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""" =================== Isotonic Regression =================== An illustration of the isotonic regression on generated data. The isotonic regression finds a non-decreasing approximation of a function while minimizing the mean squared error on the training data. The benefit of such a model is that it does not assume any form for the target function such as linearity. For comparison a linear regression is also presented. """ print(__doc__) # Author: Nelle Varoquaux <nelle.varoquaux@gmail.com> # Alexandre Gramfort <alexandre.gramfort@inria.fr> # License: BSD import numpy as np import matplotlib.pyplot as plt from matplotlib.collections import LineCollection from sklearn.linear_model import LinearRegression from sklearn.isotonic import IsotonicRegression from sklearn.utils import check_random_state n = 100 x = np.arange(n) rs = check_random_state(0) y = rs.randint(-50, 50, size=(n,)) + 50. * np.log(1 + np.arange(n)) ############################################################################### # Fit IsotonicRegression and LinearRegression models ir = IsotonicRegression() y_ = ir.fit_transform(x, y) lr = LinearRegression() lr.fit(x[:, np.newaxis], y) # x needs to be 2d for LinearRegression ############################################################################### # plot result segments = [[[i, y[i]], [i, y_[i]]] for i in range(n)] lc = LineCollection(segments, zorder=0) lc.set_array(np.ones(len(y))) lc.set_linewidths(0.5 * np.ones(n)) fig = plt.figure() plt.plot(x, y, 'r.', markersize=12) plt.plot(x, y_, 'g.-', markersize=12) plt.plot(x, lr.predict(x[:, np.newaxis]), 'b-') plt.gca().add_collection(lc) plt.legend(('Data', 'Isotonic Fit', 'Linear Fit'), loc='lower right') plt.title('Isotonic regression') plt.show()
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