Industry specialists from the Scientific Institute TomskNIPIneft and the company SIBINTEK, a subsidiary of Rosneft, have collaborated to create a specialized geographic information software suite designed to streamline the design, construction, and ongoing maintenance of oil and gas infrastructure. This partnership emphasizes the strategic use of advanced geospatial technologies to support complex industrial projects in both North America and beyond, with a focus on reliability, scalability, and local compliance.
The core offering, a multifunctional digital platform named the Central Geographic Information System, aggregates a comprehensive array of data layers. It provides terrain maps, precise topographic plans, and up-to-date satellite imagery, while also cataloging protected natural areas and the historical record of engineering investigations. The system stores critical parameters for oil and gas pipelines and includes tools to assess the reach of communication networks. This broad data fusion supports engineers, project managers, and field teams in planning, risk assessment, and operational decision-making.
The software is designed for enterprise IT ecosystems and supports import substitution technologies to ensure robust performance in environments where supplier diversification and long-term maintenance are important considerations. This alignment with modern IT practices helps organizations maintain continuity and security across critical infrastructure projects while complying with regional data governance requirements.
The system features a dedicated Geotechnical Control module that ingests thermometric readings, geodetic measurements, hydrogeological data, and thermal imaging outputs collected from ground-based sensor networks. By applying neural network algorithms to these datasets, the module models soil and foundation temperature dynamics. This enables engineers to calculate allowable loads on foundations with greater accuracy, supporting safer, more efficient design and ongoing structural integrity assessments. The ability to forecast thermal impacts informs construction schedules, material choices, and maintenance planning.
Additional modules provide specialized capabilities such as quarry registration, tracking of breeding or conservation objects, and a comprehensive land information system. Access to these tools is streamlined through a 3D visualization module that presents subsurface deposits and geological formations in an intuitive, immersive format. The integrated 3D view supports scenario analysis, permitting users to explore excavation plans, land use implications, and environmental considerations in a cohesive, interactive environment.