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Article type: Research Article
Authors: Nefti-Meziani, Samia | Oussalah, Mourad | Soufian, Majeed
Affiliations: School of Computing Science and Engineering, University of Salford, Manchester, UK | Electronics, Electrical & Computing Engineering, University of Birmingham, Birmingham, UK | School of Computing, Creative Technology and Environment, Leeds Beckett University, Leeds, UK
Note: [] Corresponding author. Majeed Soufian, School of Computing, Creative Technology and Environment, Leeds Beckett University, Leeds, UK. Tel.: +44 0 7825182009; E-mail: M.Soufian@leedsbeckett.ac.uk or ismefrom@hotmail.com
Abstract: This article addresses the problem of incorporating an inclusion structure in the general class of fuzzy c-means algorithms. Conventionally, all the classes of fuzzy clustering algorithms involve a distance structure as the main tool to compute the interaction between the expected class prototypes and all the patterns. However, as the inclusion violates the basic metric assumptions, thereby it cannot be directly substituted for regular distance structure. The approach, advocated in this paper, consists of supporting the distance structure by a semi definite matrix A, which preserves the inclusion constraint globally for each class. Particularly, a graded inclusion index is put forward that takes into account the rational requirements underlying the definition of the inclusion of two Gaussian membership functions. Behaviour and algebraic properties of the proposed methodology are investigated. The proposed approach is then incorporated into the general fuzzy c-mean scheme, where the corresponding optimization problem is solved. Using both synthetic and real datasets, some illustrations are carried out in order to highlight the performances of the constructed algorithm and their evaluations, which are also compared to standard fuzzy c-means algorithm.
Keywords: Fuzzy clustering, inclusion, c-mean algorithm
DOI: 10.3233/IFS-141407
Journal: Journal of Intelligent & Fuzzy Systems, vol. 28, no. 4, pp. 1477-1493, 2015
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