Plot the classification probability for different classifiers. We use a 3 class dataset, and we classify it with a Support Vector classifier, L1 and L2 penalized logistic regression with either a One-Vs-Rest or multinomial setting, and Gaussian process classification.
The logistic regression is not a multiclass classifier out of the box. As a result it can identify only the first class.
Out:
classif_rate for GPC : 82.666667 classif_rate for L2 logistic (OvR) : 76.666667 classif_rate for L1 logistic : 79.333333 classif_rate for Linear SVC : 82.000000 classif_rate for L2 logistic (Multinomial) : 82.000000
print(__doc__) # Author: Alexandre Gramfort <alexandre.gramfort@inria.fr> # License: BSD 3 clause import matplotlib.pyplot as plt import numpy as np from sklearn.linear_model import LogisticRegression from sklearn.svm import SVC from sklearn.gaussian_process import GaussianProcessClassifier from sklearn.gaussian_process.kernels import RBF from sklearn import datasets iris = datasets.load_iris() X = iris.data[:, 0:2] # we only take the first two features for visualization y = iris.target n_features = X.shape[1] C = 1.0 kernel = 1.0 * RBF([1.0, 1.0]) # for GPC # Create different classifiers. The logistic regression cannot do # multiclass out of the box. classifiers = {'L1 logistic': LogisticRegression(C=C, penalty='l1'), 'L2 logistic (OvR)': LogisticRegression(C=C, penalty='l2'), 'Linear SVC': SVC(kernel='linear', C=C, probability=True, random_state=0), 'L2 logistic (Multinomial)': LogisticRegression( C=C, solver='lbfgs', multi_class='multinomial'), 'GPC': GaussianProcessClassifier(kernel) } n_classifiers = len(classifiers) plt.figure(figsize=(3 * 2, n_classifiers * 2)) plt.subplots_adjust(bottom=.2, top=.95) xx = np.linspace(3, 9, 100) yy = np.linspace(1, 5, 100).T xx, yy = np.meshgrid(xx, yy) Xfull = np.c_[xx.ravel(), yy.ravel()] for index, (name, classifier) in enumerate(classifiers.items()): classifier.fit(X, y) y_pred = classifier.predict(X) classif_rate = np.mean(y_pred.ravel() == y.ravel()) * 100 print("classif_rate for %s : %f " % (name, classif_rate)) # View probabilities= probas = classifier.predict_proba(Xfull) n_classes = np.unique(y_pred).size for k in range(n_classes): plt.subplot(n_classifiers, n_classes, index * n_classes + k + 1) plt.title("Class %d" % k) if k == 0: plt.ylabel(name) imshow_handle = plt.imshow(probas[:, k].reshape((100, 100)), extent=(3, 9, 1, 5), origin='lower') plt.xticks(()) plt.yticks(()) idx = (y_pred == k) if idx.any(): plt.scatter(X[idx, 0], X[idx, 1], marker='o', c='k') ax = plt.axes([0.15, 0.04, 0.7, 0.05]) plt.title("Probability") plt.colorbar(imshow_handle, cax=ax, orientation='horizontal') plt.show()
Total running time of the script: (0 minutes 2.390 seconds)
Download Python source code:
plot_classification_probability.py
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plot_classification_probability.ipynb
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