Application of an improved empirical mode decomposition algorithm in the feature extraction of blood pressure signal in salt-sensitive rats

Proceedings of the 2021 International Conference on Bioinformatics and Intelligent Computing Pub Date : 2021-01-22 DOI:10.1145/3448748.3448758

Haofan Wu, Jinbo Yang, Yili Zhu, Xinbao Wang, Zhaoqian Luo, Yating Xiao

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Abstract

Analyzing the blood pressure signal of salt-sensitive rats can provide important information for the study of blood pressure changes caused by human salt sensitivity. The blood pressure signal usually contains noise. In order to extract a more pure blood pressure signal, this paper uses an improved EMD algorithm based on noise statistical features. First, emd is applied to the original signal, and the high frequency noise except the heart rate will be randomly sorted. Then this paper add this signal to the original noise and calculate the average value, use the result as the new noise signal to sum the original real signal, and then do EMD. This algorithm effectively reduces the power of noise. The simulation results show that this method can effectively extract the blood pressure signal of salt-sensitive (SS) rats. Under the high and low salt diet, the changes in blood pressure of the rats are in line with medical laws.

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改进经验模态分解算法在盐敏感大鼠血压信号特征提取中的应用

分析盐敏感大鼠的血压信号，可以为研究人体盐敏感引起的血压变化提供重要信息。血压信号通常含有噪声。为了提取更纯净的血压信号，本文采用了一种改进的基于噪声统计特征的EMD算法。首先对原始信号进行emd处理，对除心率外的高频噪声进行随机排序。然后将该信号与原始噪声相加并计算平均值，将其作为新的噪声信号与原始真实信号求和，然后进行EMD。该算法有效地降低了噪声的影响。仿真结果表明，该方法可以有效地提取盐敏感大鼠的血压信号。在高盐和低盐饮食下，大鼠血压的变化符合医学规律。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 2021 International Conference on Bioinformatics and Intelligent Computing

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