjustment for structural zeros. |
margin |
list of the margins that were fit. Basically the same
as the input |
fit |
An array like |
param |
A list containing the estimated parameters of the
model. The ‘standard’ constraints of zero marginal sums
(e.g., zero row and column sums for a two factor parameter) are
employed. Only returned if |
Kurt Hornik
Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988). The New S Language. Wadsworth & Brooks/Cole.
Haberman, S. J. (1972). Algorithm AS 51: Log-linear fit for contingency tables. Applied Statistics, 21, 218–225. doi: 10.2307/2346506.
Agresti, A. (1990). Categorical data analysis. New York: Wiley.
loglm
in package MASS for a
user-friendly wrapper.
glm
for another way to fit log-linear models.
## Model of joint independence of sex from hair and eye color. fm <- loglin(HairEyeColor, list(c(1, 2), c(1, 3), c(2, 3))) fm 1 - pchisq(fm$lrt, fm$df) ## Model with no three-factor interactions fits well.