Abstract
<jats:p>Formation of monolithic backfill structures based on salt waste consolidation represents an innovative geotechnology aimed at addressing environmental and technological challenges in the mining industry. A key component of this technology is a digital database that enables monitoring and optimization of the backfilling process parameters. The article presents a digital database that ensures integration with modelling systems and enables prediction of the backfill properties. It also includes tools for data visualization and statistical analysis. Efficient data management requires modern DBMS solutions with robust access security. Creation of a digital database of backfill parameters opens up opportunities for comprehensive monitoring of the consolidation processes, including selection of the particle size distribution of the mixture, control of physical and mechanical characteristics, and prediction of the backfill mass properties over time. Accounting for such parameters as density, moisture content, porosity, setting time, strength, and deformation modulus makes it possible to optimize technological processes and ensure the required operational characteristics of the backfill. Further technological development envisions integration with CAD and production management systems, enhancing process automation and precision. Implementing this system will optimize resource utilization, improve safety, and reduce environmental impact in mining regions.</jats:p>