if (FALSE) {
require(ggplot2)
ns <- 20 # no. subjects
nt <- 10 # no. time points/subject
B <- 10 # no. bootstrap resamples
# usually do 100 for variances, 1000 for nonparametric CLs
rho <- .5 # AR(1) correlation parameter
V <- matrix(0, nrow=nt, ncol=nt)
V <- rho^abs(row(V)-col(V)) # per-subject correlation/covariance matrix
d <- expand.grid(tim=1:nt, id=1:ns)
d$trt <- factor(ifelse(d$id <= ns/2, 'a', 'b'))
true.beta <- c(Intercept=0,tim=.1,'tim^2'=0,'trt=b'=1)
d$ey <- true.beta['Intercept'] + true.beta['tim']*d$tim +
true.beta['tim^2']*(d$tim^2) + true.beta['trt=b']*(d$trt=='b')
set.seed(13)
library(MASS) # needed for mvrnorm
d$y <- d$ey + as.vector(t(mvrnorm(n=ns, mu=rep(0,nt), Sigma=V)))
dd <- datadist(d); options(datadist='dd')
f <- Gls(y ~ pol(tim,2) + trt, correlation=corCAR1(form= ~tim | id),
data=d, B=B)
f
AIC(f)
f$var # bootstrap variances
f$varBeta # original variances
summary(f)
anova(f)
ggplot(Predict(f, tim, trt))
# v <- Variogram(f, form=~tim|id, data=d)
nlme:::summary.gls(f)$tTable # print matrix of estimates etc.
options(datadist=NULL)
}
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