An illustration of various linkage option for agglomerative clustering on a 2D embedding of the digits dataset.
The goal of this example is to show intuitively how the metrics behave, and not to find good clusters for the digits. This is why the example works on a 2D embedding.
What this example shows us is the behavior “rich getting richer” of agglomerative clustering that tends to create uneven cluster sizes. This behavior is especially pronounced for the average linkage strategy, that ends up with a couple of singleton clusters.
Out:
Computing embedding Done. ward : 0.36s average : 0.33s complete : 0.29s
# Authors: Gael Varoquaux # License: BSD 3 clause (C) INRIA 2014 print(__doc__) from time import time import numpy as np from scipy import ndimage from matplotlib import pyplot as plt from sklearn import manifold, datasets digits = datasets.load_digits(n_class=10) X = digits.data y = digits.target n_samples, n_features = X.shape np.random.seed(0) def nudge_images(X, y): # Having a larger dataset shows more clearly the behavior of the # methods, but we multiply the size of the dataset only by 2, as the # cost of the hierarchical clustering methods are strongly # super-linear in n_samples shift = lambda x: ndimage.shift(x.reshape((8, 8)), .3 * np.random.normal(size=2), mode='constant', ).ravel() X = np.concatenate([X, np.apply_along_axis(shift, 1, X)]) Y = np.concatenate([y, y], axis=0) return X, Y X, y = nudge_images(X, y) #---------------------------------------------------------------------- # Visualize the clustering def plot_clustering(X_red, X, labels, title=None): x_min, x_max = np.min(X_red, axis=0), np.max(X_red, axis=0) X_red = (X_red - x_min) / (x_max - x_min) plt.figure(figsize=(6, 4)) for i in range(X_red.shape[0]): plt.text(X_red[i, 0], X_red[i, 1], str(y[i]), color=plt.cm.spectral(labels[i] / 10.), fontdict={'weight': 'bold', 'size': 9}) plt.xticks([]) plt.yticks([]) if title is not None: plt.title(title, size=17) plt.axis('off') plt.tight_layout() #---------------------------------------------------------------------- # 2D embedding of the digits dataset print("Computing embedding") X_red = manifold.SpectralEmbedding(n_components=2).fit_transform(X) print("Done.") from sklearn.cluster import AgglomerativeClustering for linkage in ('ward', 'average', 'complete'): clustering = AgglomerativeClustering(linkage=linkage, n_clusters=10) t0 = time() clustering.fit(X_red) print("%s : %.2fs" % (linkage, time() - t0)) plot_clustering(X_red, X, clustering.labels_, "%s linkage" % linkage) plt.show()
Total running time of the script: ( 0 minutes 19.307 seconds)
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http://scikit-learn.org/stable/auto_examples/cluster/plot_digits_linkage.html