Classification of EEG Signals Using Quantum Neural Network and Cubic Spline

Authors

  • Ehab AbdulRazzaq Hussein University of Babylon
  • Mariam Abdul-Zahra Raheem University of Babylon

Abstract

The main aim of this paper is to propose Cubic Spline-Quantum Neural Network (CS-QNN) model for analysis and classification of Electroencephalogram (EEG) signals. Experimental data used here were taken from seven different electrodes. The work has been done in three stages, normalization of the signals, extracting the features by Cubic Spline Technique (CST) and classification using Quantum Neural Network (QNN).  The simulation results showed that five types of EEG signals were classified with an average accuracy for seven electrodes that is 94.3% when training 70% of features while with an average accuracy of 92.84% when training 50% of features.

Author Biographies

Ehab AbdulRazzaq Hussein, University of Babylon

College of Engineering

Electrical Engineering Department

Mariam Abdul-Zahra Raheem, University of Babylon

College of Engineering

Electrical Engineering Department

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Published

2016-11-13

Issue

Section

Biomedical Engineering