A Fetal ECG Extraction Method Based on ELM Optimized by Improved PSO Algorithm.

Q3 Engineering Critical Reviews in Biomedical Engineering Pub Date : 2022-01-01 DOI:10.1615/CritRevBiomedEng.2022044778

Jiqin Chen, Fenglin Cao, Ping Gao

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Abstract

The extraction of fetal electrocardiogram (FECG) is of great significance for perinatal fetal monitoring. In order to improve the prediction accuracy of FECG, a FECG extraction method based on extreme learning machine (ELM) optimized by an improved particle swarm optimization (IPSO) was proposed (IPSO-ELM). First, according to the characteristics of the mixed signal on the maternal abdominal wall, and based on the global search ability of IPSO, the initial weight matrix and hidden layer bias of ELM were optimized to match with the mixed signal of the maternal abdominal wall and the network topology. Then, an ELM model was established using the optimal network parameters obtained by IPSO. The nonlinear transformation of the maternal ECG (MECG) signal to the abdominal wall was estimated by the IPSO-ELM network. Finally, the non-linearly transformed MECG signal was mixed with the abdominal wall subtract to obtain clear FECG. The experimental results of clinical ECG signals in DaISy dataset showed that, compared with the traditional normalized minimum mean square error, support vector machine method, and ELM neural network methods, the proposed method can extract clearer FECG signals and improve the signal-to-noise ratio of extracted FECG.

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基于改进粒子群算法优化的ELM胎儿心电提取方法。

胎儿心电图的提取对围产期胎儿监护具有重要意义。为了提高FECG的预测精度，提出了一种基于改进粒子群算法优化的极限学习机(IPSO-ELM)的FECG提取方法。首先，根据产妇腹壁混合信号的特点，基于IPSO的全局搜索能力，优化ELM的初始权重矩阵和隐层偏差，使其与产妇腹壁混合信号和网络拓扑匹配;然后，利用IPSO算法得到的最优网络参数，建立了ELM模型。利用IPSO-ELM网络估计母体心电信号向腹壁的非线性变换。最后，将非线性变换后的MECG信号与腹壁减影混合，得到清晰的FECG。DaISy数据集的临床心电信号实验结果表明，与传统的归一化最小均方误差、支持向量机方法、ELM神经网络方法相比，本文方法能够提取出更清晰的心电信号，提高提取的心电信号信噪比。

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来源期刊

Critical Reviews in Biomedical Engineering Engineering-Biomedical Engineering

CiteScore

1.80

自引率

0.00%

发文量

期刊介绍： Biomedical engineering has been characterized as the application of concepts drawn from engineering, computing, communications, mathematics, and the physical sciences to scientific and applied problems in the field of medicine and biology. Concepts and methodologies in biomedical engineering extend throughout the medical and biological sciences. This journal attempts to critically review a wide range of research and applied activities in the field. More often than not, topics chosen for inclusion are concerned with research and practice issues of current interest. Experts writing each review bring together current knowledge and historical information that has led to the current state-of-the-art.