Containerized microservice framework on edge device for health care IOT system

Abstract

The aging population in Western and developed countries, combined with advancements in medical sciences, has resulted in a growing demand for smart home healthcare moni toring systems. These systems cater to the needs of elderly individuals who prefer to age in place rather than relocate healthcare facilities. To address this demand, researchers have explored the integration of Internet of Things (IoT) techniques and lightweight virtualization technology in edge computing. This approach offers improved resource management, service isolation, and seamless deployment of diverse hardware compo nents. In this study, a containerized architectural framework is proposed to enable the concurrent deployment of multiple IoT applications in senior citizen homes. The framework included sensor networks and containerized microservices, which are centrally managed and orchestrated following the principles of DevOps. The primary objective of the proposed smart healthcare monitoring system is to monitor the activities and well-being of occupants and provide crucial information to healthcare providers. By tracking various parameters and identifying signs of discomfort, the sys tem facilitates timely and effective assistance from healthcare professionals. The utiliza tion of containerization technology ensures efficient management and scalability of the deployed applications, enabling customization and adaptation to individual needs. This research aims to bridge the gap between traditional healthcare settings and the com fort of home, offering elderly individuals a comprehensive and personalized healthcare monitoring solution that promotes independence and enhances their overall quality of ix life.