Contaminated ECG artifact detection and elimination from EEG using energy function based transformation
Contaminated ECG artifact detection and elimination from EEG using energy function based transformation
Electrical field of the heart (ECG) propagates throughout the body and introduce artifact in EEG recordings which may lead to incorrect interpretation of monitoring result. Hence in this paper, we present a method of automatic detection and reduction of ECG artifact from EEG ECG has its own spike like property and periodicity. Moreover, it also has lack of correlation with the EEG signal. We have utilized the aforementioned properties to detect ECG artifact in EEG and have employed a method to remove it automatically. In the first step of the algorithm, an energy function based method is used to emphasize the R-waves of contaminated ECG artifact and thereafter, an adaptive thresholding method along with clustering is used to detect contaminated candidate R-spikes of ECG artifact in EEG signal. After that utilizing periodic information of R-wave, a searching mechanism is employed as post processing to detect the R-peaks more accurately. Thereafter, noise model of ECG artifact contaminated with EEG is generated and finally it is subtracted from the EEG recordings to decontaminate it from the artifact. Before subtraction, a time varying alignment procedure is applied to increase the effectiveness of the artifact reduction method. Results obtained from our extensive experiments show that the proposed method is effective and encouraging in terms of automatic ECG artifact detection and reduction from EEG signal.
52-56
Dewan, M. Ali Akber
363af584-4a43-4a28-8f3c-25b78fbd5360
Hossain, M. Julius
bba1b875-7604-462b-a55b-ba0b54f728e8
Hoque, Md Moshiul
fcc9fc2c-8b41-406f-9299-977143d0545f
Chae, Oksam
f3b49af7-329a-4eed-bcd1-33aa737cd234
2007
Dewan, M. Ali Akber
363af584-4a43-4a28-8f3c-25b78fbd5360
Hossain, M. Julius
bba1b875-7604-462b-a55b-ba0b54f728e8
Hoque, Md Moshiul
fcc9fc2c-8b41-406f-9299-977143d0545f
Chae, Oksam
f3b49af7-329a-4eed-bcd1-33aa737cd234
Dewan, M. Ali Akber, Hossain, M. Julius, Hoque, Md Moshiul and Chae, Oksam
(2007)
Contaminated ECG artifact detection and elimination from EEG using energy function based transformation.
In ICICT 2007: Proceedings of International Conference on Information and Communication Technology.
.
(doi:10.1109/ICICT.2007.375341).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Electrical field of the heart (ECG) propagates throughout the body and introduce artifact in EEG recordings which may lead to incorrect interpretation of monitoring result. Hence in this paper, we present a method of automatic detection and reduction of ECG artifact from EEG ECG has its own spike like property and periodicity. Moreover, it also has lack of correlation with the EEG signal. We have utilized the aforementioned properties to detect ECG artifact in EEG and have employed a method to remove it automatically. In the first step of the algorithm, an energy function based method is used to emphasize the R-waves of contaminated ECG artifact and thereafter, an adaptive thresholding method along with clustering is used to detect contaminated candidate R-spikes of ECG artifact in EEG signal. After that utilizing periodic information of R-wave, a searching mechanism is employed as post processing to detect the R-peaks more accurately. Thereafter, noise model of ECG artifact contaminated with EEG is generated and finally it is subtracted from the EEG recordings to decontaminate it from the artifact. Before subtraction, a time varying alignment procedure is applied to increase the effectiveness of the artifact reduction method. Results obtained from our extensive experiments show that the proposed method is effective and encouraging in terms of automatic ECG artifact detection and reduction from EEG signal.
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Published date: 2007
Venue - Dates:
ICICT 2007: International Conference on Information and Communication Technology, , Dhaka, Bangladesh, 2007-03-07 - 2007-03-09
Identifiers
Local EPrints ID: 467279
URI: http://eprints.soton.ac.uk/id/eprint/467279
PURE UUID: b7718e7c-8f7a-4d84-bfd0-cfc89b0de1ce
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Date deposited: 05 Jul 2022 16:38
Last modified: 17 Mar 2024 04:12
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Contributors
Author:
M. Ali Akber Dewan
Author:
M. Julius Hossain
Author:
Md Moshiul Hoque
Author:
Oksam Chae
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