Virtual Care Technologies, Wearable Health Monitoring Sensors, and Internet of Medical Things-based Smart Disease Surveillance Systems in the Diagnosis and Treatment of COVID-19 Patients

S. Maxwell
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引用次数: 9

Abstract

Digital epidemiological surveillance in monitoring, detection, and prevention of COVID-19 is optimized by use of medical artificial intelligence, clinical and diagnostic decision support systems, machine learning-based real-time data sensing and processing, and smart healthcare devices and applications. Study Design, Survey Methods, and Materials The interviews were conducted online and data were weighted by five variables (age, race/ethnicity, gender, education, and geographic region) using the Census Bureau's American Community Survey to reflect reliably and accurately the demographic composition of the United States. (Pustokhina et al., 2020) Body sensor networks integrate interconnected bio-sensors and wearable healthcare devices (Kovacova and Lăzăroiu, 2021;Lyons and Lăzăroiu, 2020) that assess abnormal alterations in vital physiological signs and share medical imaging data for patient diagnosis and monitoring, being instrumental in chronic diseases by use of deep learning-based applications. Conclusions, Implications, Limitations, and Further Research Directions Artificial intelligence-enabled wearable medical devices, virtualized care systems, and wireless biomedical sensing devices are pivotal in COVID-19 screening, testing, and treatment.
虚拟医疗技术、可穿戴式健康监测传感器和基于医疗物联网的智能疾病监测系统在COVID-19患者诊断和治疗中的应用
通过使用医疗人工智能、临床和诊断决策支持系统、基于机器学习的实时数据传感和处理以及智能医疗设备和应用程序,优化了COVID-19监测、检测和预防中的数字流行病学监测。研究设计、调查方法和材料访谈是在线进行的,数据采用人口普查局美国社区调查的五个变量(年龄、种族/民族、性别、教育程度和地理区域)加权,以可靠和准确地反映美国的人口构成。(Pustokhina et al., 2020)身体传感器网络整合了相互连接的生物传感器和可穿戴医疗设备(Kovacova和l z roiu, 2021;Lyons和l z roiu, 2020),评估重要生理体征的异常变化,共享医学成像数据,用于患者诊断和监测,通过使用基于深度学习的应用程序,有助于慢性疾病。人工智能支持的可穿戴医疗设备、虚拟化医疗系统和无线生物医学传感设备在COVID-19筛查、测试和治疗中至关重要。
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