Abstract

Physical environmental factors, namely ecological, astronomical, tectonic, significantly affect it and create a burden on both nature in general and human communities in particular. Therefore, monitoring such impacts is critically important for their prediction in order to preserve human health and economic infrastructure. Due to this, the need for integrated information systems capable of appropriate monitoring and forecasting of critical events that affect the environment is growing. Combining physical, astronomical and tectonic parameters in a single information platform makes it possible to create a comprehensive approach to data analysis and visualization. The work is devoted to the development of an information system for dynamic monitoring of physical environmental factors, as well as factors of astronomical and tectonic origin. The main innovation of the work is the combination of these factors for display on web resources and the use of the haversine formula for analyzing geographic data, which increases the accuracy of calculations. The system integrates data from APIs (OpenUV, OpenWeatherMap, NASA, IRIS-WS, AirVisual), providing convenient access to information on ultraviolet radiation, temperature, humidity, atmospheric pressure, air quality, magnetic storms and earthquake amplitude. The developed web application is based on a modern technology stack (Java, Spring, Angular, PrimeNG), which ensures high performance and ease of use. The work analyzed existing information systems, justified the choice of technologies, implemented the system architecture, and tested its performance and reliability in a test environment. The results obtained indicate the prospects of combining physical, astronomical, and tectonic factors to create integrated information systems. This opens up new opportunities for improving environmental monitoring and preventing potential threats.