用于肌电图污染心电信号去噪的形态保存算法

IF 2.7 Q3 ENGINEERING, BIOMEDICAL IEEE Open Journal of Engineering in Medicine and Biology Pub Date : 2024-03-25 DOI:10.1109/OJEMB.2024.3380352

Vladimir Atanasoski;Jovana Petrović;Lana Popović Maneski;Marjan Miletić;Miloš Babić;Aleksandra Nikolić;Dorin Panescu;Marija D. Ivanović

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引用次数: 0

摘要

目标：心电图（ECG）的临床解读可能会受到噪声的不利影响。由于肌电图（EMG）噪声的频谱与 QRS 波群重叠，因此去除肌电图噪声尤其具有挑战性。现有的肌电图去噪算法往往会扭曲信号形态，从而掩盖诊断相关信息。方法：本文提出了一种新的迭代再生方法（IRM），用于有效抑制肌电图噪声。其主要假设是，暂时去除主要的心电图成分可在提取噪声的同时将对信号的改变降到最低。该方法在同时记录参考信号和噪声信号的 SimEMG 数据库、MIT-BIH 心律失常数据库和合成心电信号上进行了验证。结果IRM 去噪和形态保持性能优于基于小波和 FIR 的基准方法。结论：IRMIRM 可靠、计算不密集、速度快，适用于移动或标准心电图设备记录的任何数量的心电图通道。

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A Morphology-Preserving Algorithm for Denoising of EMG-Contaminated ECG Signals

Goal: Clinical interpretation of an electrocardiogram (ECG) can be detrimentally affected by noise. Removal of the electromyographic (EMG) noise is particularly challenging due to its spectral overlap with the QRS complex. The existing EMG-denoising algorithms often distort signal morphology, thus obscuring diagnostically relevant information. Methods: Here, a new iterative regeneration method (IRM) for efficient EMG-noise suppression is proposed. The main hypothesis is that the temporary removal of the dominant ECG components enables extraction of the noise with the minimum alteration to the signal. The method is validated on SimEMG database of simultaneously recorded reference and noisy signals, MIT-BIH arrhythmia database and synthesized ECG signals, both with the noise from MIT Noise Stress Test Database. Results: IRM denoising and morphology-preserving performance is superior to the wavelet- and FIR-based benchmark methods. Conclusions : IRM is reliable, computationally non-intensive, fast and applicable to any number of ECG channels recorded by mobile or standard ECG devices.

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来源期刊

IEEE Open Journal of Engineering in Medicine and Biology ENGINEERING, BIOMEDICAL-

CiteScore

9.50

自引率

3.40%

发文量

审稿时长

10 weeks

期刊介绍： The IEEE Open Journal of Engineering in Medicine and Biology (IEEE OJEMB) is dedicated to serving the community of innovators in medicine, technology, and the sciences, with the core goal of advancing the highest-quality interdisciplinary research between these disciplines. The journal firmly believes that the future of medicine depends on close collaboration between biology and technology, and that fostering interaction between these fields is an important way to advance key discoveries that can improve clinical care.IEEE OJEMB is a gold open access journal in which the authors retain the copyright to their papers and readers have free access to the full text and PDFs on the IEEE Xplore® Digital Library. However, authors are required to pay an article processing fee at the time their paper is accepted for publication, using to cover the cost of publication.