Abstract
Spectral clustering is a procedure aimed at partitionning a weighted graph into minimally interacting components. The resulting eigen-structure is determined by a reversible Markov chain, or equivalently by a symmetric transition matrix F. On the other hand, multidimensional scaling procedures (and factorial correspondence analysis in particular) consist in the spectral decomposition of a kernel matrix K. This paper shows how F and K can be related to each other through a linear or even non-linear transformation leaving the eigen-vectors invariant. As illustrated by examples, this circumstance permits to define a transition matrix from a similarity matrix between n objects, to define Euclidean distances between the vertices of a weighted graph, and to elucidate the “flow-induced” nature of spatial auto-covariances.
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References
BAVAUD, F. (2004): Generalized factor analyses for contingency tables. In: D. Banks et al. (Eds.): Classification, Clustering and Data Mining Applications. Springer, Berlin, 597–606.
BAVAUD, F. and XANTHOS, A. (2005): Markov associativities. Journal of Quantitative Linguistics, 12, 123–137.
BENGIO, Y., DELALLEAU, O., LE ROUX, N., PAIEMENT, J.-F. and OUIMET, M. (2004): Learning eigenfunctions links spectral embedding and kernel PCA. Neural Computation, 16, 2197–2219.
CHUNG, F. (1997): Spectral graph theory. CBMS Regional Conference Series in Mathematics 92. American Mathematical Society. Providence.
DIACONIS, P. and STROOK, D. (1991): Geometric bounds for eigenvalues of Markov chains. Ann. Appl. Probab., 1, 36–61.
NG, A., JORDAN, M. and WEISS, Y. (2002): On spectral clustering: Analysis and an algorithm. In T. G. Dietterich et al. (Eds.): Advances in Neural Information Processing Systems 14. MIT Press, 2002.
SHAWE-TAYLOR, J. and CRISTIANINI, N. (2004): Kernel Methods for Pattern Analysis. Cambridge University Press.
VERMA, D. and MEILA, M. (2003): A comparison of spectral clustering algorithms. UW CSE Technical report 03-05-01.
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Bavaud, F. (2006). Spectral Clustering and Multidimensional Scaling: A Unified View. In: Batagelj, V., Bock, HH., Ferligoj, A., Žiberna, A. (eds) Data Science and Classification. Studies in Classification, Data Analysis, and Knowledge Organization. Springer, Berlin, Heidelberg . https://doi.org/10.1007/3-540-34416-0_15
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DOI: https://doi.org/10.1007/3-540-34416-0_15
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