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Designing a robust type-2 fuzzy logic classifier for non-stationary systems with application in brain-computer interfacing

Herman, P, Prasad, G and McGinnity, TM (2008) Designing a robust type-2 fuzzy logic classifier for non-stationary systems with application in brain-computer interfacing. In: IEEE International Conference on Systems, Man and Cybernetics, 2008 SMC 2008, Singapore. IEEE. 7 pp. [Conference contribution]

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URL: http://ieeexplore.ieee.org/search/freesrchabstract.jsp?tp=&arnumber=4811472&queryText%3DDesigning+a+Robust+Type-2+Fuzzy+Logic+Classifier+for+Non-stationary+Systems+with+Application+in+Brain-Computer+Interfacing%26openedRefinements%3D*%26searchField%3DSear

DOI: 10.1109/ICSMC.2008.4811472


Type-2 (T2) fuzzy logic (FL) systems (T2FLSs) have shown a remarkable potential in dealing with uncertain data resulting from real-world systems with non-stationary characteristics. This paper reports on novel developments in interval T2FLS (IT2FLS) classifier design methodology so that system non-stationarities can be effectively handled. In general, the approach presented here rests on a general concept of two-stage FLS design in which an initial rule base structure is first initialized and then system parameters are globally optimized. The proposed incremental enhancements of existing fuzzy techniques, adopted from the area of conventional type-1 (T1) FL, are heuristic in nature. The IT2FLS design methods have been empirically verified in this work in the realm of pattern recognition. In particular, the potential and the suitability of IT2FLS to the problem of classification of motor imagery (MI) related patterns in electroencephalogram (EEG) recordings has been investigated. The outcome of this study bears direct relevance to the development of EEG-based brain-computer interfaces (BCIs) since the problem under examination poses a major difficulty for the state-of-the-art BCI methods. The IT2FLS classifier is evaluated in this work on multi-session EEG data sets in the framework of an off-line BCI. Its performance is quantified in terms of the classification accuracy (CA) rates and has been found to be favorable to that of analogous systems employing a conventional T1FLS, along with linear discriminant analysis (LDA) and support vector machine (SVM), commonly utilized in MI-based BCI systems.

Item Type:Conference contribution (Paper)
Faculties and Schools:Faculty of Computing & Engineering
Faculty of Computing & Engineering > School of Computing and Intelligent Systems
Research Institutes and Groups:Computer Science Research Institute
Computer Science Research Institute > Intelligent Systems Research Centre
ID Code:12221
Deposited By: Professor Girijesh Prasad
Deposited On:09 Mar 2010 12:20
Last Modified:23 Jun 2011 10:07

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