Classification of 12-lead ECG With an Ensemble Machine Learning Approach

2020 Computing in Cardiology Pub Date : 2020-09-13 DOI:10.22489/CinC.2020.406

Matteo Bodini, M. Rivolta, R. Sassi

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引用次数: 2

Abstract

The PhysioNet 2020 Challenge focused on the automatic classification of 27 cardiac abnormalities (CAs) from 12-lead ECG signals. We investigated on a hybrid approach, combining average-template-based algorithms with deep neural networks (DNNs), to build an ensemble classification model. We calibrated the model on the available 40,000+ ECGs, while organizers tested the model on a private test set. Standard ECG preprocessing was applied. For ECGs related to CAs altering the ECG morphology, multi-lead average P, QRS, and T segments were computed. For signals associated with irregular rhythms, time dependent features were computed. The ensemble model comprised of: i) three DNNs to classify morphology-related CAs. ii) a fully connected neural network to classify irregular rhythm; and iii) a threshold-based classifier for premature ventricular beat detection. The organizers designed a score for ranking the models. The ensemble model proposed by our team “BiSP Lab” reached the 40th position, and obtained a score of -0.179 on the private test set. Despite the low performance obtained on the private test set, our ensemble model showed potential for classification of CAs from ECGs.

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基于集成机器学习方法的12导联心电图分类

PhysioNet 2020挑战赛侧重于从12导联心电图信号中自动分类27种心脏异常(ca)。我们研究了一种混合方法，将基于平均模板的算法与深度神经网络(dnn)相结合，建立一个集成分类模型。我们在可用的40,000多个心电图上校准了模型，而组织者在私人测试集上测试了模型。采用标准心电预处理。对于与ca改变心电图形态相关的心电图，计算多导联平均P、QRS和T段。对于与不规则节律相关的信号，计算时间相关特征。该集成模型包括:i)三个dnn对形态相关CAs进行分类。Ii)全连接神经网络对不规则节奏进行分类;iii)基于阈值的室性早搏检测分类器。组织者设计了一个分数来对模特进行排名。我们团队“BiSP Lab”提出的集成模型排名第40位，在私有测试集上获得了-0.179的分数。尽管在私有测试集上获得的性能较低，但我们的集成模型显示了从心电图中分类ca的潜力。

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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2020 Computing in Cardiology

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