Applications of Machine Learning in Ambulatory ECG
TLDR
The center tasks of AECG signal processing include signal preprocessing, beat detection and classification, event detection, and event prediction, which are the topics most relevant and of greatest concern to the people working in this area.Abstract:
The ambulatory ECG (AECG) is an important diagnostic tool for many heart electrophysiology-related cases. AECG covers a wide spectrum of devices and applications. At the core of these devices and applications are the algorithms responsible for signal conditioning, ECG beat detection and classification, and event detections. Over the years, there has been huge progress for algorithm development and implementation thanks to great efforts by researchers, engineers, and physicians, alongside the rapid development of electronics and signal processing, especially machine learning (ML). The current efforts and progress in machine learning fields are unprecedented, and many of these ML algorithms have also been successfully applied to AECG applications. This review covers some key AECG applications of ML algorithms. However, instead of doing a general review of ML algorithms, we are focusing on the central tasks of AECG and discussing what ML can bring to solve the key challenges AECG is facing. The center tasks of AECG signal processing listed in the review include signal preprocessing, beat detection and classification, event detection, and event prediction. Each AECG device/system might have different portions and forms of those signal components depending on its application and the target, but these are the topics most relevant and of greatest concern to the people working in this area.read more
Citations
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Journal ArticleDOI
Golden Standard or Obsolete Method? Review of ECG Applications in Clinical and Experimental Context
TL;DR: This paper overviews possibilities of ECG recordings in research and clinical practice, deals with advantages and disadvantages of various approaches, and summarizes possibilities of advanced data analysis.
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Automated ECG Interpretation—A Brief History from High Expectations to Deepest Networks
TL;DR: This article traces the development of automated electrocardiography from its beginnings in Washington, DC around 1960 through to its current widespread application worldwide and applications of artificial intelligence are considered.
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Machine learning models of 6-lead ECGs for the interpretation of left ventricular hypertrophy (LVH).
TL;DR: In this paper , the authors evaluate different big data-driven machine learning models for ECG LVH interpretation based on limb leads only, and compare the performance of an ECG parameter-based statistical model with a deep learning-based model.
Journal ArticleDOI
Differential Beat Accuracy for ECG Family Classification Using Machine Learning
Alba Vadillo-Valderrama,Rebeca Goya-Esteban,Raúl Caulier-Cisterna,Arcadio García-Alberola,José Luis Rojo-Álvarez +4 more
TL;DR: In this article , a new index based on the confusion matrices and bootstrap resampling is proposed to summarize the global performance for all family beats, so-called differential beat accuracy (DBA), which is obtained as the total number of beats correctly classified in each class minus the total amount of beats incorrectly classified.
Journal ArticleDOI
Machine Learning approach for TWA detection relying on ensemble data design
Miriam Gutiérrez Fernández–Calvillo,Rebeca Goya-Esteban,Fernando Cruz-Roldán,Antonio Hernández-Madrid,Manuel Blanco-Velasco +4 more
TL;DR: In this article , a machine learning based approach for detecting TWA was proposed. But, the proposed approach is not suitable for the detection of TWA in real-time ECG data.
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