Abstract
Currently, Electroencephalogram (EEG) is extensively used for diagnosing the epilepsy. The objective of this research is to investigate the changes in epilepsy frequency by proposing a new optimization based deep learning model. At first, the EEG recordings were acquired from two online databases; Bern Barcelona (BB), and Bonn University (BU). Then, Chebyshev type two filter was implemented to remove the unwanted artifacts from the acquired EEG signals. Further, Multivariate Variational Mode Decomposition (MVMD) methodology was applied to decompose the denoised EEG signals. The signal decomposition helps in finding the necessary information, which required to model the complex time series data. Then, the features were extracted from decomposed signals by using fifteen entropy, linear and statistical features. In addition, enhanced firefly optimization technique was proposed for optimizing the extracted features. In the enhanced firefly optimizer, a crossover operator of genetic algorithm was added for enhancing the local convergence rate that gives better classification. At last, the optimized feature vectors were classified by Deep Neural Network (DNN) that includes two circumstances (seizure and healthy), and (Interictal, ictal, and normal). From the experimental simulation, the proposed model improvement maximum of 1.4%, and 8.82% of accuracy in BU and BB EEG datasets, respectively related to the existing models.
Highlights
In neurological disorder, epilepsy is a challenging subject, which gained more attention among the researchers and affects nearly 2% of the world population [1-2]
A new optimization based model is proposed for enhancing the performance of epilepsy recognition
The optimized feature vectors are classified by using different classifiers such as Neural Network (NN), K-Nearest Neighbour (KNN), Multi SVM (MSVM) and Deep Neural Network (DNN) for identifying the appropriate classifier for epileptic seizure recognition
Summary
Epilepsy is a challenging subject, which gained more attention among the researchers and affects nearly 2% of the world population [1-2]. The EEG signals are widely utilized for investigating the brain activities [7]. It is difficult to identify the suitable EEG representation such that the non-epileptic patterns are differentiable from epileptic patterns To overcome this issue, a new optimization based model is proposed for enhancing the performance of epilepsy recognition. The developed system attained superior performance in epilepsy detection related to other models in light of accuracy, specificity and sensitivity. The developed model includes three phases; decomposition, extraction of feature, and classification. It was confirmed that the developed model attained better performance in epilepsy recognition. The developed approach showed good performance in classification that includes two cases (seizure and healthy), and (Interictal, ictal, and normal). The developed approach required more manual intervention that was considered as a major concern
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