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A digital twin framework for real-time healthcare monitoring: leveraging AI and secure systems for enhanced patient outcomes

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Publié dans:Discover Internet of Things vol. 5, no. 1 (Dec 2025), p. 37
Publié:
Springer Nature B.V.
Sujets:
Machine learning
Data integrity
Diabetes
Electronic health records
Artificial intelligence
Digital twins
Confidentiality
Sensors
Chronic illnesses
Body temperature
Data processing
Architecture
Data analysis
Personal health
Privacy
Industry 4.0
Cloud computing
Data transmission
Access control
Internet of Things
Efficiency
Clinical outcomes
Oxygen saturation
Heart rate
Accès en ligne:Citation/Abstract
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Résumé:Digital Twin (DT) technology in healthcare is relatively new and faces several challenges, e.g., real-time data processing, secure system integration, and robust cybersecurity. Despite the growing demand for real-time monitoring frameworks, further improvements remain possible. In this study, an architecture has been introduced that utilises cloud computing to create a DT ecosystem. A group of 20 participants has been monitored continuously using high-speed technology to track key physiological parameters, i.e., diabetes risk factors, heart rate (HR), oxygen saturation (SpO2) levels, and body temperature (BT). To strengthen the study and enhance diversity, the dataset was supplemented with 1177 anonymized medical records from the publicly available MIMIC-III Public Health Dataset. The DT model functions as a tool, storing both real-time sensor data and historical records, to effectively identify health risks and anomalies. An MLP model was combined with XGBoost, resulting in a 25% reduction in training time and a 33% reduction in testing time. The model demonstrated reliability with an accuracy of 98.9% and achieved real-time accuracy of 95.4%, alongside an F1 score of 0.984. Meticulous attention has been paid to cybersecurity measures, ensuring system integrity through end-to-end encryption and compliance with health data regulations. The incorporation of DT and AI within the healthcare sector is seen as having the potential to overcome existing limitations in monitoring systems, while workloads are relieved and data-driven diagnostics and decision-making processes are improved, e.g., through enhanced real-time patient monitoring and predictive analysis. Highlights<list list-type="bullet"><list-item></list-item>A hybrid digital twin framework integrates IoT, AI, and secure systems to enhance real-time healthcare monitoring.<list-item>Achieved 98.9% accuracy in predicting health metrics such as heart rate, oxygen levels, and diabetes risk factors.</list-item><list-item>Implements robust cybersecurity and cloud computing to ensure data privacy, scalability, and efficient patient care.</list-item>
ISSN:2730-7239
DOI:10.1007/s43926-025-00135-3
Source:ABI/INFORM Global