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Chaotic System Design Based on Recurrent Artificial Neural Network for the Simulation of EEG Time Series

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  • Lei Zhang

    (University of Regina, Regina, Canada)

Abstract

Electroencephalogram (EEG) signals captured from brain activities demonstrate chaotic features, and can be simulated by nonlinear dynamic time series outputs of chaotic systems. This article presents the research work of chaotic system generator design based on artificial neural network (ANN), for studying the chaotic features of human brain dynamics. The ANN training performances of Nonlinear Auto-Regressive (NAR) model are evaluated for the generation and prediction of chaotic system time series outputs, based on varying the ANN architecture and the precision of the generated training data. The NAR model is trained in open loop form with 1,000 training samples generated using Lorenz system equations and the forward Euler method. The close loop NAR model is used for the generation and prediction of Lorenz chaotic time series outputs. The training results show that better training performance can be achieved by increasing the number of feedback delays and the number of hidden neurons, at the cost of increasing the computational load.

Suggested Citation

  • Lei Zhang, 2019. "Chaotic System Design Based on Recurrent Artificial Neural Network for the Simulation of EEG Time Series," International Journal of Cognitive Informatics and Natural Intelligence (IJCINI), IGI Global, vol. 13(1), pages 25-35, January.
  • Handle: RePEc:igg:jcini0:v:13:y:2019:i:1:p:25-35
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