VotingClassifier¶
Voting classifier.
A classification is made by aggregating the predictions of each model in the ensemble. The probabilities for each class are summed up if use_probabilities
is set to True
. If not, the probabilities are ignored and each prediction is weighted the same. In this case, it's important that you use an odd number of classifiers. A random class will be picked if the number of classifiers is even.
Parameters¶
-
models
Type → list[base.Classifier]
The classifiers.
-
use_probabilities
Default →
True
Whether or to weight each prediction with its associated probability.
Attributes¶
- models
Examples¶
from river import datasets
from river import ensemble
from river import evaluate
from river import linear_model
from river import metrics
from river import naive_bayes
from river import preprocessing
from river import tree
dataset = datasets.Phishing()
model = (
preprocessing.StandardScaler() |
ensemble.VotingClassifier([
linear_model.LogisticRegression(),
tree.HoeffdingTreeClassifier(),
naive_bayes.GaussianNB()
])
)
metric = metrics.F1()
evaluate.progressive_val_score(dataset, model, metric)
F1: 86.94%
Methods¶
learn_one
Update the model with a set of features x
and a label y
.
Parameters
- x — 'dict'
- y — 'base.typing.ClfTarget'
Returns
Classifier: self
predict_one
Predict the label of a set of features x
.
Parameters
- x — 'dict'
Returns
base.typing.ClfTarget | None: The predicted label.
predict_proba_one
Predict the probability of each label for a dictionary of features x
.
Parameters
- x — 'dict'
Returns
dict[base.typing.ClfTarget, float]: A dictionary that associates a probability which each label.