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Title	Developing And Evaluating A Real Time And Energy Efficient Architecture For An Internet Of Health Things
ID_Doc	19439
Authors	Borujeni A.M.; Fathy M.; Mozayani N.
Year	2020
Published	Proceeding of 4th International Conference on Smart Cities, Internet of Things and Applications, SCIoT 2020
DOI	http://dx.doi.org/10.1109/SCIOT50840.2020.9250196
Abstract	Real-Time health monitoring systems play a critical role in preventing heart disease by processing vital sign monitoring data. The internet of things will enhance the entire health care service-delivery and can lead to reducing the immediate risk in real-Time. Fog assisted health-care IoT system and Edge computing technology are an emerging paradigm that reducing emergency response time and enhanced the quality of experiences. In hierarchical architectures, the task placement strategy for a task or service is a challenge that requires a successful response. In this paper, we propose a quality of experiences-Aware health monitoring application according to patients' demands and evaluate to clarify the impacts of different scenarios. The appropriate task placement scenarios in this hierarchical architecture lead to a satisfying quality of experience for improving health services. These policies are evaluated in terms of health services delivery, energy consumption, cost of execution(CoE) in the cloud, and network usage by iFogSim toolkit. In this paper, we have developed a new approach to improve resource management policies to achieve satisfactory results. © 2020 IEEE.
Author Keywords	Fog Computing; Healthcare Monitoring; Internet of Health Things; Quality of Experience; Resource Management

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