Cardiac signals classification based on Extra Trees model

2021 8th International Conference on Signal Processing and Integrated Networks (SPIN) Pub Date : 2021-08-26 DOI:10.1109/SPIN52536.2021.9565992

B. Dhananjay, N. Venkatesh, Arya Bhardwaj, J. Sivaraman

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引用次数: 1

Abstract

The challenging aspect of diagnosing cardiac abnormalities is the accurate classification of cardiac signals. Classifying cardiac abnormalities having similar wave morphologies by manual measurements is a herculean task. The main aim of this work is to classify Sinus Rhythm (SR), Sinus Tachycardia (ST) under physical stress, and Atrial Tachycardia (AT), by developing a machine learning model, Extra Trees (ET). The input feature set of the developed ET model consist of clinical morphologies of the cardiac signal. The clinical morphologies include durations (in ms) of P wave, PR Interval (PRI), QRS complex, T wave, QT Interval (QTI), PP Interval (PPI), and amplitudes (μV) of P, R, and T waves. Apart from classifying, the ET model has also ranked the essential clinical features required to diagnose SR, ST and AT signals. According to the ET model, P (ms), PPI (ms), and P (μV) are the crucial features to classify signals. The precision, recall, and F1 scores of the developed ET model in SR are 0.99, 0.929, and 0.963, respectively, in ST is 0.99 and in AT are 0.947, 0.99, and 0.973, respectively. The advantage of ET model over other classifiers is that, being an ensemble-based classifier developed from a decision tree classifier, it prevents over fitting.

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基于Extra Trees模型的心脏信号分类

诊断心脏异常最具挑战性的方面是心脏信号的准确分类。通过人工测量对具有相似波形的心脏异常进行分类是一项艰巨的任务。这项工作的主要目的是通过开发机器学习模型Extra Trees (ET)，对生理压力下的窦性心律(SR)、窦性心动过速(ST)和房性心动过速(AT)进行分类。所开发的ET模型的输入特征集由心脏信号的临床形态学组成。临床形态学包括P波持续时间(ms)、PR间期(PRI)、QRS复合体、T波、QT间期(QTI)、PP间期(PPI)和P波、R波、T波振幅(μV)。除了分类之外，ET模型还对诊断SR、ST和AT信号所需的基本临床特征进行了排序。根据ET模型，P (ms)、PPI (ms)和P (μV)是信号分类的关键特征。所建立的ET模型在SR上的精密度、召回率和F1分数分别为0.99、0.929和0.963，在ST上为0.99，在AT上分别为0.947、0.99和0.973。ET模型相对于其他分类器的优势在于，作为一个从决策树分类器发展而来的基于集成的分类器，它可以防止过度拟合。

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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2021 8th International Conference on Signal Processing and Integrated Networks (SPIN)

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