Hyperparameter tuning is essential for optimizing machine learning models. In this example, we’ll demonstrate how to use scikit-learn’s RandomizedSearchCV
for hyperparameter tuning of an ExtraTreeRegressor
, commonly used for regression tasks.
Random search is a method for evaluating different combinations of model hyperparameters. Unlike grid search, it samples a fixed number of hyperparameter combinations from a specified distribution, making it more efficient when searching over a large hyperparameter space.
ExtraTreeRegressor
is an extremely randomized tree model used for regression tasks. It builds multiple decision trees and averages their predictions to improve the model’s accuracy and reduce overfitting.
Key hyperparameters for ExtraTreeRegressor
include the maximum depth of the tree (max_depth
), which controls how deep the tree can grow; the minimum number of samples required to split an internal node (min_samples_split
); and the minimum number of samples required to be at a leaf node (min_samples_leaf
).
from sklearn.datasets import make_regression
from sklearn.model_selection import train_test_split, RandomizedSearchCV
from sklearn.ensemble import ExtraTreesRegressor
from scipy.stats import randint
# Generate synthetic regression dataset
X, y = make_regression(n_samples=1000, n_features=10, noise=0.1, random_state=42)
# Split into train and test sets
X_train, X_test, y_train, y_test = train_test_split(X, y, test_size=0.2, random_state=42)
# Define the model
model = ExtraTreesRegressor(random_state=42)
# Define hyperparameter distribution
param_dist = {
'max_depth': randint(1, 20),
'min_samples_split': randint(2, 20),
'min_samples_leaf': randint(1, 20)
}
# Perform random search
random_search = RandomizedSearchCV(estimator=model,
param_distributions=param_dist,
n_iter=100,
cv=5,
scoring='neg_mean_squared_error',
random_state=42)
random_search.fit(X_train, y_train)
# Report best score and parameters
print(f"Best score: {random_search.best_score_:.3f}")
print(f"Best parameters: {random_search.best_params_}")
# Evaluate on test set
best_model = random_search.best_estimator_
mse = -best_model.score(X_test, y_test)
print(f"Test set mean squared error: {mse:.3f}")
Running the example gives an output like:
Best score: -2477.876
Best parameters: {'max_depth': 17, 'min_samples_leaf': 2, 'min_samples_split': 3}
Test set mean squared error: -0.878
The steps are as follows:
- Generate a synthetic regression dataset using scikit-learn’s
make_regression
function. - Split the dataset into train and test sets using
train_test_split
. - Define the
ExtraTreeRegressor
model. - Define the hyperparameter distribution with different values for
max_depth
,min_samples_split
, andmin_samples_leaf
. - Perform random search using
RandomizedSearchCV
, specifying theExtraTreeRegressor
model, hyperparameter distribution, 100 iterations, 5-fold cross-validation, and mean squared error scoring metric. - Report the best cross-validation score and best set of hyperparameters found by random search.
- Evaluate the best model on the hold-out test set and report the mean squared error.
By using RandomizedSearchCV
, we can efficiently explore different hyperparameter settings and find the combination that maximizes the model’s performance. This automated approach saves time and effort compared to manual hyperparameter tuning and helps ensure we select the best configuration for our ExtraTreeRegressor
model.