Ruixia Liu , Huichen Hu , Shuaishuai Zhang , Yanjun Deng , Zhaoyang Liu , Yongjian Chen , Zhe Chen
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Our approach consists of two stages: firstly, we input the noisy ECG signal to obtain a denoised version; secondly, we reconstruct the denoised signal by fusing preliminary results from the first stage while correcting waveform distortions caused by initial denoising to minimize information loss. Additionally, we introduce a new loss function that considers differences between slopes of the denoised ECG signal and clean ECG signal. To validate our proposed method's effectiveness, extensive experiments were conducted on both our model architecture and loss function compared with other state-of-the-art methods. Results demonstrate that our approach achieves excellent performance in terms of both signal-to-noise ratio (SNR) and root-mean-square error (RMSE). 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引用次数: 0
摘要
心电图(ECG)信号由于频率和振幅较低,在采集过程中容易受到未知噪声的干扰,导致信号中重要信息的丢失。近年来,深度学习模型在信号处理方面取得了可喜的成果。然而,这些模型对各种类型的噪声缺乏鲁棒性,而且往往忽略了去噪信号与原始信号之间的梯度差异。在本研究中,我们提出了一种基于注意力半实例归一化块(AHIN 块)和梯度差最大损失函数(GDM 损失)的新型深度学习去噪方法。我们的方法包括两个阶段:首先,我们输入有噪声的心电信号以获得去噪版本;其次,我们通过融合第一阶段的初步结果来重建去噪信号,同时修正初始去噪造成的波形失真,以最大限度地减少信息损失。此外,我们还引入了一个新的损失函数,该函数考虑了去噪心电图信号与干净心电图信号斜率之间的差异。为了验证我们提出的方法的有效性,我们进行了大量实验,将我们的模型架构和损失函数与其他最先进的方法进行了比较。结果表明,我们的方法在信噪比(SNR)和均方根误差(RMSE)方面都取得了优异的性能。所提出的降噪方法在 BW、MA 和 EM 噪声下分别提高了 8.86%、12.05% 和 10.50%。
An ECG denoising technique based on AHIN block and gradient difference max loss
The electrocardiogram (ECG) signal is susceptible to interference from unknown noises during the acquisition process due to their low frequency and amplitude, resulting in the loss of significant information in the signals. Recent advancements in deep learning models have shown promising results in signal processing. However, these models lack robustness against various types of noise and often overlook the gradient difference between denoised and original signals. In this study, we propose a novel deep learning denoising method based on an attention half instance normalization block (AHIN block) and a gradient difference max loss function (GDM Loss). Our approach consists of two stages: firstly, we input the noisy ECG signal to obtain a denoised version; secondly, we reconstruct the denoised signal by fusing preliminary results from the first stage while correcting waveform distortions caused by initial denoising to minimize information loss. Additionally, we introduce a new loss function that considers differences between slopes of the denoised ECG signal and clean ECG signal. To validate our proposed method's effectiveness, extensive experiments were conducted on both our model architecture and loss function compared with other state-of-the-art methods. Results demonstrate that our approach achieves excellent performance in terms of both signal-to-noise ratio (SNR) and root-mean-square error (RMSE). The proposed noise reduction method improves 8.86%, 12.05% and 10.50% respectively under BW, MA and EM noise.
期刊介绍:
The Journal of Electrocardiology is devoted exclusively to clinical and experimental studies of the electrical activities of the heart. It seeks to contribute significantly to the accuracy of diagnosis and prognosis and the effective treatment, prevention, or delay of heart disease. Editorial contents include electrocardiography, vectorcardiography, arrhythmias, membrane action potential, cardiac pacing, monitoring defibrillation, instrumentation, drug effects, and computer applications.
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