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Clustering on the unit hypersphere in scikit-learn.

Project description

Clustering on the unit hypersphere in scikit-learn

Mixture of von Mises Fisher

Algorithms

This package implements the three algorithms outlined in "Clustering on the Unit Hypersphere using von Mises-Fisher Distributions", Banerjee et al., JMLR 2005, for scikit-learn.

  1. Spherical K-means (spkmeans)

    Spherical K-means differs from conventional K-means in that it projects the estimated cluster centroids onto the the unit sphere at the end of each maximization step (i.e., normalizes the centroids).

  2. Mixture of von Mises Fisher distributions (movMF)

    Much like the Gaussian distribution is parameterized by mean and variance, the von Mises Fisher distribution has a mean direction $\mu$ and a concentration parameter $\kappa$. Each point $x_i$ drawn from the vMF distribution lives on the surface of the unit hypersphere $\S^{N-1}$ (i.e., $\|x_i\|_2 = 1$) as does the mean direction $\|\mu\|_2 = 1$. Larger $\kappa$ leads to a more concentrated cluster of points.

    If we model our data as a mixture of von Mises Fisher distributions, we have an additional weight parameter $\alpha$ for each distribution in the mixture. The movMF algorithms estimate the mixture parameters via expectation-maximization (EM) enabling us to cluster data accordingly.

    • soft-movMF

      Estimates the real-valued posterior on each example for each class. This enables a soft clustering in the sense that we have a probability of cluster membership for each data point.

    • hard-movMF

      Sets the posterior on each example to be 1 for a single class and 0 for all others by selecting the location of the max value in the estimator soft posterior.

    Beyond estimating cluster centroids, these algorithms also jointly estimate the weights of each cluster and the concentration parameters. We provide an option to pass in (and override) weight estimates if they are known in advance.

    Label assigment is achieved by computing the argmax of the posterior for each example.

Relationship between spkmeans and movMF

Spherical k-means is a special case of both movMF algorithms.

  • If for each cluster we enforce all of the weights to be equal $\alpha_i = 1/n_clusters$ and all concentrations to be equal and infinite $\kappa_i \rightarrow \infty$, then soft-movMF behaves as spkmeans.

  • Similarly, if for each cluster we enforce all of the weights to be equal and all concentrations to be equal (with any value), then hard-movMF behaves as spkmeans.

Other goodies

  • A utility for sampling from a multivariate von Mises Fisher distribution in spherecluster/util.py.

Installation

Clone this repo and run

python setup.py install

or via PyPI

pip install spherecluster

The package requires that numpy and scipy are installed independently first.

Usage

Both SphericalKMeans and VonMisesFisherMixture are standard sklearn estimators and mirror the parameter names for sklearn.cluster.kmeans.

# Find K clusters from data matrix X (n_examples x n_features)

# spherical k-means
from spherecluster import SphericalKMeans
skm = SphericalKMeans(n_clusters=K)
skm.fit(X)

# skm.cluster_centers_
# skm.labels_
# skm.inertia_

# movMF-soft
from spherecluster import VonMisesFisherMixture
vmf_soft = VonMisesFisherMixture(n_clusters=K, posterior_type='soft')
vmf_soft.fit(X)

# vmf_soft.cluster_centers_
# vmf_soft.labels_
# vmf_soft.weights_
# vmf_soft.concentrations_
# vmf_soft.inertia_

# movMF-hard
from spherecluster import VonMisesFisherMixture
vmf_hard = VonMisesFisherMixture(n_clusters=K, posterior_type='hard')
vmf_hard.fit(X)

# vmf_hard.cluster_centers_
# vmf_hard.labels_
# vmf_hard.weights_
# vmf_hard.concentrations_
# vmf_hard.inertia_

The full set of parameters for the VonMisesFisherMixture class can be found here in the doc string for the class; see help(VonMisesFisherMixture).

Notes:

  • X can be a dense numpy.array or a sparse scipy.sparse.csr_matrix

  • VonMisesFisherMixture has been tested successfully with sparse documents of dimension n_features = 43256. When n_features is very large the algorithm may encounter numerical instability. This will likely be due to the scaling factor of the log-vMF distribution.

  • cluster_centers_ in VonMisesFisherMixture are dense vectors in current implementation

  • Mixture weights can be manually controlled (overriden) instead of learned.

Testing

From the base directory, run:

python -m pytest spherecluster/tests/

Examples

Small mix

We reproduce the "small mix" example from Section 6.3 in examples/small_mix.py. We've adjusted the parameters such that one distribution in the mixture has much lower concentration than the other to distinguish between movMF performance and (spherical) k-means which do not estimate weight or concentration parameters. We also provide a 3D version of this example in examples/small_mix_3d.py for fun.

Running these scripts will spit out some additional performance metrics for each algorithm.

Small mix 2d Small mix 3d

It is clear from the figures that the movMF algorithms do a better job by taking advantage of the concentration estimate.

Document clustering

We also reproduce this scikit-learn tfidf (w optional lsa) + k-means demo in examples/document_clustering.py. The results are different on each run, here's a chart comparing the algorithms' performances for a sample run:

Document clustering

Spherical k-means, which is a simple low-cost modification to the standard k-means algorithm performs quite well on this example.

References

Attribution

See also

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