Evaluating Quantum Neural Network filtered motor imagery brain-computer interface using multiple classification techniques

The raw EEG signal acquired non-invasively from the sensorimotor cortex during the motor imagery (MI) performed by a brain-computer interface (BCI) user is naturally embedded with noise while the actual noise-free EEG is still unattainable. This paper compares the enhancement in information when fil...

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Published inNeurocomputing (Amsterdam) Vol. 170; pp. 161 - 167
Main Authors Gandhi, Vaibhav, Prasad, Girijesh, Coyle, Damien, Behera, Laxmidhar, McGinnity, Thomas Martin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.12.2015
Subjects
Brain-computer interface (BCI)
EEG
Filtering
Recurrent Quantum Neural Network (RQNN)
Brain-computer interface (BCI)
Filtering
Recurrent Quantum Neural Network (RQNN)
EEG
Online AccessGet full text
ISSN0925-2312
1872-8286
DOI10.1016/j.neucom.2014.12.114

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Abstract The raw EEG signal acquired non-invasively from the sensorimotor cortex during the motor imagery (MI) performed by a brain-computer interface (BCI) user is naturally embedded with noise while the actual noise-free EEG is still unattainable. This paper compares the enhancement in information when filtering these noisy EEG signals while using a Schrodinger wave equation (SWE) based Recurrent Quantum Neural Network (RQNN) model and a Savitzky–Golay (SG) filtering model, while investigating over multiple classification techniques on several datasets. The RQNN model is designed to efficiently capture the statistical behavior of the input signal using an unsupervised learning scheme. The algorithm is robust to parametric sensitivity and does not make any a priori assumption about the true signal type or the embedded noise. The performance of both the filtering approaches, investigated for the BCI competition IV 2b dataset as well as the offline datasets on subjects in the BCI laboratory, over multiple classifiers shows that the RQNN can potentially be a flexible technique that can suit different classifiers for real-time EEG signal filtering. The average classification accuracy performance across all the subjects with the RQNN technique is better than the SG (and the unfiltered signal) by approximately 5% (and 7%) and 1% (and 4%) during the training and the evaluation stages respectively.
AbstractList The raw EEG signal acquired non-invasively from the sensorimotor cortex during the motor imagery (MI) performed by a brain-computer interface (BCI) user is naturally embedded with noise while the actual noise-free EEG is still unattainable. This paper compares the enhancement in information when filtering these noisy EEG signals while using a Schrodinger wave equation (SWE) based Recurrent Quantum Neural Network (RQNN) model and a Savitzky–Golay (SG) filtering model, while investigating over multiple classification techniques on several datasets. The RQNN model is designed to efficiently capture the statistical behavior of the input signal using an unsupervised learning scheme. The algorithm is robust to parametric sensitivity and does not make any a priori assumption about the true signal type or the embedded noise. The performance of both the filtering approaches, investigated for the BCI competition IV 2b dataset as well as the offline datasets on subjects in the BCI laboratory, over multiple classifiers shows that the RQNN can potentially be a flexible technique that can suit different classifiers for real-time EEG signal filtering. The average classification accuracy performance across all the subjects with the RQNN technique is better than the SG (and the unfiltered signal) by approximately 5% (and 7%) and 1% (and 4%) during the training and the evaluation stages respectively.
Author Coyle, Damien
Prasad, Girijesh
McGinnity, Thomas Martin
Gandhi, Vaibhav
Behera, Laxmidhar
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Filtering
Recurrent Quantum Neural Network (RQNN)
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SubjectTerms Brain-computer interface (BCI)
EEG
Filtering
Recurrent Quantum Neural Network (RQNN)
Title Evaluating Quantum Neural Network filtered motor imagery brain-computer interface using multiple classification techniques
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