[基于多尺度残差收缩 U-Net 的胎儿心电图信号提取]。

Qian Wang, Zhengxu Zhang, Danyang Song, Yujing Wang, Lixin Song
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引用次数: 0

摘要

在提取胎儿心电信号时,由于 U-Net 同级卷积编码器尺度的单一性,忽略了母体和胎儿心电特征波的大小和形状差异,编码器残差收缩模块的阈值学习过程中没有使用心电信号的时间信息。本文提出了一种基于多尺度残差收缩 U-Net 模型的胎儿心电信号提取方法。首先,在残差收缩模块中引入了Inception和时域注意力,以增强同级卷积编码器的多尺度特征提取能力和对胎儿心电信号时域信息的利用。为了保留更多心电图波形的局部细节,U-Net 中的最大池化被 Softpool 所取代。最后,由残差模块和上采样组成的解码器逐步生成胎儿心电信号。本文采用临床心电信号进行实验。最终结果表明,与其他胎儿心电图提取算法相比,本文提出的方法能提取出更清晰的胎儿心电图信号。在2013年比赛数据集中,灵敏度、阳性预测值和F1得分分别达到了93.33%、99.36%和96.09%,表明该方法能有效提取胎儿心电信号,在围产期胎儿健康监护方面具有一定的应用价值。
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[Fetal electrocardiogram signal extraction based on multi-scale residual shrinkage U-Net].

In the extraction of fetal electrocardiogram (ECG) signal, due to the unicity of the scale of the U-Net same-level convolution encoder, the size and shape difference of the ECG characteristic wave between mother and fetus are ignored, and the time information of ECG signals is not used in the threshold learning process of the encoder's residual shrinkage module. In this paper, a method of extracting fetal ECG signal based on multi-scale residual shrinkage U-Net model is proposed. First, the Inception and time domain attention were introduced into the residual shrinkage module to enhance the multi-scale feature extraction ability of the same level convolution encoder and the utilization of the time domain information of fetal ECG signal. In order to maintain more local details of ECG waveform, the maximum pooling in U-Net was replaced by Softpool. Finally, the decoder composed of the residual module and up-sampling gradually generated fetal ECG signals. In this paper, clinical ECG signals were used for experiments. The final results showed that compared with other fetal ECG extraction algorithms, the method proposed in this paper could extract clearer fetal ECG signals. The sensitivity, positive predictive value, and F1 scores in the 2013 competition data set reached 93.33%, 99.36%, and 96.09%, respectively, indicating that this method can effectively extract fetal ECG signals and has certain application values for perinatal fetal health monitoring.

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来源期刊
生物医学工程学杂志
生物医学工程学杂志 Medicine-Medicine (all)
CiteScore
0.80
自引率
0.00%
发文量
4868
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