Edge-AI enabled secure IoT framework for real-time patient monitoring and anomaly detection in smart healthcare systems.
Journal:
Scientific reports
Published Date:
Jun 25, 2026
Abstract
Hospitals desire knowledge of bedside sensors in real time but they do not wish to send everything to the cloud. We propose an Edge-AI framework used in the IoT environment that maintains intelligence as near as possible to the patient, and ensures privacy and a trusted audit trail. A quantized CNN-LSTM is run on-device to detect anomalies and protects data in transit and at rest (TLS plus lightweight homomorphic encryption), logs notable events to a private block chain to give an auditable, tamper-proof history, and improves models off-device using federated learning to ensure that raw patient data never reaches the cloud. Reply The framework was tested against a cloud-only baseline on the MIT-BIH Arrhythmia dataset and a live multi-sensor synthetic stream, beating it across all metrics: accuracy 94.7% versus 83.1% accuracy, median inference latency 118 ms versus 246 ms (a 52% reduction), daily communication overhead 36.2 MB versus 56.3 MB (a savings of 38.1%), and energy usage 1.21 mW/sample (near 22% energy efficiency improvement). Block chain logging endured 75 events/s, which helped medico-legal tractability. Federated rounds provided ~ 1.5-2.3 accuracy points per round across five rounds, whereas INT8 quantization reduced model size by ~ 74% with only a ~ 0.4 accuracy degrade-practical in Jetson-class edge devices. SHAP explanations accompany alerts to enable the establishment of clinical trust in the model by demonstrating why a case was flagged. In general, the framework provides a safe, decipherable, and standard-aligned course to hospital-scale implementation (> 1,000 nodes) with quantifiable gains in responsiveness and bandwidth as well as power.
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