A Method for Epileptic Seizure Detection in EEG Signals Based on Tunable Q-Factor Wavelet Transform Method Using Grasshopper Optimization Algorithm With Support Vector Machine Classifier

Abstract: Background: Epilepsy is a Brain disorder disease that affects people's quality of life. If it is diagnosed at an early stage, it will not be spread. Electroencephalography (EEG) signals are used to diagnose epileptic seizures. However, this screening system cannot diagnose epileptic seizure states precisely. Nevertheless, with the help of computer-aided diagnosis systems (CADS), neurologists can diagnose epileptic seizure stages properly. Objective:The aims of this study are to epileptic seizures diagnosis by … Show more

“…Although ES is uncommon, its consequences on patients' emotions, relationships, and ability to express themselves physically make diagnosing and treating Epilepsy crucial and comprehensive [3]. The EEG signals are most preferable for detecting Epilepsy since they are portable, economical, and depict precise rhythm from the frequency domain [4]. The EEG gives the voltage variation generated by the ionic presence of neurons from the brain that characterizes the brain's bioelectric activities.…”

Feature Selection with Deep Belief Network for Epileptic Seizure Detection on EEG Signals

“…Although ES is uncommon, its consequences on patients' emotions, relationships, and ability to express themselves physically make diagnosing and treating Epilepsy crucial and comprehensive [3]. The EEG signals are most preferable for detecting Epilepsy since they are portable, economical, and depict precise rhythm from the frequency domain [4]. The EEG gives the voltage variation generated by the ionic presence of neurons from the brain that characterizes the brain's bioelectric activities.…”

Feature Selection with Deep Belief Network for Epileptic Seizure Detection on EEG Signals