# NOT RUN {
if (interactive()) {
fm01ML <- lmer(Yield ~ 1|Batch, Dyestuff, REML = FALSE)
## see ?"profile-methods"
mySumm <- function(.) { s <- sigma(.)
c(beta =getME(., "beta"), sigma = s, sig01 = unname(s * getME(., "theta"))) }
(t0 <- mySumm(fm01ML)) # just three parameters
## alternatively:
mySumm2 <- function(.) {
c(beta=fixef(.),sigma=sigma(.), sig01=sqrt(unlist(VarCorr(.))))
}
set.seed(101)
## 3.8s (on a 5600 MIPS 64bit fast(year 2009) desktop "AMD Phenom(tm) II X4 925"):
system.time( boo01 <- bootMer(fm01ML, mySumm, nsim = 100) )
## to "look" at it
if (requireNamespace("boot")) {
boo01
## note large estimated bias for sig01
## (~30% low, decreases _slightly_ for nsim = 1000)
## extract the bootstrapped values as a data frame ...
head(as.data.frame(boo01))
## ------ Bootstrap-based confidence intervals ------------
## warnings about "Some ... intervals may be unstable" go away
## for larger bootstrap samples, e.g. nsim=500
## intercept
(bCI.1 <- boot::boot.ci(boo01, index=1, type=c("norm", "basic", "perc")))# beta
## Residual standard deviation - original scale:
(bCI.2 <- boot::boot.ci(boo01, index=2, type=c("norm", "basic", "perc")))
## Residual SD - transform to log scale:
(bCI.2L <- boot::boot.ci(boo01, index=2, type=c("norm", "basic", "perc"),
h = log, hdot = function(.) 1/., hinv = exp))
## Among-batch variance:
(bCI.3 <- boot::boot.ci(boo01, index=3, type=c("norm", "basic", "perc"))) # sig01
confint(boo01)
confint(boo01,type="norm")
confint(boo01,type="basic")
## Graphical examination:
plot(boo01,index=3)
## Check stored values from a longer (1000-replicate) run:
(load(system.file("testdata","boo01L.RData", package="lme4")))# "boo01L"
plot(boo01L, index=3)
mean(boo01L$t[,"sig01"]==0) ## note point mass at zero!
}
# }
# NOT RUN {
<!-- %% if boot package available -->
# }
# NOT RUN {
}
# }
# NOT RUN {
<!-- %% interactive -->
# }
Run the code above in your browser using DataLab