Abstract
Continuous monitoring of diabetic patients improves their quality of life. The use of multiple technologies such as the Internet of Things (IoT), embedded systems, communication technologies, artificial intelligence, and smart devices can reduce the economic costs of the healthcare system. Different communication technologies have made it possible to provide personalized and remote health services. In order to respond to the needs of future intelligent e-health applications, we are called to develop intelligent healthcare systems and expand the number of applications connected to the network. Therefore, the 5G network should support intelligent healthcare applications, to meet some important requirements such as high bandwidth and high energy efficiency. This article presents an intelligent architecture for monitoring diabetic patients by using machine learning algorithms. The architecture elements included smart devices, sensors, and smartphones to collect measurements from the body. The intelligent system collected the data received from the patient, and performed data classification using machine learning in order to make a diagnosis. The proposed prediction system was evaluated by several machine learning algorithms, and the simulation results demonstrated that the sequential minimal optimization (SMO) algorithm gives superior classification accuracy, sensitivity, and precision compared to other algorithms.
Highlights
The field of healthcare is always evolving and offers many research possibilities
We developed an architecture for the smart continuous monitoring of diabetic patients using a machine learning algorithm for data classification
Our system is not limited to monitoring this disease, we focused it on the application of several machine learning algorithms to classify the data from diabetic patients and the parameters related to this disease
Summary
The field of healthcare is always evolving and offers many research possibilities. This evolution is based on the use of technologies and applications of the Internet of Things (IoT). It combines the information and communication technologies (ICTs), the use of sensors, the generation of massive data and the application of big data, machine learning techniques, and artificial intelligence. The use of new technologies is mainly used for the continuous monitoring of patients suffering from chronic illnesses [1], whose number has increased in recent years. IoT technology provides new solutions for diabetic patients. Chronic diseases are characterized for having long duration and requiring long-term treatments
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