Identification of Anesthesia Stages from EEG Signals using Wavelet Entropy and Backpropagation Neural Network

Ahmed Abdal Shafi Rasel

Vol. 19 No. D1 (2019), Articles

Vol. 19 No. D1 (2019)

Identification of Anesthesia Stages from EEG Signals using Wavelet Entropy and Backpropagation Neural Network

Articles

Published 2019-03-26

Ahmed Abdal Shafi Rasel

Ahmed Abdal Shafi Rasel

Identification of Anesthesia Stages from EEG Signals using Wavelet Entropy and Backpropagation Neural Network

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Keywords

EEG
artificial neural network
back propagation
anesthesia

How to Cite

Ahmed Abdal Shafi Rasel. (2019). Identification of Anesthesia Stages from EEG Signals using Wavelet Entropy and Backpropagation Neural Network. Global Journal of Computer Science and Technology, 19(D1), 17–20. Retrieved from https://gjcst.com/index.php/gjcst/article/view/451

Abstract

This study focuses on entropy based analysis of EEG signals for extracting features for a neural network based solution for identifying anesthetic levels The process involves an optimized back propagation neural network with a supervised learning method We provided the extracted features from EEG signals as training data for the neural network The target outputs provided are levels of anesthesia stages Wavelet analysis provides more effective extraction of key features from EEG data than power spectral density analysis using Fourier transform The key features are used to train the Back Propagation Neural Network BPNN for pattern classification network The final result shows that entropybased feature extraction is an effective procedure for classifying EEG data

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Identification of Anesthesia Stages from EEG Signals using Wavelet Entropy and Backpropagation Neural Network

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