Nothing Special   »   [go: up one dir, main page]

To read this content please select one of the options below:

EEG signal artefact removal using flower pollination fractional calculus optimisation

Jayalaxmi Anem (E.C.E, Aditya Institute of Technology and Management, Srikakulam, India)
G. Sateeshkumar (E.C.E, Aditya Institute of Technology and Management, Srikakulam, India)
R. Madhu (E.C.E, JNTUK, Kakinada, India)

International Journal of Intelligent Computing and Cybernetics

ISSN: 1756-378X

Article publication date: 20 October 2021

Issue publication date: 26 April 2022

69

Abstract

Purpose

The main aim of this paper is to design a technique for improving the quality of EEG signal by removing artefacts which is obtained during acquisition. Initially, pre-processing is done on EEG signal for quality improvement. Then, by using wavelet transform (WT) feature extraction is done. The artefacts present in the EEG are removed using deep convLSTM. This deep convLSTM is trained by proposed fractional calculus based flower pollination optimisation algorithm.

Design/methodology/approach

Nowadays' EEG signals play vital role in the field of neurophysiologic research. Brain activities of human can be analysed by using EEG signals. These signals are frequently affected by noise during acquisition and other external disturbances, which lead to degrade the signal quality. Denoising of EEG signals is necessary for the effective usage of signals in any application. This paper proposes a new technique named as flower pollination fractional calculus optimisation (FPFCO) algorithm for the removal of artefacts from EEG signal through deep learning scheme. FPFCO algorithm is the integration of flower pollination optimisation and fractional calculus which takes the advantages of both the flower pollination optimisation and fractional calculus which is used to train the deep convLSTM. The existed FPO algorithm is used for solution update through global and local pollinations. In this case, the fractional calculus (FC) method attempts to include the past solution by including the second order derivative. As a result, the suggested FPFCO algorithm approaches the best solution faster than the existing flower pollination optimization (FPO) method. Initially, 5 EEG signals are contaminated by artefacts such as EMG, EOG, EEG and random noise. These contaminated EEG signals are pre-processed to remove baseline and power line noises. Further, feature extraction is done by using WT and extracted features are applied to deep convLSTM, which is trained by proposed fractional calculus based flower pollination optimisation algorithm. FPFCO is used for the effective removal of artefacts from EEG signal. The proposed technique is compared with existing techniques in terms of SNR and MSE.

Findings

The proposed technique is compared with existing techniques in terms of SNR, RMSE and MSE.

Originality/value

100%.

Keywords

Citation

Anem, J., Sateeshkumar, G. and Madhu, R. (2022), "EEG signal artefact removal using flower pollination fractional calculus optimisation", International Journal of Intelligent Computing and Cybernetics, Vol. 15 No. 2, pp. 245-259. https://doi.org/10.1108/IJICC-06-2021-0127

Publisher

:

Emerald Publishing Limited

Copyright © 2021, Emerald Publishing Limited

Related articles