Requirement​

Develop a Minimum Viable Product for a smart wearable concept.

Solution​

Our team developed a cutting-edge smart wearable prototype that leverages the power of Bluetooth Low Energy (BLE) technology to monitor a wide range of environmental and health parameters. Moreover, equipped with a BLE-based microcontroller and an array of sensors, this device is capable of capturing valuable data and transmitting it seamlessly to a companion mobile app.

Furthermore, at the heart of the prototype lies a sophisticated microcontroller that efficiently processes sensor data. This microcontroller is integrated with BLE technology, enabling wireless communication with the mobile app. Consequently, this seamless connectivity empowers users to access real-time data and insights directly on their smartphones.

In addition, the wearable prototype is equipped with a comprehensive suite of sensors, including those designed to measure temperature, humidity, air quality, heart rate, and other vital health indicators. By capturing and analyzing this data, the device provides users with valuable information about their surroundings and personal well-being.

Furthermore, the prototype extends its functionality beyond passive monitoring. It can be actively used to control external devices, such as heating systems. By integrating with compatible heating units, the wearable can intelligently adjust the heat generation based on the user’s preferences and the ambient environment. This feature enhances comfort and energy efficiency.

In summary, our smart wearable prototype represents a significant advancement in wearable technology. By combining BLE-based connectivity, advanced sensors, and intelligent control capabilities, this device offers a comprehensive solution for monitoring environmental and health parameters. Its potential applications extend to various fields, including healthcare, fitness, and environmental monitoring.