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I am trying out spectral clustering from sklearn, and to set the optimal cluster number, I would like to use the method suggested in this paper "Self-tuning spectral clustering" (published in NIPS). This method requires the eigenvalues and eigenvectors, and I realise that sklearn spectral clustering does not provide it.

Is there a way to get the eigenvalues and eigenvectors from sklearn spectral clustering?

Here is the paper bibtex

@article{zelnik2005self,
  title={Self-tuning spectral clustering},
  author={Zelnik-Manor, Lihi and Perona, Pietro},
  year={2005},
  publisher={MIT Press}
}
  • Could you cite properly your paper ? Can't find it – MMF Dec 15 '16 at 9:29
  • Use the source code of sklearn. It's open source, not a black box. – Anony-Mousse Dec 17 '16 at 9:48
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If you look at the following source files:

https://github.com/scikit-learn/scikit-learn/blob/f0ab589f/sklearn/cluster/spectral.py#L259

then

https://github.com/scikit-learn/scikit-learn/blob/f0ab589f/sklearn/manifold/spectral_embedding_.py#L308

You can ultimately see that one way to compute the eigen-values/vectors is

lambdas, diffusion_map = eigh(laplacian)

Here, eigh refers to scipy.linalg.eigh as mentioned on top of the source file.

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Like @anony-mousse said, you can find it in the source code.

Inside of the sklean source code in sklearn\cluster\spectral.py there's this line:

maps = spectral_embedding(affinity...

maps contains the eigenvectors. By default, spectral_embedding only outputs the eigenvectors but you can modify it to output the eigenvalues (typically named lambdas). You can also simply compute them yourself from the affinity matrix with your eigensolver of choice.

  • Does this answer your Q Michael? – dataflow Dec 28 '18 at 2:08

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