Pulse2AI: An Adaptive Framework to Standardize and Process Pulsatile Wearable Sensor Data for Clinical Applications

IF 2.7 Q3 ENGINEERING, BIOMEDICAL
Sicong Huang;Roozbeh Jafari;Bobak J. Mortazavi
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引用次数: 0

Abstract

Goal: To establish Pulse2AI as a reproducible data preprocessing framework for pulsatile signals that generate high-quality machine-learning-ready datasets from raw wearable recordings. Methods: We proposed an end-to-end data preprocessing framework that adapts multiple pulsatile signal modalities and generates machine-learning-ready datasets agnostic to downstream medical tasks. Results: a dataset preprocessed by Pulse2AI improved systolic blood pressure estimation by 29.58%, from 11.41 to 8.03 mmHg in root-mean-square-error (RMSE) and its diastolic counterpart by 26.01%, from 7.93 to 5.87 mmHg in RMSE. For respiration rate (RR) estimation, Pulse2AI boosted performance by 19.69%, from 1.47 to 1.18 breaths per minute (BrPM) in mean-absolute-error (MAE). Conclusion: Pulse2AI turns pulsatile signals into machine learning (ML) ready datasets for arbitrary remote health monitoring tasks. We tested Pulse2AI on multiple pulsatile modalities and demonstrated its efficacy in two medical applications. This work bridges valuable assets in remote sensing and internet of medical things to ML-ready datasets for medical modeling.
Pulse2AI:为临床应用标准化和处理搏动式可穿戴传感器数据的自适应框架
目标:建立 Pulse2AI,作为脉动信号的可重复数据预处理框架,从原始可穿戴记录中生成可用于机器学习的高质量数据集。方法:我们提出了一个端到端的数据预处理框架,它能适应多种脉动信号模式,并生成与下游医疗任务无关的机器学习就绪数据集。结果:经过 Pulse2AI 预处理的数据集将收缩压估计值提高了 29.58%,均方根误差(RMSE)从 11.41 mmHg 降至 8.03 mmHg;将舒张压估计值提高了 26.01%,均方根误差(RMSE)从 7.93 mmHg 降至 5.87 mmHg。在呼吸频率 (RR) 估算方面,Pulse2AI 的性能提高了 19.69%,平均绝对误差 (MAE) 从每分钟 1.47 次呼吸提高到 1.18 次呼吸。结论Pulse2AI 将脉动信号转化为机器学习 (ML) 数据集,可用于任意远程健康监测任务。我们在多种脉动模式上测试了 Pulse2AI,并在两个医疗应用中展示了其功效。这项工作将遥感和医疗物联网中的宝贵资产与可用于医学建模的 ML 数据集连接起来。
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来源期刊
CiteScore
9.50
自引率
3.40%
发文量
20
审稿时长
10 weeks
期刊介绍: The IEEE Open Journal of Engineering in Medicine and Biology (IEEE OJEMB) is dedicated to serving the community of innovators in medicine, technology, and the sciences, with the core goal of advancing the highest-quality interdisciplinary research between these disciplines. The journal firmly believes that the future of medicine depends on close collaboration between biology and technology, and that fostering interaction between these fields is an important way to advance key discoveries that can improve clinical care.IEEE OJEMB is a gold open access journal in which the authors retain the copyright to their papers and readers have free access to the full text and PDFs on the IEEE Xplore® Digital Library. However, authors are required to pay an article processing fee at the time their paper is accepted for publication, using to cover the cost of publication.
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