esticon | R Documentation |
Computes linear functions (i.e. weighted sums) of the estimated regression parameters. Can also test the hypothesis, that such a function is equal to a specific value.
esticon(obj, L, beta0, conf.int = TRUE, level = 0.95, joint.test = FALSE, ...)
## S3 method for class 'esticon_class'
coef(object, ...)
## S3 method for class 'esticon_class'
summary(object, ...)
## S3 method for class 'esticon_class'
confint(object, parm, level = 0.95, ...)
## S3 method for class 'esticon_class'
vcov(object, ...)
obj |
Regression object (of type lm, glm, lme, geeglm). |
L |
Matrix (or vector) specifying linear functions of the regression parameters (one linear function per row). The number of columns must match the number of fitted regression parameters in the model. See 'details' below. |
beta0 |
A vector of numbers |
conf.int |
TRUE |
level |
The confidence level |
joint.test |
Logical value. If TRUE a 'joint' Wald test for the hypothesis L beta = beta0 is made. Default is that the 'row-wise' tests are made, i.e. (L beta)i=beta0i. If joint.test is TRUE, then no confidence interval etc. is calculated. |
... |
Additional arguments; currently not used. |
object |
An |
parm |
a specification of which parameters are to be given confidence intervals, either a vector of numbers or a vector of names. If missing, all parameters are considered. |
Let the estimated parameters of the model be
\beta_1, \beta_2, \dots, \beta_p
A linear function of the estimates is of the form
l=\lambda_1
\beta_1+\lambda_2 \beta_2+ \dots+\lambda_p \beta_p
where
\lambda_1, \lambda_2, \dots,\lambda_p
is specified by the
user.
The esticon function calculates l, its standard error and by default also a
95 pct confidence interval. It is sometimes of interest to test the
hypothesis H_0: l=\beta_0
for some value \beta_0
given by the user. A test is provided for the hypothesis H_0:
l=0
but other values of \beta_0
can be specified.
In general, one can specify r such linear functions at one time by
specifying L to be an r\times p
matrix where each row consists
of p numbers \lambda_1,\lambda_2,\dots, \lambda_p
. Default is
then that \beta_0
is a p vector of 0s but other values can be
given.
It is possible to test simultaneously that all specified linear functions
are equal to the corresponding values in \beta_0
.
For computing contrasts among levels of a single factor, 'contrast.lm' may be more convenient.
Returns a matrix with one row per linear function. Columns contain estimated coefficients, standard errors, t values, degrees of freedom, two-sided p-values, and the lower and upper endpoints of the 1-alpha confidence intervals.
Søren Højsgaard, sorenh@math.aau.dk
data(iris)
lm1 <- lm(Sepal.Length ~ Sepal.Width + Species + Sepal.Width : Species, data=iris)
## Note that the setosa parameters are set to zero
coef(lm1)
## Estimate the intercept for versicolor
lambda1 <- c(1, 0, 1, 0, 0, 0)
esticon(lm1, L=lambda1)
## Estimate the difference between versicolor and virgica intercept
## and test if the difference is 1
lambda2 <- c(0, 1, -1, 0, 0, 0)
esticon(lm1, L=lambda2, beta0=1)
## Do both estimates at one time
esticon(lm1, L=rbind(lambda1, lambda2), beta0=c(0, 1))
## Make a combined test for that the difference between versicolor and virgica intercept
## and difference between versicolor and virginica slope is zero:
lambda3 <- c(0, 0, 0, 0, 1, -1)
esticon(lm1, L=rbind(lambda2, lambda3), joint.test=TRUE)
# Example using esticon on coxph objects (thanks to Alessandro A. Leidi).
# Using dataset 'veteran' in the survival package
# from the Veterans' Administration Lung Cancer study
if (require(survival)){
data(veteran)
sapply(veteran, class)
levels(veteran$celltype)
attach(veteran)
veteran.s <- Surv(time, status)
coxmod <- coxph(veteran.s ~ age + celltype + trt, method='breslow')
summary(coxmod)
# compare a subject 50 years old with celltype 1
# to a subject 70 years old with celltype 2
# both subjects on the same treatment
AvB <- c(-20, -1, 0, 0, 0)
# compare a subject 40 years old with celltype 2 on treat=0
# to a subject 35 years old with celltype 3 on treat=1
CvB <- c(5, 1, -1, 0, -1)
est <- esticon(coxmod, L=rbind(AvB, CvB))
est
##exp(est[, c(2, 7, 8)])
}
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