QRS Complex Detection in ECG Signals Using Empirical Wavelet Transform and Flower Pollination Algorithm

Q3 Computer Science

Periodica polytechnica Electrical engineering and computer science Pub Date : 2022-09-22 DOI:10.3311/ppee.20535

F. Guendouzi, M. Attari

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引用次数: 3

Abstract

The QRS complex is the most important component of electrocardiogram (ECG) signals; therefore, its detection is the first step of all kinds of automatic feature extraction and crucial part of an ECG analysis system. The R wave is one of the most important sections of the QRS complex, which has an essential role in diagnosis of irregular heartbeats. This paper employs Empirical Wavelet Transform (EWT) and Hilbert transforms as well as by employing Flower Pollination Algorithm (FPA) in order to approach an optimum combinational method for R peak detection. First, the Empirical Wavelet Transform (EWT) is used to eliminate the noise and improve the envelope extraction. The Hilbert envelope is then used to determine the positions of the R waves. Finally, FPA is used to adjust the envelope’s parameters. In the experimental section of this paper, the proposed approach is evaluated using the MIT/BIH database. We show that the proposed method can achieve results that are comparable to the state-of-the-art, with a global sensitivity of 99.95%, a positive predectivity of 99.92%, and a percentage error of 0.136%.

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基于经验小波变换和花授粉算法的心电信号QRS复合体检测

QRS复合体是心电图信号中最重要的组成部分;因此，它的检测是各种自动特征提取的第一步，也是心电分析系统的关键部分。R波是QRS复合体中最重要的部分之一，在诊断不规则心跳中起着至关重要的作用。本文采用经验小波变换(EWT)和希尔伯特变换(Hilbert Transform)，结合传粉算法(Flower Pollination Algorithm, FPA)，探讨了R峰检测的最佳组合方法。首先，利用经验小波变换(EWT)去除噪声，改进包络提取。然后用希尔伯特包络来确定R波的位置。最后，利用FPA对包络参数进行调整。在本文的实验部分，使用MIT/BIH数据库对所提出的方法进行了评估。我们的研究表明，该方法可以达到与最先进的结果相当的结果，具有99.95%的全局灵敏度，99.92%的正先验性，0.136%的百分比误差。

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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来源期刊

Periodica polytechnica Electrical engineering and computer science Engineering-Electrical and Electronic Engineering

CiteScore

2.60

自引率

0.00%

发文量

期刊介绍： The main scope of the journal is to publish original research articles in the wide field of electrical engineering and informatics fitting into one of the following five Sections of the Journal: (i) Communication systems, networks and technology, (ii) Computer science and information theory, (iii) Control, signal processing and signal analysis, medical applications, (iv) Components, Microelectronics and Material Sciences, (v) Power engineering and mechatronics, (vi) Mobile Software, Internet of Things and Wearable Devices, (vii) Solid-state lighting and (viii) Vehicular Technology (land, airborne, and maritime mobile services; automotive, radar systems; antennas and radio wave propagation).