The problem the invention solves
Current wearable health monitoring solutions often rely on external devices for data processing and lack real-time analytics, which limits their utility in providing timely health interventions. These devices also generally focus on a limited range of metrics and require frequent clinical supervision to detect health anomalies.
The core features of the invention
This invention centers around a wearable IoT-enabled device that autonomously collects, analyzes, and transmits multiple physiological signals pertinent to cardiovascular health, including ECG, heart rate, and oxygen saturation levels. It incorporates an integrated system for real-time local and cloud-based data processing, GPS, and cellular modules to enable autonomous communication of health alerts.
The inventive step
The uniqueness of this wearable device lies in its ability to process data locally using advanced signal processing and AI, reducing dependency on external processing devices. Its ability to integrate multiple health data streams into a cohesive, predictive analysis system sets it apart.
The tangible benefits
The device offers prompt health risk notifications, which can preemptively alert caregivers and medical personnel, thus increasing the potential for early intervention and reducing the burden on healthcare infrastructure. Patients benefit from continuous monitoring without the need for constant medical supervision.
The broader impact
This invention has a significant benefit for chronic heart disease patients, potentially reducing hospital visits and enhancing preventative care. By easing the continuous monitoring burden, it supports a more sustainable healthcare model, particularly in resource-limited settings.