.. note::
:class: sphx-glr-download-link-note
Click :ref:`here ` to download the full example code or to run this example in your browser via Binder
.. rst-class:: sphx-glr-example-title
.. _sphx_glr_auto_examples_cluster_plot_agglomerative_clustering.py:
Agglomerative clustering with and without structure
===================================================
This example shows the effect of imposing a connectivity graph to capture
local structure in the data. The graph is simply the graph of 20 nearest
neighbors.
Two consequences of imposing a connectivity can be seen. First clustering
with a connectivity matrix is much faster.
Second, when using a connectivity matrix, single, average and complete
linkage are unstable and tend to create a few clusters that grow very
quickly. Indeed, average and complete linkage fight this percolation behavior
by considering all the distances between two clusters when merging them (
while single linkage exaggerates the behaviour by considering only the
shortest distance between clusters). The connectivity graph breaks this
mechanism for average and complete linkage, making them resemble the more
brittle single linkage. This effect is more pronounced for very sparse graphs
(try decreasing the number of neighbors in kneighbors_graph) and with
complete linkage. In particular, having a very small number of neighbors in
the graph, imposes a geometry that is close to that of single linkage,
which is well known to have this percolation instability.
.. rst-class:: sphx-glr-horizontal
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.. image:: /auto_examples/cluster/images/sphx_glr_plot_agglomerative_clustering_001.png
:class: sphx-glr-multi-img
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.. image:: /auto_examples/cluster/images/sphx_glr_plot_agglomerative_clustering_002.png
:class: sphx-glr-multi-img
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.. image:: /auto_examples/cluster/images/sphx_glr_plot_agglomerative_clustering_003.png
:class: sphx-glr-multi-img
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.. image:: /auto_examples/cluster/images/sphx_glr_plot_agglomerative_clustering_004.png
:class: sphx-glr-multi-img
.. code-block:: default
# Authors: Gael Varoquaux, Nelle Varoquaux
# License: BSD 3 clause
import time
import matplotlib.pyplot as plt
import numpy as np
from sklearn.cluster import AgglomerativeClustering
from sklearn.neighbors import kneighbors_graph
# Generate sample data
n_samples = 1500
np.random.seed(0)
t = 1.5 * np.pi * (1 + 3 * np.random.rand(1, n_samples))
x = t * np.cos(t)
y = t * np.sin(t)
X = np.concatenate((x, y))
X += .7 * np.random.randn(2, n_samples)
X = X.T
# Create a graph capturing local connectivity. Larger number of neighbors
# will give more homogeneous clusters to the cost of computation
# time. A very large number of neighbors gives more evenly distributed
# cluster sizes, but may not impose the local manifold structure of
# the data
knn_graph = kneighbors_graph(X, 30, include_self=False)
for connectivity in (None, knn_graph):
for n_clusters in (30, 3):
plt.figure(figsize=(10, 4))
for index, linkage in enumerate(('average',
'complete',
'ward',
'single')):
plt.subplot(1, 4, index + 1)
model = AgglomerativeClustering(linkage=linkage,
connectivity=connectivity,
n_clusters=n_clusters)
t0 = time.time()
model.fit(X)
elapsed_time = time.time() - t0
plt.scatter(X[:, 0], X[:, 1], c=model.labels_,
cmap=plt.cm.nipy_spectral)
plt.title('linkage=%s\n(time %.2fs)' % (linkage, elapsed_time),
fontdict=dict(verticalalignment='top'))
plt.axis('equal')
plt.axis('off')
plt.subplots_adjust(bottom=0, top=.89, wspace=0,
left=0, right=1)
plt.suptitle('n_cluster=%i, connectivity=%r' %
(n_clusters, connectivity is not None), size=17)
plt.show()
.. rst-class:: sphx-glr-timing
**Total running time of the script:** ( 0 minutes 2.195 seconds)
**Estimated memory usage:** 11 MB
.. _sphx_glr_download_auto_examples_cluster_plot_agglomerative_clustering.py:
.. only :: html
.. container:: sphx-glr-footer
:class: sphx-glr-footer-example
.. container:: binder-badge
.. image:: https://mybinder.org/badge_logo.svg
:target: https://mybinder.org/v2/gh/scikit-learn/scikit-learn/0.22.X?urlpath=lab/tree/notebooks/auto_examples/cluster/plot_agglomerative_clustering.ipynb
:width: 150 px
.. container:: sphx-glr-download
:download:`Download Python source code: plot_agglomerative_clustering.py `
.. container:: sphx-glr-download
:download:`Download Jupyter notebook: plot_agglomerative_clustering.ipynb `
.. only:: html
.. rst-class:: sphx-glr-signature
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