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The SuperLearner package in R returns predicted values for all observations included in the training set under SL.predict and also returns coefficients (coef) that weight the different underlying algorithms to make up the SuperLearner algorithm for each fold in the cross-validation, but I cannot figure out how to use the package to get predicted values for an out-of sample test set. For example, below is the toy example from their manual. The only change I have made is to add a hold out test set X2 and Y2 at the end. How do I estimate predicted values for this out-of-sample test set based on the SuperLearner model from the training set? How can I save the model results so that I can estimate predicted values in the future based on this same model?

library(SuperLearner)


set.seed(23432)
## training set
n <- 500
p <- 50
X <- matrix(rnorm(n*p), nrow = n, ncol = p)
colnames(X) <- paste("X", 1:p, sep="")
X <- data.frame(X)
Y <- X[, 1] + sqrt(abs(X[, 2] * X[, 3])) + X[, 2] - X[, 3] + rnorm(n)
# build Library and run Super Learner
SL.library <- c("SL.glm", "SL.randomForest", "SL.gam", "SL.polymars", "SL.mean")
## Not run:
test <- CV.SuperLearner(Y = Y, X = X, V = 10, SL.library = SL.library,
  verbose = TRUE, method = "method.NNLS")
test
summary(test)
# Look at the coefficients across folds
coef(test)
## End(Not run)

###Added Test Set
X2 <- matrix(rnorm(n*p), nrow = n, ncol = p)
colnames(X2) <- paste("X", 1:p, sep="")
X2 <- data.frame(X2)
Y2 <- X2[, 1] + sqrt(abs(X2[, 2] * X2[, 3])) + X2[, 2] - X2[, 3] + rnorm(n)
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2 Answers 2

up vote 1 down vote accepted

You can use the predict method for SuperLearner objects after estimating your model on all the data (CV.SuperLearner estimates the model on several subsets of the data, not the whole data).

r <- SuperLearner(Y = Y, X = X, SL.library = SL.library, verbose = TRUE, method = "method.NNLS")
plot( Y2 ~ predict(r, newdata=X2)$pred )
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My understanding of SuperLearner's strength is that it weights the underlying algorithms based on their out-of-sample performance in the v-fold cross-validation within the training set. It cannot do that if you do not split the training set into multiple folds with CV.SuperLearner. –  Michael Sep 8 '13 at 21:40
1  
The cross-validation is done automatically when you call SuperLearner: all algorithms are run on V folds, the results are used to compute the weights, all algorithms are then run on the whole data, and their forecasts are weighted accordingly. CV.SuperLearner adds another level of cross-validation, only useful if you want to measure how well the whole algorithm works on your data. –  Vincent Zoonekynd Sep 8 '13 at 22:52
    
Thanks, in re-reading the manual I see now that the default is V = 10 for the SuperLearner function, specified in the default of the argument for cvControl. –  Michael Sep 9 '13 at 22:02

Simple, by using your hold out sample in the CV.SuperLearner procedure. In this procedure, the trained SuperLearner is being evaluated using the cross validation methodology. Hope this helps -Remko-

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