Abstract
This study aims to represent an FPGA (Field
 Programmable Gate Array) design of Artificial Neural Network (ANN) for
 Electroencephalography (EEG) signal processing in order to detect epileptic
 seizure. For analyzing brain’s electrical activity, feedforward ANN model is
 used for classification of EEG signals. The designed ANN output layer makes a
 decision whether the person has epilepsy or not. In the proposed system, the
 ANN model is programmed and simulated on Xilinx ISE editor via computer and
 then, EEG signal data are transferred to FPGA-based ANN emulator core. The Core
 is trained on data which are patient’s data and healthy person’s data. After
 training, test data is loaded to ANN Emulator Core to detect any epileptic seizure
 of person’s EEG signal. The main advantage of FPGA in the system is to improve
 speed and accuracy for epileptic seizure detection.
Highlights
ELECTROENCEPHALOGRAM (EEG) which is obtained from recording of brain’s electrical activity is important data to analyze brain’s normal and abnormal activities
Epilepsy that is significant disease of brain is a chronic disease which causes sensory loss, unbalanced deictic gesture or muscular contraction comprised by abnormal activity of a group of neuron in brain
In [3], the user interface program was generated in Laboratory Virtual Instrument Engineering Workbench (LabVIEW) that has visual programming language in order to analyze EEG signals in determination of sleep stages
Summary
ELECTROENCEPHALOGRAM (EEG) which is obtained from recording of brain’s electrical activity is important data to analyze brain’s normal and abnormal activities. On the recognition of this disease, analysis of EEG has great importance [1]. In the analysis of EEG signal, many methods are used. In [2], high frequency and low frequency noise were suppressed by moving average and derivative-based filter. This method was used to classify normal or epileptic EEG signals. EEG signals can be analyzed in two domains. Due to the characteristic of signal in frequency domain, signal differs from before, during and after attack. Analyzing the characteristic of signal in time domain gives better result
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