Development of Automatic Contact-Less Thermometer System Based on GPS And Population Density

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Karan Khajuria, Mohammed Hameeduddin Haqqani, V. S. Narayana Tinnaluri, Rasika Manoj Rewatkar, Manik T Shinde

Abstract

The GPS and Population Density based Automatic Contact-Less Thermometer System for Non-Intrusive Temperature Measurement in Varying Environment fulfills the need for accurate temperature sensing without contact across multiple domains. This system designs and uses Geographical Positioning System (GPS) for accurate location determination and Geofencing to ensure localized temperature control. Therefore, by using the population density factor to address this issue, the system can perform efficiently in the populous areas while guaranteeing adequate crowd control and health standards. The devices have evolved to encompass more innovative sensors and GPS modules where with the help of efficient data processing algorithms one could cycle through real-time results. This approach of thermal temperature mapping is quite useful given the complex and dynamic environment in the urban areas and in response to the responses to the public health crises, offering a flexible and efficient solution for temperature checking. The future works might include enhancing GPS accuracy and adding more health related parameters to the system making its usage diverse. This study establishes that there is possibility of integrating GPS technology with health monitoring systems so as to eradicate or control the spread of diseases and accidents.  

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