Abstract
The ageing population’s problems directly impact countries’ socio-economic structure, as more resources are required to monitor the aged population’s health. The growth in human life expectancy is increasing due to medical technologies and nutritional science innovations. The Internet of Things (IoT) is the connectivity of physical objects called things to the Internet. IoT has a wide range of health monitoring applications based on biomedical sensing devices to monitor health conditions. This paper proposes elderly patients’ health monitoring architecture based on an intelligent task mapping approach for a closed-loop IoT healthcare environment. As a case study, a health monitoring system was developed based on the proposed architecture for elderly patients’ health monitoring in the home, ambulance, and hospital environment. The system detects and notifies deteriorating conditions to the authorities based on biomedical sensors for faster interventions. Wearable biomedical sensors are used for monitoring body temperature, heart rate, blood glucose level, and patient body position. Threshold and machine learning-based approaches were used to detect anomalies in the health sensing data. The proposed architecture’s performance analysis is evaluated in terms of round trip time, reliability, task drop rate, and latency performance metrics. Performance results show that the proposed architecture of the elderly patient health monitoring can provide reliable solutions for critical tasks in IoT environments.
Highlights
Medical science innovations and advancements in nutritional science immensely increase human life expectancy, which raises the ageing population’s problems
Two approaches were used for detecting abnormal behavior in elderly patient health monitoring environment
Elderly patient health monitoring architecture based on an intelligent task mapping approach is proposed for a closed-loop Internet of Things (IoT) healthcare environment
Summary
Medical science innovations and advancements in nutritional science immensely increase human life expectancy, which raises the ageing population’s problems. Chronic diseases in elderly patients rise issues which put significant pressure on the health care, and economy [1] of a country. The demand for health monitoring resources in hospitals and health care clinics increases. There is a research gap for proposing solutions to reduce this significant pressure on the health care systems. Patient health monitoring systems are developed based on the integration of communication and computing technologies. In broader-spectrum, these solutions have common objectives and goals to provide electronic health services. One goal of these solutions is to monitor and evaluate patient health conditions based on vital signs [4]
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