Abstract
Detection of epileptic seizures on the basis of Electroencephalogram (EEG) recordings is a challenging task due to the complex, non-stationary and non-linear nature of these biomedical signals. In the existing literature, a number of automatic epileptic seizure detection methods have been proposed that extract useful features from EEG segments and classify them using machine learning algorithms. Some characterizing features of epileptic and non-epileptic EEG signals overlap; therefore, it requires that analysis of signals must be performed from diverse perspectives. Few studies analyzed these signals in diverse domains to identify distinguishing characteristics of epileptic EEG signals. To pose the challenge mentioned above, in this paper, a fuzzy-based epileptic seizure detection model is proposed that incorporates a novel feature extraction and selection method along with fuzzy classifiers. The proposed work extracts pattern features along with time-domain, frequency-domain, and non-linear analysis of signals. It applies a feature selection strategy on extracted features to get more discriminating features that build fuzzy machine learning classifiers for the detection of epileptic seizures. The empirical evaluation of the proposed model was conducted on the benchmark Bonn EEG dataset. It shows significant accuracy of 98% to 100% for normal vs. ictal classification cases while for three class classification of normal vs. inter-ictal vs. ictal accuracy reaches to above 97.5%. The obtained results for ten classification cases (including normal, seizure or ictal, and seizure-free or inter-ictal classes) prove the superior performance of proposed work as compared to other state-of-the-art counterparts.
Highlights
Epilepsy is a serious chronic neurological disorder affecting over 50 million people of all ages around the globe [1]
Since extraction of the most appropriate and distinguishing features from EEG signals is an important task for epileptic seizure detection, these methods are further grouped into four types based on the signal analysis used for feature extraction
This section summarizes classification results obtained by using the Bonn dataset [31]
Summary
Epilepsy is a serious chronic neurological disorder affecting over 50 million people of all ages around the globe [1] It is caused by an abnormal functionality of human neuron cells in terms of their excessive and hyper-synchronous electrical activities [2]. In order to inspect the neuronal abnormality, neurologists recommend an affordable clinical-based medical test named as Electroencephalography [3] It represents the electrical activities of brain cells in the form of Electroencephalogram (EEG) biomedical signals. Inter-observer variability due to varying neurologists’ experiences raises the issues in accurate diagnosis and medication of epileptic patients These limitations motivated efforts to design and develop such systems in which EEG signals are investigated automatically by using machine learning algorithms [4]. The four types are wavelet transform-based methods, non-linear analysis-based methods, multiple decomposition analysis-based methods, and non-decomposition analysis-based methods
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