IoT-Based Non-Invasive RBI Index Detection using Electrocardiogram Photoplethysmogram Signals with Firebase Cloud Integration and Real-Time Health Alerts

Peripheral artery disease is a chronic circulatory disorder that is manifested by narrowing or obstruction of peripheral arteries, mainly lower limbs. Early diagnosis is crucial to avoid severe complications: critical limb ischemia, myocardial infarction, and stroke. However, these diagnostic methods require clinical setups and trained professionals for their operation, limiting accessibility during early or continuous screening. This paper proposes the design and prototype implementation of a wearable device for early PAD detection based on multi-sensor data fusion. The system is integrated with Electrocardiogram (ECG), Photoplethysmogram (PPG), and bioimpedance sensors to monitor vascular health continuously. With this setup, Pulse transit time (PTT) and Pulse wave velocity (PWV) are computed as surrogate markers of arterial stiffness, and simultaneous bioimpedance data complement vascular tone information. The microcontroller-based system (ESP32) performs real-time data acquisition, pre-processing, and wireless transmission via Bluetooth Low Energy (BLE) to a mobile application for visualization. Preliminary tests on healthy volunteers confirm successful synchronization of ECG and PPG signals, demonstrating the feasibility of non-invasive vascular monitoring. Future work includes the machine-learning-based PAD stage classification and clinical validation. A cost-effective, portable, continuous monitoring solution is provided by the proposed device, which can be used for early diagnosis and management of PAD.