Plot the confidence ellipsoids of each class and decision boundary
print(__doc__) from scipy import linalg import numpy as np import matplotlib.pyplot as plt import matplotlib as mpl from matplotlib import colors from sklearn.discriminant_analysis import LinearDiscriminantAnalysis from sklearn.discriminant_analysis import QuadraticDiscriminantAnalysis
colormap
cmap = colors.LinearSegmentedColormap( 'red_blue_classes', {'red': [(0, 1, 1), (1, 0.7, 0.7)], 'green': [(0, 0.7, 0.7), (1, 0.7, 0.7)], 'blue': [(0, 0.7, 0.7), (1, 1, 1)]}) plt.cm.register_cmap(cmap=cmap)
generate datasets
def dataset_fixed_cov(): '''Generate 2 Gaussians samples with the same covariance matrix''' n, dim = 300, 2 np.random.seed(0) C = np.array([[0., -0.23], [0.83, .23]]) X = np.r_[np.dot(np.random.randn(n, dim), C), np.dot(np.random.randn(n, dim), C) + np.array([1, 1])] y = np.hstack((np.zeros(n), np.ones(n))) return X, y def dataset_cov(): '''Generate 2 Gaussians samples with different covariance matrices''' n, dim = 300, 2 np.random.seed(0) C = np.array([[0., -1.], [2.5, .7]]) * 2. X = np.r_[np.dot(np.random.randn(n, dim), C), np.dot(np.random.randn(n, dim), C.T) + np.array([1, 4])] y = np.hstack((np.zeros(n), np.ones(n))) return X, y
plot functions
def plot_data(lda, X, y, y_pred, fig_index): splot = plt.subplot(2, 2, fig_index) if fig_index == 1: plt.title('Linear Discriminant Analysis') plt.ylabel('Data with fixed covariance') elif fig_index == 2: plt.title('Quadratic Discriminant Analysis') elif fig_index == 3: plt.ylabel('Data with varying covariances') tp = (y == y_pred) # True Positive tp0, tp1 = tp[y == 0], tp[y == 1] X0, X1 = X[y == 0], X[y == 1] X0_tp, X0_fp = X0[tp0], X0[~tp0] X1_tp, X1_fp = X1[tp1], X1[~tp1] alpha = 0.5 # class 0: dots plt.plot(X0_tp[:, 0], X0_tp[:, 1], 'o', alpha=alpha, color='red') plt.plot(X0_fp[:, 0], X0_fp[:, 1], '*', alpha=alpha, color='#990000') # dark red # class 1: dots plt.plot(X1_tp[:, 0], X1_tp[:, 1], 'o', alpha=alpha, color='blue') plt.plot(X1_fp[:, 0], X1_fp[:, 1], '*', alpha=alpha, color='#000099') # dark blue # class 0 and 1 : areas nx, ny = 200, 100 x_min, x_max = plt.xlim() y_min, y_max = plt.ylim() xx, yy = np.meshgrid(np.linspace(x_min, x_max, nx), np.linspace(y_min, y_max, ny)) Z = lda.predict_proba(np.c_[xx.ravel(), yy.ravel()]) Z = Z[:, 1].reshape(xx.shape) plt.pcolormesh(xx, yy, Z, cmap='red_blue_classes', norm=colors.Normalize(0., 1.)) plt.contour(xx, yy, Z, [0.5], linewidths=2., colors='k') # means plt.plot(lda.means_[0][0], lda.means_[0][1], 'o', color='black', markersize=10) plt.plot(lda.means_[1][0], lda.means_[1][1], 'o', color='black', markersize=10) return splot def plot_ellipse(splot, mean, cov, color): v, w = linalg.eigh(cov) u = w[0] / linalg.norm(w[0]) angle = np.arctan(u[1] / u[0]) angle = 180 * angle / np.pi # convert to degrees # filled Gaussian at 2 standard deviation ell = mpl.patches.Ellipse(mean, 2 * v[0] ** 0.5, 2 * v[1] ** 0.5, 180 + angle, facecolor=color, edgecolor='yellow', linewidth=2, zorder=2) ell.set_clip_box(splot.bbox) ell.set_alpha(0.5) splot.add_artist(ell) splot.set_xticks(()) splot.set_yticks(()) def plot_lda_cov(lda, splot): plot_ellipse(splot, lda.means_[0], lda.covariance_, 'red') plot_ellipse(splot, lda.means_[1], lda.covariance_, 'blue') def plot_qda_cov(qda, splot): plot_ellipse(splot, qda.means_[0], qda.covariances_[0], 'red') plot_ellipse(splot, qda.means_[1], qda.covariances_[1], 'blue')
for i, (X, y) in enumerate([dataset_fixed_cov(), dataset_cov()]): # Linear Discriminant Analysis lda = LinearDiscriminantAnalysis(solver="svd", store_covariance=True) y_pred = lda.fit(X, y).predict(X) splot = plot_data(lda, X, y, y_pred, fig_index=2 * i + 1) plot_lda_cov(lda, splot) plt.axis('tight') # Quadratic Discriminant Analysis qda = QuadraticDiscriminantAnalysis(store_covariances=True) y_pred = qda.fit(X, y).predict(X) splot = plot_data(qda, X, y, y_pred, fig_index=2 * i + 2) plot_qda_cov(qda, splot) plt.axis('tight') plt.suptitle('Linear Discriminant Analysis vs Quadratic Discriminant Analysis') plt.show()
Total running time of the script: (0 minutes 0.501 seconds)
plot_lda_qda.py
plot_lda_qda.ipynb
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Licensed under the 3-clause BSD License.
http://scikit-learn.org/stable/auto_examples/classification/plot_lda_qda.html