anova.lme {nlme} | R Documentation |
When only one fitted model object is present, a data frame with the
sums of squares, numerator degrees of freedom, denominator degrees of
freedom, F-values, and P-values for Wald tests for the terms in the
model (when Terms
and L
are NULL
), a combination
of model terms (when Terms
in not NULL
), or linear
combinations of the model coefficients (when L
is not
NULL
). Otherwise, when multiple fitted objects are being
compared, a data frame with the degrees of freedom, the (restricted)
log-likelihood, the Akaike Information Criterion (AIC), and the
Bayesian Information Criterion (BIC) of each object is returned. If
test=TRUE
, whenever two consecutive objects have different
number of degrees of freedom, a likelihood ratio statistic, with the
associated p-value is included in the returned data frame.
## S3 method for class 'lme' anova(object, ..., test, type, adjustSigma, Terms, L, verbose) ## S3 method for class 'anova.lme' print(x, verbose, ...)
object |
a fitted model object inheriting from class |
... |
other optional fitted model objects inheriting from
classes |
test |
an optional logical value controlling whether likelihood
ratio tests should be used to compare the fitted models represented
by |
type |
an optional character string specifying the type of sum of
squares to be used in F-tests for the terms in the model. If
|
adjustSigma |
an optional logical value. If |
Terms |
an optional integer or character vector specifying which
terms in the model should be jointly tested to be zero using a Wald
F-test. If given as a character vector, its elements must correspond
to term names; else, if given as an integer vector, its elements must
correspond to the order in which terms are included in the
model. This argument is only used when a single fitted object is
passed to the function. Default is |
L |
an optional numeric vector or array specifying linear
combinations of the coefficients in the model that should be tested
to be zero. If given as an array, its rows define the linear
combinations to be tested. If names are assigned to the vector
elements (array columns), they must correspond to coefficients
names and will be used to map the linear combination(s) to the
coefficients; else, if no names are available, the vector elements
(array columns) are assumed in the same order as the coefficients
appear in the model. This argument is only used when a single fitted
object is passed to the function. Default is |
x |
an object inheriting from class |
verbose |
an optional logical value. If |
a data frame inheriting from class anova.lme
.
Likelihood comparisons are not meaningful for objects fit using restricted maximum likelihood and with different fixed effects.
Jose Pinheiro and Douglas Bates bates@stat.wisc.edu
Pinheiro, J.C., and Bates, D.M. (2000) "Mixed-Effects Models in S and S-PLUS", Springer.
gls
, gnls
, nlme
,
lme
, AIC
, BIC
,
print.anova.lme
,
logLik.lme
,
fm1 <- lme(distance ~ age, Orthodont, random = ~ age | Subject) anova(fm1) fm2 <- update(fm1, random = pdDiag(~age)) anova(fm1, fm2) # Pinheiro and Bates, pp. 251-254 fm1Orth.gls <- gls(distance ~ Sex * I(age - 11), Orthodont, correlation = corSymm(form = ~ 1 | Subject), weights = varIdent(form = ~ 1 | age)) fm2Orth.gls <- update(fm1Orth.gls, corr = corCompSymm(form = ~ 1 | Subject)) # anova.gls anova(fm1Orth.gls, fm2Orth.gls) fm3Orth.gls <- update(fm2Orth.gls, weights = NULL) # anova.gls anova(fm2Orth.gls, fm3Orth.gls) fm4Orth.gls <- update(fm3Orth.gls, weights = varIdent(form = ~ 1 | Sex)) # anova.gls anova(fm3Orth.gls, fm4Orth.gls) # not in book but needed for the following command fm3Orth.lme <- lme(distance~Sex*I(age-11), data = Orthodont, random = ~ I(age-11) | Subject, weights = varIdent(form = ~ 1 | Sex)) # anova.lme to compare an "lme" object with a "gls" object anova(fm3Orth.lme, fm4Orth.gls, test = FALSE) # Pinheiro and Bates, pp. 222-225 options(contrasts = c("contr.treatment", "contr.poly")) fm1BW.lme <- lme(weight ~ Time * Diet, BodyWeight, random = ~ Time) fm2BW.lme <- update(fm1BW.lme, weights = varPower()) # Test a specific contrast anova(fm2BW.lme, L = c("Time:Diet2" = 1, "Time:Diet3" = -1)) fm1Theo.lis <- nlsList( conc ~ SSfol(Dose, Time, lKe, lKa, lCl), data=Theoph) fm1Theo.lis # Pinheiro and Bates, pp. 352-365 fm1Theo.lis <- nlsList( conc ~ SSfol(Dose, Time, lKe, lKa, lCl), data=Theoph) fm1Theo.nlme <- nlme(fm1Theo.lis) fm2Theo.nlme <- update(fm1Theo.nlme, random=pdDiag(lKe+lKa+lCl~1) ) fm3Theo.nlme <- update(fm2Theo.nlme, random=pdDiag(lKa+lCl~1) ) # anova comparing 3 models anova(fm1Theo.nlme, fm3Theo.nlme, fm2Theo.nlme)