The current paper features the issue of the augmented reality technology application for instructing, training and knowledge testing of coalminers on safety precautions. In case of a change in the geomechanical situation or an emergency situation, this technology allows one to study the evacuation routes of mine workers, without going down the mine. The implemented software is integrated into the existing Geographic Information System (GIS), which makes it possible to create full-fledged industrial information systems. The paper mentions the advantages and disadvantages of traditional ways of providing security with the help of modern and advanced technologies aimed at risk minimization. It also describes the possibilities of using virtual reality technology and presents the results of a comparative analysis of existing virtual reality technologies. The article also features the implementation of the technology using the Google VR tools for the three-dimensional Unity3D environment and provides an example of its operation. Each mode of operation of the information system is described separately, providing guidance, training and control of processes to ensure the necessary safety level.
This article presents a conceptual modular architecture of a geoinformation system (GIS) for studying coal seams for the presence of discontinuities using seismic exploration methods. The proposed architecture consists of six functional modules, including the data collection module, spatial-attribute data storage module, data processing module, intelligent data processing module, visualization module, and metadata management module. Each module performs specific tasks, enabling efficient processing and analysis of seismic data to identify and characterize discontinuities in coal seams. The proposed GIS architecture serves as a powerful tool for scientists and geologists, providing more accurate and reliable research outcomes.
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