bootCase objects from the car package.
"confint"(object, parm = NULL, level = conf.level, conf.level = 0.95, plot = FALSE, err.col = "black", err.lwd = 2, rows = NULL, cols = NULL, ...)
"predict"(object, FUN, conf.level = 0.95, digits = NULL, ...)
"htest"(object, parm = NULL, bo = 0, alt = c("two.sided", "less", "greater"), plot = FALSE, ...)
"hist"(x, same.ylim = TRUE, ymax = NULL, rows = round(sqrt(ncol(x))), cols = ceiling(sqrt(ncol(x))), ...)
"plot"(x, ...)bootCase object.object contains the parameter estimates to use for the confidence interval or hypothesis test.conf.level.confint then a histogram of the parm parameters from the bootstrap samples with error bars that illustrate the bootstrapped confidence intervals will be constructed. If codehtest then a histogram of the parm parameters with a vertical line illustrating the bo value will be constructed.TRUE. Ignored if ylmts is non-null.object is a matrix, then confint returns a matrix with as many rows as columns (i.e., parameter estimates) in object and two columns of the quantiles that correspond to the approximate confidence interval. If object is a vector, then confint returns a vector with the two quantiles that correspond to the approximate confidence interval.htest returns a two-column matrix with the first column containing the hypothesized value sent to this function and the second column containing the corresponding p-value.hist constructs histograms of the bootstrapped parameter estimates.plot constructs scatterplots of all pairs of bootstrapped parameter estimates.predict returns a matrix with one row and three columns, with the first column holding the predicted value (i.e., the median prediction) and the last two columns holding the approximate confidence interval.
confint finds the two quantiles that have the (1-conf.level)/2 proportion of bootstrapped parameter estimates below and above. This is an approximate 100conf.level% confidence interval.predict applies a user-supplied function to each row of object and then finds the median and the two quantiles that have the proportion (1-conf.level)/2 of the bootstrapped predictions below and above. The median is returned as the predicted value and the quantiles are returned as an approximate 100conf.level% confidence interval for that prediction. Values for the independent variable in FUN must be a named argument sent in the ... argument (see examples). Note that if other arguments are needed in FUN besides values for the independent variable, then these are included in the ... argument AFTER the values for the independent variable.
In htest the “direction” of the alternative hypothesis is identified by a string in the alt= argument. The strings may be "less" for a “less than” alternative, "greater" for a “greater than” alternative, or "two.sided" for a “not equals” alternative (the DEFAULT). In the one-tailed alternatives the p-value is the proportion of bootstrapped parameter estimates in object$coefboot that are extreme of the null hypothesized parameter value in bo. In the two-tailed alternative the p-value is twice the smallest of the proportion of bootstrapped parameter estimates above or below the null hypothesized parameter value in bo.
bootCase in car.
data(Ecoli)
fnx <- function(days,B1,B2,B3) {
if (length(B1) > 1) {
B2 <- B1[2]
B3 <- B1[3]
B1 <- B1[1]
}
B1/(1+exp(B2+B3*days))
}
nl1 <- nls(cells~fnx(days,B1,B2,B3),data=Ecoli,start=list(B1=6,B2=7.2,B3=-1.45))
if (require(car)) { # for bootCase()
nl1.boot <- car::bootCase(nl1,B=99) # B=99 too small to be useful
confint(nl1.boot,"B1")
confint(nl1.boot,c(2,3))
confint(nl1.boot,conf.level=0.90)
predict(nl1.boot,fnx,days=1:3)
predict(nl1.boot,fnx,days=3)
htest(nl1.boot,1,bo=6,alt="less")
hist(nl1.boot)
plot(nl1.boot)
cor(nl1.boot)
}
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