ACQuA: Anomaly Classification with Quasi-Attractors

2022 Computing in Cardiology (CinC) Pub Date : 2022-09-04 DOI:10.22489/CinC.2022.201

William Rudman, Jack Merullo, L. Mercurio, Carsten Eickhoff

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引用次数: 1

Abstract

In recent years, deep learning has redefined algorithms for detecting cardiac abnormalities. However, many state of the art algorithms still rely on calculating handcrafted features from a given heart signal that are then fed into shallow 1D convolutional networks or transformer architectures. We propose ACQuA (Anomaly Classification with Quasi Attractors), a task agnostic algorithm that can be used in a wide variety of cardiac settings, from classifying cardiac arrhythmias from ECG signals to detecting heart murmurs from PCG signals. Using theorems from dynamical analysis and topological data analysis, we create informative attractor images that 1) are human distinguishable and 2) can be used to train neural networks for anomaly classification. In the George B. Moody 2022 Challenge, our team, BrownBAI, received an official score of 0.406 (38/40) for murmur classification and a score of 16773 (39/40) for outcome classification. Additionally, we evaluate our model on the CinC 2017 Challenge data that tasks practitioners to classify cardiac arrhythmias from ECG signals. On the CinC 2017 Challenge data, we improve upon the winning F1 scores by approximately 14% on the hidden validation data.

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基于拟吸引子的异常分类

近年来，深度学习重新定义了检测心脏异常的算法。然而，许多最先进的算法仍然依赖于从给定的心脏信号中计算手工制作的特征，然后将其输入浅一维卷积网络或变压器架构。我们提出了ACQuA(拟吸引子异常分类)，这是一种任务不可知算法，可用于各种心脏设置，从从ECG信号中分类心律失常到从PCG信号中检测心脏杂音。利用动态分析和拓扑数据分析中的定理，我们创建了信息丰富的吸引子图像，这些吸引子图像1)是人类可识别的，2)可用于训练神经网络进行异常分类。在George B. Moody 2022挑战赛中，我们的团队BrownBAI在杂音分类中获得了0.406(38/40)的官方分数，在结果分类中获得了16773(39/40)的分数。此外，我们在cnc 2017挑战赛数据上评估了我们的模型，该数据要求从业者从ECG信号中分类心律失常。在cnc 2017挑战赛数据上，我们在隐藏验证数据上将获胜的F1分数提高了约14%。

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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2022 Computing in Cardiology (CinC)

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