SUBSYSTEM FOR MONITORING ATMOSPHERIC AIR QUALITY IN THE CYBER-PHYSICAL SYSTEM "SMART CITY"
DOI:
https://doi.org/10.31891/csit-2024-1-2Keywords:
cyber-physical system "Smart City", atmospheric air parameters, air quality monitoring, air humidity sensor, air temperature sensor, air dust content sensor, including particles PM2.5, PM10, air radiation background sensor, sensor for air pollution level by nitrogen oxides, sensor for air pollution level by sulfur, sensor for air pollution level by carbon compounds, sensor for air pollution level by greenhouse gases CO, CO2, NH3, NOAbstract
The task of designing and developing a cyber-physical system "Smart City" is currently relevant for Ukraine. This study is devoted to the development of a method and subsystem for monitoring atmospheric air quality in the cyber-physical system "Smart City".
The article develops a method for monitoring atmospheric air quality, which forms the basis for effective monitoring of atmospheric air quality in the cyber-physical system "Smart City" and allows making informed decisions on warning residents about the danger with recommendations for protecting their health.
The developed subsystem for monitoring atmospheric air quality in the cyber-physical system “Smart City” collects data from the installed sensors of air humidity, air temperature, dust content in the air, air radiation background, air pollution level by nitrogen oxides, air pollution level by sulfur, air pollution level by carbon compounds, air pollution level by greenhouse gases CO, CO2, NH3, NO, PM2. 5, PM10, real-time transmission of the collected data to the data processing server, real-time processing and analysis of the received data using various analytical methods, visualization of the air quality monitoring results in the form of a city map with n districts displaying all air parameters. The user can select the air parameters of interest in the mobile application of the cyber-physical system. After selecting such parameters, the visualization of the air quality monitoring results is adapted to the user's needs: the measured value of the parameter selected by the user is displayed on the image of the district on the city map, and the mobile application displays a sound signal in the background and a flashing sign on the image of the district on the city map in the application, which signals a danger in this area of the city; clicking on this sign displays a notification on the screen about the indicator for which there is a danger and recommendations for protecting the health of residents in this case.