问题
I'm attempting to use the "rpart" package in R to build a survival tree, and I'm hoping to use this tree to then make predictions for other observations.
I know there have been a lot of SO questions involving rpart and prediction; however, I have not been able to find any that address a problem that (I think) is specific to using rpart with a "Surv" object.
My particular problem involves interpreting the results of the "predict" function. An example is helpful:
library(rpart)
library(OIsurv)
# Make Data:
set.seed(4)
dat = data.frame(X1 = sample(x = c(1,2,3,4,5), size = 1000, replace=T))
dat$t = rexp(1000, rate=dat$X1)
dat$t = dat$t / max(dat$t)
dat$e = rbinom(n = 1000, size = 1, prob = 1-dat$t )
# Survival Fit:
sfit = survfit(Surv(t, event = e) ~ 1, data=dat)
plot(sfit)
# Tree Fit:
tfit = rpart(formula = Surv(t, event = e) ~ X1 , data = dat, control=rpart.control(minsplit=30, cp=0.01))
plot(tfit); text(tfit)
# Survival Fit, Broken by Node in Tree:
dat$node = as.factor(tfit$where)
plot( survfit(Surv(dat$t, event = dat$e)~dat$node) )
So far so good. My understanding of what's going on here is that rpart is attempting to fit exponential survival curves to subsets of my data. Based on this understanding, I believe that when I call predict(tfit)
, I get, for each observation, a number corresponding to the parameter for the exponential curve for that observation. So, for example, if predict(fit)[1]
is .46, then this means for the first observation in my original dataset, the curve is given by the equation P(s) = exp(−λt)
, where λ=.46
.
This seems like exactly what I'd want. For each observation (or any new observation), I can get the predicted probability that this observation will be alive/dead for a given time point. (EDIT: I'm realizing this is probably a misconception— these curves don't give the probability of alive/dead, but the probability of surviving an interval. This doesn't change the problem described below, though.)
However, when I try and use the exponential formula...
# Predict:
# an attempt to use the rates extracted from the tree to
# capture the survival curve formula in each tree node.
rates = unique(predict(tfit))
for (rate in rates) {
grid= seq(0,1,length.out = 100)
lines(x= grid, y= exp(-rate*(grid)), col=2)
}
What I've done here is split the dataset in the same way the survival tree did, then used survfit
to plot a non-parametric curve for each of these partitions. That's the black lines. I've also drawn lines corresponding to the result of plugging in (what I thought was) the 'rate' parameter into (what I thought was) the survival exponential formula.
I understand that the non-parametric and the parametric fit shouldn't necessarily be identical, but this seems more than that: it seems like I need to scale my X variable or something.
Basically, I don't seem to understand the formula that rpart/survival is using under the hood. Can anyone help me get from (1) rpart model to (2) a survival equation for any arbitrary observation?
回答1:
The survival data are scaled internally exponentially so that the predicted rate in the root node is always fixed to 1.000
. The predictions reported by the predict()
method are then always relative to the survival in the root node, i.e., higher or lower by a certain factor. See Section 8.4 in vignette("longintro", package = "rpart")
for more details. In any case, the Kaplan-Meier curves you are reported correspond exactly to what is also reported in the rpart
vignette.
If you want to obtain directly the plots of the Kaplan-Meier curves in the tree and get predicted median survival times, you can coerce the rpart
tree to a constparty
tree as provided by the partykit
package:
library("partykit")
(tfit2 <- as.party(tfit))
## Model formula:
## Surv(t, event = e) ~ X1
##
## Fitted party:
## [1] root
## | [2] X1 < 2.5
## | | [3] X1 < 1.5: 0.192 (n = 213)
## | | [4] X1 >= 1.5: 0.082 (n = 213)
## | [5] X1 >= 2.5: 0.037 (n = 574)
##
## Number of inner nodes: 2
## Number of terminal nodes: 3
##
plot(tfit2)
The print output shows the median survival time and the visualization the corresponding Kaplan-Meier curve. Both can also be obtained with the predict()
method setting the type
argument to "response"
and "prob"
respectively.
predict(tfit2, type = "response")[1]
## 5
## 0.03671885
predict(tfit2, type = "prob")[[1]]
## Call: survfit(formula = y ~ 1, weights = w, subset = w > 0)
##
## records n.max n.start events median 0.95LCL 0.95UCL
## 574.0000 574.0000 574.0000 542.0000 0.0367 0.0323 0.0408
As an alternative to the rpart
survival trees you might also consider the non-parametric survival trees based on conditional inference in ctree()
(using logrank scores) or fully parametric survival trees using the general mob()
infrastructure from the partykit
package.
来源:https://stackoverflow.com/questions/30700627/using-a-survival-tree-from-the-rpart-package-in-r-to-predict-new-observations