Abstract
General clustering deals with weighted objects and fuzzy memberships. We investigate the group- or object-aggregation-invariance properties possessed by the relevant functionals (effective number of groups or objects, centroids, dispersion, mutual object-group information, etc.). The classical squared Euclidean case can be generalized to non-Euclidean distances, as well as to non-linear transformations of the memberships, yielding the c-means clustering algorithm as well as two presumably new procedures, the convex and pairwise convex clustering. Cluster stability and aggregation-invariance of the optimal memberships associated to the various clustering schemes are examined as well.
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References
Bavaud F (2002) Quotient dissimilarities, Euclidean embeddability, and Huygens’ weak principle. In: Jaguja K, Sokolowski A, Bock HH (eds) Classification, clustering and data analysis. Springer, New York, pp 194–202
Bavaud F (2006) Spectral clustering and multidimensional scaling: a unified view. In: Batagelj V, Bock HH, Ferligoj A, Ziberna A (eds) Data science and classification. Springer, New York, pp 131–139
Bezdek D (1981) Pattern recognition. Plenum Press, New York
Blumenthal LM (1953) Theory and applications of distance geometry. University Press, Oxford
Celeux G, Govaert G (1992) A classification EM algorithm and two stochastic versions. Comput Stat Data Anal 14: 315–332
Cover TM, Thomas JA (1991) Elements of information theory. Wiley, New York
Gray RM, Neuhoff DL (1998) Quantization. IEEE Trans Inf Theory 44: 2325–2383
McLachlan GJ, Krishnan T (1997) The EM algorithm and extensions. Wiley, New York
Miyamoto S, Ichihashi H, Honda K (2008) Algorithms for fuzzy clustering: methods in c-means clustering with applications. Springer, New York
Rose K (1998) Deterministic Annealing for clustering, compression, classification, regression, and related optimization problems. Proc IEEE 86: 2210–2239
Rose K, Gurewitz E, Fox GC (1990) Statistical mechanics and phase transitions in clustering. Phys Rev Lett 65: 945–948
Runkler TA (2007) Relational fuzzy clustering. In: Valentede Oliveira J, Pedrycz W (eds) Advances in fuzzy clustering and its applications. Wiley, Chichester, pp 31–52
Schoenberg IJ (1935) Remarks to Maurice Fréchet’s article “Sur la définition axiomatique d’une classe d’espaces vectoriels distancés applicables vectoriellement sur l’espace de Hilbert”. Ann Math 36: 724–732
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Bavaud, F. Aggregation invariance in general clustering approaches. Adv Data Anal Classif 3, 205–225 (2009). https://doi.org/10.1007/s11634-009-0052-9
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DOI: https://doi.org/10.1007/s11634-009-0052-9
Keywords
- Aggregation invariance
- c-Means clustering
- EM algorithm
- Fuzzy clustering
- Model-based clustering
- Mutual information