The RandomForestClassifier
is trained using bootstrap aggregation, where each new tree is fit from a bootstrap sample of the training observations . The out-of-bag (OOB) error is the average error for each calculated using predictions from the trees that do not contain in their respective bootstrap sample. This allows the RandomForestClassifier
to be fit and validated whilst being trained [1].
The example below demonstrates how the OOB error can be measured at the addition of each new tree during training. The resulting plot allows a practitioner to approximate a suitable value of n_estimators
at which the error stabilizes.
[1] | T. Hastie, R. Tibshirani and J. Friedman, “Elements of Statistical Learning Ed. 2”, p592-593, Springer, 2009. |
import matplotlib.pyplot as plt from collections import OrderedDict from sklearn.datasets import make_classification from sklearn.ensemble import RandomForestClassifier, ExtraTreesClassifier # Author: Kian Ho <[email protected]> # Gilles Louppe <[email protected]> # Andreas Mueller <[email protected]> # # License: BSD 3 Clause print(__doc__) RANDOM_STATE = 123 # Generate a binary classification dataset. X, y = make_classification(n_samples=500, n_features=25, n_clusters_per_class=1, n_informative=15, random_state=RANDOM_STATE) # NOTE: Setting the `warm_start` construction parameter to `True` disables # support for parallelized ensembles but is necessary for tracking the OOB # error trajectory during training. ensemble_clfs = [ ("RandomForestClassifier, max_features='sqrt'", RandomForestClassifier(warm_start=True, oob_score=True, max_features="sqrt", random_state=RANDOM_STATE)), ("RandomForestClassifier, max_features='log2'", RandomForestClassifier(warm_start=True, max_features='log2', oob_score=True, random_state=RANDOM_STATE)), ("RandomForestClassifier, max_features=None", RandomForestClassifier(warm_start=True, max_features=None, oob_score=True, random_state=RANDOM_STATE)) ] # Map a classifier name to a list of (<n_estimators>, <error rate>) pairs. error_rate = OrderedDict((label, []) for label, _ in ensemble_clfs) # Range of `n_estimators` values to explore. min_estimators = 15 max_estimators = 175 for label, clf in ensemble_clfs: for i in range(min_estimators, max_estimators + 1): clf.set_params(n_estimators=i) clf.fit(X, y) # Record the OOB error for each `n_estimators=i` setting. oob_error = 1 - clf.oob_score_ error_rate[label].append((i, oob_error)) # Generate the "OOB error rate" vs. "n_estimators" plot. for label, clf_err in error_rate.items(): xs, ys = zip(*clf_err) plt.plot(xs, ys, label=label) plt.xlim(min_estimators, max_estimators) plt.xlabel("n_estimators") plt.ylabel("OOB error rate") plt.legend(loc="upper right") plt.show()
Total running time of the script: ( 0 minutes 8.145 seconds)
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