Performance study of adaptive filtering algorithms for noise cancellation of ECG signal

Removal of noises from ECG (Electrocardiogram) signal is a classical problem. Moreover, nullifying AC and DC noises using the two adaptive algorithms-the LMS and the RLS from the ECG is a new study in biomedical science. In this paper, the four types of AC and DC noises have been implemented accordi...

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Main Authors: Islam S.Z., Jidin R., Ali M.A.M.
Other Authors: 35746021600
Format: Conference paper
Published: 2023
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spelling my.uniten.dspace-296652023-12-28T15:30:42Z Performance study of adaptive filtering algorithms for noise cancellation of ECG signal Islam S.Z. Islam S.Z. Jidin R. Ali M.A.M. 35746021600 55432804400 6508169028 6507416666 AC and DC Noises ECG signal LMS and RLS algorithms Adaptive filtering Adaptive filters Electrocardiography Electrochromic devices Mean square error Signal processing Spurious signal noise Adaptive filtering algorithms Basic properties Biomedical science Classical problems Convergence time Correlation coefficient DC bias DC noise ECG signals Filter length LMS algorithms New study Noise cancellation Performance study RLS algorithms Adaptive algorithms Removal of noises from ECG (Electrocardiogram) signal is a classical problem. Moreover, nullifying AC and DC noises using the two adaptive algorithms-the LMS and the RLS from the ECG is a new study in biomedical science. In this paper, the four types of AC and DC noises have been implemented according to their basic properties. After that, these noises have been mixed with ECG signal and nullify these noises using the LMS and the RLS algorithms. At the end of this paper, a performance study has been done between these algorithms based on their parameters and also discussed the effect of filter length and the corresponding correlation coefficient. Results indicate that the DC bias noises cannot be handled by the LMS filtering whereas the RLS can handle both types of noises. Also, it is true for both algorithms that the filter length is proportional to MSE (Mean Square Error) rate and it takes more time to converge for both algorithms. Furthermore, most of the cases the RLS has achieved best effective noise cancellation performance although its convergence time is slightly high. But eventually its error has always dipped down below that of the LMS algorithm. �2009 IEEE. Final 2023-12-28T07:30:42Z 2023-12-28T07:30:42Z 2009 Conference paper 10.1109/ICICS.2009.5397744 2-s2.0-77949587204 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77949587204&doi=10.1109%2fICICS.2009.5397744&partnerID=40&md5=845a48d0b674f859a577d89359473d7c https://irepository.uniten.edu.my/handle/123456789/29665 5397744 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic AC and DC Noises
ECG signal
LMS and RLS algorithms
Adaptive filtering
Adaptive filters
Electrocardiography
Electrochromic devices
Mean square error
Signal processing
Spurious signal noise
Adaptive filtering algorithms
Basic properties
Biomedical science
Classical problems
Convergence time
Correlation coefficient
DC bias
DC noise
ECG signals
Filter length
LMS algorithms
New study
Noise cancellation
Performance study
RLS algorithms
Adaptive algorithms
spellingShingle AC and DC Noises
ECG signal
LMS and RLS algorithms
Adaptive filtering
Adaptive filters
Electrocardiography
Electrochromic devices
Mean square error
Signal processing
Spurious signal noise
Adaptive filtering algorithms
Basic properties
Biomedical science
Classical problems
Convergence time
Correlation coefficient
DC bias
DC noise
ECG signals
Filter length
LMS algorithms
New study
Noise cancellation
Performance study
RLS algorithms
Adaptive algorithms
Islam S.Z.
Islam S.Z.
Jidin R.
Ali M.A.M.
Performance study of adaptive filtering algorithms for noise cancellation of ECG signal
description Removal of noises from ECG (Electrocardiogram) signal is a classical problem. Moreover, nullifying AC and DC noises using the two adaptive algorithms-the LMS and the RLS from the ECG is a new study in biomedical science. In this paper, the four types of AC and DC noises have been implemented according to their basic properties. After that, these noises have been mixed with ECG signal and nullify these noises using the LMS and the RLS algorithms. At the end of this paper, a performance study has been done between these algorithms based on their parameters and also discussed the effect of filter length and the corresponding correlation coefficient. Results indicate that the DC bias noises cannot be handled by the LMS filtering whereas the RLS can handle both types of noises. Also, it is true for both algorithms that the filter length is proportional to MSE (Mean Square Error) rate and it takes more time to converge for both algorithms. Furthermore, most of the cases the RLS has achieved best effective noise cancellation performance although its convergence time is slightly high. But eventually its error has always dipped down below that of the LMS algorithm. �2009 IEEE.
author2 35746021600
author_facet 35746021600
Islam S.Z.
Islam S.Z.
Jidin R.
Ali M.A.M.
format Conference paper
author Islam S.Z.
Islam S.Z.
Jidin R.
Ali M.A.M.
author_sort Islam S.Z.
title Performance study of adaptive filtering algorithms for noise cancellation of ECG signal
title_short Performance study of adaptive filtering algorithms for noise cancellation of ECG signal
title_full Performance study of adaptive filtering algorithms for noise cancellation of ECG signal
title_fullStr Performance study of adaptive filtering algorithms for noise cancellation of ECG signal
title_full_unstemmed Performance study of adaptive filtering algorithms for noise cancellation of ECG signal
title_sort performance study of adaptive filtering algorithms for noise cancellation of ecg signal
publishDate 2023
_version_ 1806427867599339520
score 13.214268