How can I use a kernel in a logistic regression model using the sklearn library?

logreg = LogisticRegression()

logreg.fit(X_train, y_train)

y_pred = logreg.predict(X_test)
print(y_pred)

print(confusion_matrix(y_test,y_pred))
print(classification_report(y_test,y_pred))
predicted= logreg.predict(predict)
print("Accuracy:",metrics.accuracy_score(y_test, y_pred))
  • hope my answer helps. – seralouk Nov 8 at 12:59
up vote 1 down vote accepted

Very nice question but scikit-learn currently does not support neither kernel logistic regression nor the ANOVA kernel.

You can implement it though.

Example 1 for the ANOVA kernel:

import numpy as np
from sklearn.metrics.pairwise import check_pairwise_arrays
from scipy.linalg import cholesky
from sklearn.linear_model import LogisticRegression

def anova_kernel(X, Y=None, gamma=None, p=1):
    X, Y = check_pairwise_arrays(X, Y)
    if gamma is None:
        gamma = 1. / X.shape[1]

    diff = X[:, None, :] - Y[None, :, :]
    diff **= 2
    diff *= -gamma
    np.exp(diff, out=diff)
    K = diff.sum(axis=2)
    K **= p
    return K

# Kernel matrix based on X matrix of all data points
K = anova_kernel(X)
R = cholesky(K, lower=False)

# Define the model
clf = LogisticRegression()

# Here, I assume that you have splitted the data and here, traina re the indices for the training set
clf.fit(R[train], y_train)
preds = clf.predict(R[test])¨

Example 2 for Nyström:

from sklearn.kernel_approximation import Nystroem
from sklearn.linear_model import LogisticRegression
from sklearn.pipeline import Pipeline

K_train = anova_kernel(X_train)
clf = Pipeline([
    ('nys', Nystroem(kernel='precomputed', n_components=100)),
    ('lr', LogisticRegression())])
clf.fit(K_train, y_train)

K_test = anova_kernel(X_test, X_train)
preds = clf.predict(K_test)

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