Gets estimates of E[Y|X=x] using a trained regression forest.
# S3 method for ll_regression_forest predict( object, newdata = NULL, linear.correction.variables = NULL, ll.lambda = NULL, ll.weight.penalty = FALSE, num.threads = NULL, estimate.variance = FALSE, ... )
| object | The trained forest. |
|---|---|
| newdata | Points at which predictions should be made. If NULL, makes out-of-bag predictions on the training set instead (i.e., provides predictions at Xi using only trees that did not use the i-th training example). Note that this matrix should have the number of columns as the training matrix, and that the columns must appear in the same order. |
| linear.correction.variables | Optional subset of indexes for variables to be used in local linear prediction. If left NULL, all variables are used. We run a locally weighted linear regression on the included variables. Please note that this is a beta feature still in development, and may slow down prediction considerably. Defaults to NULL. |
| ll.lambda | Ridge penalty for local linear predictions. Defaults to NULL and will be cross-validated. |
| ll.weight.penalty | Option to standardize ridge penalty by covariance (TRUE), or penalize all covariates equally (FALSE). Defaults to FALSE. |
| num.threads | Number of threads used in training. If set to NULL, the software automatically selects an appropriate amount. |
| estimate.variance | Whether variance estimates for \(\hat\tau(x)\) are desired (for confidence intervals). |
| ... | Additional arguments (currently ignored). |
A vector of predictions.
# \donttest{ # Train the forest. n <- 50 p <- 5 X <- matrix(rnorm(n * p), n, p) Y <- X[, 1] * rnorm(n) forest <- ll_regression_forest(X, Y) # Predict using the forest. X.test <- matrix(0, 101, p) X.test[, 1] <- seq(-2, 2, length.out = 101) predictions <- predict(forest, X.test) # Predict on out-of-bag training samples. predictions.oob <- predict(forest) # }