Comparison of Wavelet Family Performances in ECG Signal Denoising
The heart is considered the most important organ of our body that controls the circulation of blood throughout the body. Measured heartbeat signals can be further analyzed in order to know the health condition of a person. The challenge of ECG signal measurement and analysis is how to remove the noi...
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doaj-686eb154bd6a4a55b5f4148695c764082020-11-25T00:00:47ZengIndonesian Institute of SciencesJurnal Elektronika dan Telekomunikasi1411-82892527-99552017-08-011711610.14203/jet.v17.1-6117Comparison of Wavelet Family Performances in ECG Signal DenoisingOcta Heriana0Ali Matooq Al Misbah1Pusat Penelitian Elektronika dan Telekomunikasi, Lembaga Ilmu Pengetahuan Indonesia. Komplek LIPI Gd 20, Jl Sangkuriang 21/54D, Bandung 40135, IndonesiaElectrical Engineering Department, King Fahd University of Petroleum and Minerals. Dhahran 31261, Saudi ArabiaThe heart is considered the most important organ of our body that controls the circulation of blood throughout the body. Measured heartbeat signals can be further analyzed in order to know the health condition of a person. The challenge of ECG signal measurement and analysis is how to remove the noises imposed on the signal that is interfered from many different sources, such as internal noise in sensor devices, power line interference, muscle activity, and body movements. This paper implemented wavelet transform to reduce the noise imposed on the ECG signal to get a closely actual heart signal. ECG data used in this research are three digitized recorded ECG data obtained from MIT-BIH Arrhythmia Database. The first step is generating the noisy ECG signal as the input system by adding 1W WGN signal into the original ECG signal. Then DWT is applied to extract the noisy ECG signal. Some DWT’s parameters, threshold selection (rule, type, rescaling), decomposition level, and desired wavelet family are varied to get the best denoised output signal. All results are recorded to be compared. Based on the results, the best DWT parameter for ECG signal denoising is obtained by Symlet wavelet when the decomposition level is set to 3, with soft thresholding, in rigrsure thresholding rule.http://www.jurnalet.com/jet/article/view/153ECGsignalwaveletdenoising |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Octa Heriana Ali Matooq Al Misbah |
spellingShingle |
Octa Heriana Ali Matooq Al Misbah Comparison of Wavelet Family Performances in ECG Signal Denoising Jurnal Elektronika dan Telekomunikasi ECG signal wavelet denoising |
author_facet |
Octa Heriana Ali Matooq Al Misbah |
author_sort |
Octa Heriana |
title |
Comparison of Wavelet Family Performances in ECG Signal Denoising |
title_short |
Comparison of Wavelet Family Performances in ECG Signal Denoising |
title_full |
Comparison of Wavelet Family Performances in ECG Signal Denoising |
title_fullStr |
Comparison of Wavelet Family Performances in ECG Signal Denoising |
title_full_unstemmed |
Comparison of Wavelet Family Performances in ECG Signal Denoising |
title_sort |
comparison of wavelet family performances in ecg signal denoising |
publisher |
Indonesian Institute of Sciences |
series |
Jurnal Elektronika dan Telekomunikasi |
issn |
1411-8289 2527-9955 |
publishDate |
2017-08-01 |
description |
The heart is considered the most important organ of our body that controls the circulation of blood throughout the body. Measured heartbeat signals can be further analyzed in order to know the health condition of a person. The challenge of ECG signal measurement and analysis is how to remove the noises imposed on the signal that is interfered from many different sources, such as internal noise in sensor devices, power line interference, muscle activity, and body movements. This paper implemented wavelet transform to reduce the noise imposed on the ECG signal to get a closely actual heart signal. ECG data used in this research are three digitized recorded ECG data obtained from MIT-BIH Arrhythmia Database. The first step is generating the noisy ECG signal as the input system by adding 1W WGN signal into the original ECG signal. Then DWT is applied to extract the noisy ECG signal. Some DWT’s parameters, threshold selection (rule, type, rescaling), decomposition level, and desired wavelet family are varied to get the best denoised output signal. All results are recorded to be compared. Based on the results, the best DWT parameter for ECG signal denoising is obtained by Symlet wavelet when the decomposition level is set to 3, with soft thresholding, in rigrsure thresholding rule. |
topic |
ECG signal wavelet denoising |
url |
http://www.jurnalet.com/jet/article/view/153 |
work_keys_str_mv |
AT octaheriana comparisonofwaveletfamilyperformancesinecgsignaldenoising AT alimatooqalmisbah comparisonofwaveletfamilyperformancesinecgsignaldenoising |
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1725443385036111872 |