A two-dimensional classification example showing iso-probability lines for the predicted probabilities.
Out:
Learned kernel: 0.0256**2 * DotProduct(sigma_0=5.72) ** 2
print(__doc__) # Author: Vincent Dubourg <vincent.dubourg@gmail.com> # Adapted to GaussianProcessClassifier: # Jan Hendrik Metzen <jhm@informatik.uni-bremen.de> # License: BSD 3 clause import numpy as np from matplotlib import pyplot as plt from matplotlib import cm from sklearn.gaussian_process import GaussianProcessClassifier from sklearn.gaussian_process.kernels import DotProduct, ConstantKernel as C # A few constants lim = 8 def g(x): """The function to predict (classification will then consist in predicting whether g(x) <= 0 or not)""" return 5. - x[:, 1] - .5 * x[:, 0] ** 2. # Design of experiments X = np.array([[-4.61611719, -6.00099547], [4.10469096, 5.32782448], [0.00000000, -0.50000000], [-6.17289014, -4.6984743], [1.3109306, -6.93271427], [-5.03823144, 3.10584743], [-2.87600388, 6.74310541], [5.21301203, 4.26386883]]) # Observations y = np.array(g(X) > 0, dtype=int) # Instanciate and fit Gaussian Process Model kernel = C(0.1, (1e-5, np.inf)) * DotProduct(sigma_0=0.1) ** 2 gp = GaussianProcessClassifier(kernel=kernel) gp.fit(X, y) print("Learned kernel: %s " % gp.kernel_) # Evaluate real function and the predicted probability res = 50 x1, x2 = np.meshgrid(np.linspace(- lim, lim, res), np.linspace(- lim, lim, res)) xx = np.vstack([x1.reshape(x1.size), x2.reshape(x2.size)]).T y_true = g(xx) y_prob = gp.predict_proba(xx)[:, 1] y_true = y_true.reshape((res, res)) y_prob = y_prob.reshape((res, res)) # Plot the probabilistic classification iso-values fig = plt.figure(1) ax = fig.gca() ax.axes.set_aspect('equal') plt.xticks([]) plt.yticks([]) ax.set_xticklabels([]) ax.set_yticklabels([]) plt.xlabel('$x_1$') plt.ylabel('$x_2$') cax = plt.imshow(y_prob, cmap=cm.gray_r, alpha=0.8, extent=(-lim, lim, -lim, lim)) norm = plt.matplotlib.colors.Normalize(vmin=0., vmax=0.9) cb = plt.colorbar(cax, ticks=[0., 0.2, 0.4, 0.6, 0.8, 1.], norm=norm) cb.set_label('${\\rm \mathbb{P}}\left[\widehat{G}(\mathbf{x}) \leq 0\\right]$') plt.clim(0, 1) plt.plot(X[y <= 0, 0], X[y <= 0, 1], 'r.', markersize=12) plt.plot(X[y > 0, 0], X[y > 0, 1], 'b.', markersize=12) cs = plt.contour(x1, x2, y_true, [0.], colors='k', linestyles='dashdot') cs = plt.contour(x1, x2, y_prob, [0.666], colors='b', linestyles='solid') plt.clabel(cs, fontsize=11) cs = plt.contour(x1, x2, y_prob, [0.5], colors='k', linestyles='dashed') plt.clabel(cs, fontsize=11) cs = plt.contour(x1, x2, y_prob, [0.334], colors='r', linestyles='solid') plt.clabel(cs, fontsize=11) plt.show()
Total running time of the script: (0 minutes 0.316 seconds)
Download Python source code:
plot_gpc_isoprobability.py
Download IPython notebook:
plot_gpc_isoprobability.ipynb
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