pvalues | R Documentation |
One of the most frequently asked questions about
lme4
is "how do I calculate p-values for estimated
parameters?" Previous versions of lme4
provided
the mcmcsamp
function, which efficiently generated
a Markov chain Monte Carlo sample from the posterior
distribution of the parameters, assuming flat (scaled
likelihood) priors. Due to difficulty in constructing a
version of mcmcsamp
that was reliable even in
cases where the estimated random effect variances were
near zero (e.g.
https://stat.ethz.ch/pipermail/r-sig-mixed-models/2009q4/003115.html),
mcmcsamp
has been withdrawn (or more precisely,
not updated to work with lme4
versions >=1.0.0).
Many users, including users of the aovlmer.fnc
function from
the languageR
package which relies on mcmcsamp
, will be
deeply disappointed by this lacuna. Users who need p-values have a
variety of options. In the list below, the methods marked MC
provide explicit model comparisons; CI
denotes confidence
intervals; and P
denotes parameter-level or sequential tests of
all effects in a model. The starred (*) suggestions provide
finite-size corrections (important when the number of groups is <50);
those marked (+) support GLMMs as well as LMMs.
likelihood ratio tests via anova
or drop1
(MC,+)
profile confidence intervals via profile.merMod
and
confint.merMod
(CI,+)
parametric bootstrap confidence intervals and model comparisons via
bootMer
(or PBmodcomp
in the
pbkrtest
package) (MC/CI,*,+)
for random effects, simulation tests via the RLRsim
package
(MC,*)
for fixed effects, F tests via Kenward-Roger
approximation using KRmodcomp
from the
pbkrtest
package (MC,*)
car::Anova
and
lmerTest::anova
provide wrappers for
Kenward-Roger-corrected tests using pbkrtest
:
lmerTest::anova
also provides t tests via the
Satterthwaite approximation (P,*)
afex::mixed
is another wrapper for
pbkrtest
and anova
providing
"Type 3" tests of all effects (P,*,+)
arm::sim
, or bootMer
, can be used
to compute confidence intervals on predictions.
For glmer
models, the summary
output provides p-values
based on asymptotic Wald tests (P); while this is standard practice
for generalized linear models, these tests make assumptions both about
the shape of the log-likelihood surface and about the accuracy of
a chi-squared approximation to differences in log-likelihoods.
When all else fails, don't forget to keep p-values in perspective: https://phdcomics.com/comics/archive.php?comicid=905
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