Analysis and Synthesis of Electrocardiogram (ECG) using Fourier and Wavelet Transform

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Abstract

Electrocardiogram (ECG) is the study of the electrical signals of the human heart that are generated by the pumping action of the heart caused by the polarization and depolarization of the nodes of the heart. These signals must be interpreted with great accuracy and efficiency as they are paramount in prognosis and subsequent diagnosis of the condition of the patient. The goal of this project is to analyze the ECG signals following Fourier and Wavelet transforms, and to highlight and demonstrate the advantages of the Wavelet transform. Firstly, it involves simulating the temporal digital ECG signal and explaining the signal constituents, i.e., P, Q, R, S, T waves while staying in the time domain. Secondly, the ECG signal will be transferred into the frequency domain for quick, fast, and compressed analysis and carry out signal processing using Fourier analysis and highlight the pros and cons of this technique. Thirdly, wavelet analysis will be explored and demonstrated to mitigate the shortcoming of the former tool, i.e., Fourier. At this stage, various ECG signals, mimicking abnormalities, will be analyzed. This work will highlight the effectiveness of wavelet analysis as a tool to examine ECG signals. This work, hence, will entail, comparison of both transformation methods by utilizing the computational power of MATLAB.
基于傅里叶和小波变换的心电图分析与合成
心电图(Electrocardiogram, ECG)是一门研究人类心脏电信号的学科,它是由心脏节点的极化和去极化引起的心脏泵送作用所产生的电信号。这些信号必须非常准确和有效地解释,因为它们对患者的预后和随后的病情诊断至关重要。本课题的目的是分析经过傅里叶变换和小波变换后的心电信号,并突出和展示小波变换的优点。首先,模拟时域数字心电信号,并在时域内解释信号的组成,即P、Q、R、S、T波。其次,将心电信号转移到频域进行快速、快速、压缩分析,并利用傅里叶分析对信号进行处理,突出该技术的优缺点。第三,小波分析将被探索和演示,以减轻以前的工具,即傅立叶的缺点。在这个阶段,将分析各种模拟异常的心电信号。这项工作将突出小波分析作为一种检测心电信号的工具的有效性。因此,这项工作将需要利用MATLAB的计算能力对两种变换方法进行比较。
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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