ABSTRACT
The world is currently facing a pandemic attack of Coronovirus disease (COVID-19), which is an infectious disease causing mild to moderate respiratory illness. One of the most common and early symptoms of COVID-19 is fever which is the reaction to a disease-specific stimulus causing the increase of the human body temperature. To slow down the transmission of the COVID-19 virus, the public is required have their body temperature measured when entering any premises. The current common method of monitoring the human body temperature uses the application of non-contact infrared thermometer (NCIT) and is only limited for stationary conditions within short distances and mostly suitable for indoor premises. The available technology to detect human body temperature for longer distances uses the thermal camera which is costly and large. Thus, it is challenging to detect anyone with high body temperature is non-stationary conditions, at longer distances, especially outdoor. The project proposes an innovation to the current practice, for a wearable noncontact temperature detector device which is portable. The wearable non-contact temperature detector embeds a thermal sensor and a microcontroller to a normal hat. It is able to detect objects with higher temperature (37.5°C) within 1 meter radius of 60° angle view in stationary and non-stationary conditions. The wearable device communicates via Bluetooth to a mobile device to display the detected temperature and notifies the user via alert message and alarm for high temperature detection. Display of the object's thermal image is also available with a resolution of 8 times 8 pixel. The wearable non-contact temperature detector is able to achieve 99% accuracy of temperature measurement for detection distance of up to 70 cm for indoor and within 20 cm for outdoor when tested with normal temperature subject and high temperature object and compared with the actual temperature detected via a commercial NCIT device. © 2021 IEEE.