A.U. Kalizhanova^1,2, A.U. Utegenova^1,2, S.Zh. Daruish^1,2, S.L. Tikhomirov^1,2, M.A. Vorogushina^1,2, Z.M. Rakhimzhanova^1,2 and Zh.N. Zhaksybayeva³, ¹NAO "Almaty University of Power Engineering and Telecommunications, Kazakhstan, ²Institute of Information and Computational Technologies, Kazakhstan, ³Nazarbayev University, Kazakhstan

The study is dedicated to the development of a geoinformation system for the environmental passportization of rocket booster drop zones. It examines the principles of designing a modular system architecture, which includes basic data processing modules and functional monitoring modules. The implementation features of modules for data loading, unloading, and exchange, enabling the integration of various information sources, are analyzed. The functional capabilities of monitoring modules designed to handle data on natural and climatic conditions, pollution sources, and contamination levels in the territories are described. The results of the system implementation are presented, demonstrating the effectiveness of the proposed solutions in geospatial data management and environmental monitoring organization. The developed system lays the foundation for a comprehensive assessment of the environmental condition of territories affected by rocket and space activities.

Geoinformation System, Environmental Passportization, Modular Architecture, Environmental Monitoring, Adaptive Data Representation