2018
DOI: 10.18537/mskn.09.01.10
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ECG signal denoising using discrete wavelet transform: A comparative analysis of threshold values and functions

Abstract: The electrocardiogram signal (ECG) is a bio-signal used to determine cardiac health. However, different types of noise that commonly accompany these signals can hide valuable information for diagnosing disorders. The paper presents an experimental study to remove the noise in ECG signals using the Discrete Wavelet Transform (DWT) theory and a set of thresholds filters for efficient noise filtering. For the assessment process, we used ECG records from MIT-BIH Arrhythmia database (MITDB) and standardized noise s… Show more

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Cited by 6 publications
(4 citation statements)
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“…Adaptive filters have been successfully applied in fields as diverse as communications, radar or biomedical engineering. Although the applications are quite different in nature, but they have one basic common feature: An input vector and a desired response are used to calculate the estimation error (which used to control the values of a set of adjustable filter coefficients) [22,23]. The adjustable coefficients can be in the many different forms depending on the filter construction used.…”
Section: Model Of Combining Wica and Adaptive Filter In Artifact Supp...mentioning
confidence: 99%
See 1 more Smart Citation
“…Adaptive filters have been successfully applied in fields as diverse as communications, radar or biomedical engineering. Although the applications are quite different in nature, but they have one basic common feature: An input vector and a desired response are used to calculate the estimation error (which used to control the values of a set of adjustable filter coefficients) [22,23]. The adjustable coefficients can be in the many different forms depending on the filter construction used.…”
Section: Model Of Combining Wica and Adaptive Filter In Artifact Supp...mentioning
confidence: 99%
“…In the requirement to eliminate the artifact of the ECG signal, the adaptive filter model applied in interference suppression as shown in Figure 6 is used; this model will be coordinated with the wICA system to improve the artifact suppression efficiency. e=d-y (10) In this model, the primary signal serves as the desired response for the adaptive filter; a reference signal is employed as the input to the filter; the reference signal is derived from a sensor or a set of sensors located such that it supplies the primary signal in a way that the information-bearing signal component is weak or essentially undetectable [22].…”
Section: Model Of Combining Wica and Adaptive Filter In Artifact Supp...mentioning
confidence: 99%
“…The discrete WT (which is applied in this study) pursues only the limited set of wavelets such as locations and scales, th [14]. The types of noises discussed earlier, i.e., baseline wanders and ence can be constricted by applying the denoising technique based on performed in [15,16]. The cleaned signal gives a better interpretation o the denoising approach, diverse wavelets from the families includin and Coif are practiced, enhancing the signals [17].…”
Section: Introductionmentioning
confidence: 99%
“…The discrete WT (which is applied in this study) on the other hand pursues only the limited set of wavelets such as locations and scales, thus, more efficiently [14]. The types of noises discussed earlier, i.e., baseline wanders and powerline interference can be constricted by applying the denoising technique based on discrete wavelet as performed in [15,16]. The cleaned signal gives a better interpretation of the ECG.…”
Section: Introductionmentioning
confidence: 99%