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Turkish Journal of Electrical Engineering and Computer Sciences

Authors

MAHMUT HEKİM

DOI

10.3906/elk-1306-164

Abstract

A novel feature extraction called discretization-based entropy is proposed for use in the classification of EEG signals. To this end, EEG signals are decomposed into frequency subbands using the discrete wavelet transform (DWT), the coefficients of these subbands are discretized into the desired number of intervals using the discretization method, the entropy values of the discretized subbands are calculated using the Shannon entropy method, and these are then used as the inputs of the adaptive neuro-fuzzy inference system (ANFIS). The equal width discretization (EWD) and equal frequency discretization (EFD) methods are used for the discretization. In order to evaluate their performances in terms of classification accuracy, three different experiments are implemented using different combinations of healthy segments, epileptic seizure-free segments, and epileptic seizure segments. The experiments show that the EWD-based entropy approach achieves higher classification accuracy rates than the EFD-based entropy approach.

Keywords

EEG signals, discrete wavelet transform (DWT), discretization-based entropy, adaptive neuro-fuzzy inference system (ANFIS)

First Page

285

Last Page

297

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