Continuous ECG Monitoring
ECG (Electrocardiogram): An ECG is a medical test that measures the electrical activity of the heart over a period of time. It is used to detect heart problems and monitor heart health.
Continuous Monitoring: Unlike traditional ECG tests, which are typically performed at specific intervals in a clinical setting, continuous ECG monitoring involves constant observation of the heart's electrical activity. This allows for real-time tracking of heart rhythms, detecting irregularities as they occur.
Lightweight & Comfort Wearable
Lightweight: The device is designed to be light in weight, ensuring that it does not burden the user during everyday activities. This makes it more likely that the user will wear the device consistently, leading to more accurate and comprehensive health monitoring.
Comfortable: The device is engineered with user comfort in mind. It is likely made from materials that are soft, flexible, and skin-friendly to avoid irritation. The ergonomic design ensures that it fits snugly without causing discomfort, even during extended wear.
IoT Device with BLE Connectivity
IoT (Internet of Things): This refers to the interconnection of computing devices embedded in everyday objects via the internet, enabling them to send and receive data. In this case, the wearable device is part of the IoT ecosystem, contributing to the broader trend of connected health monitoring systems.
Data Collection: The wearable device continuously collects ECG data from the user. This data can include heart rate, heart rhythm, and other vital statistics pertinent to cardiovascular health.
BLE (Bluetooth Low Energy): BLE is a wireless communication technology designed for low power consumption, making it ideal for wearable devices that require long battery life. The device uses BLE to transmit the collected ECG data to a paired mobile device.
Data Transmission to Mobile Device
Mobile Device Integration: The wearable device is designed to work in tandem with a mobile device, such as a smartphone or tablet.
App Interface: A dedicated mobile application receives the data from the wearable device via BLE. This app can provide users with real-time monitoring, historical data visualization, alerts for irregularities, and possibly integration with healthcare providers for remote monitoring.