Abstract
The complexity of solving the problem of preventing natural and man-made disasters during intensive nature management is associated with the multifactorial nature of the conditions and causes of catastrophic events, significant variations in the properties and state of geospheres, and the lack of reliable criteria and precursors of dangerous dynamic phenomena. The modern scientific approach to solving this problem consists in modeling processes that allow to adequately describe the state of changing natural and technical systems with subsequent verification of the results of theoretical research by instrumental methods. An even greater effect is brought by the combined use of natural and theoretical methods, united by a common ideology and maximally adapted to the conditions of the problem being solved, providing continuous multivariate monitoring of geophysical fields and processes in the geospheres. In this regard, it seems very urgent to set up research work aimed at the development of scientific and methodological foundations and technical means for assessing and monitoring hazardous geomechanical processes to reduce the risk of man-made disasters during the development of mineral deposits.
Highlights
The complexity of solving the problem of preventing natural and man-made disasters during intensive nature management is associated with the multifactorial nature of the conditions and causes of catastrophic events, significant variations in the properties and state of geospheres, and the lack of reliable criteria and precursors of dangerous dynamic phenomena.The modern scientific approach to solving this problem consists in modeling processes that allow to adequately describe the state of changing natural and technical systems with subsequent verification of the results of theoretical research by instrumental methods
At this time, specialized software systems present the results of seismoacoustic monitoring in tabular form or graphically
A feature of this program, developed at the Institute of Mining of the FEB RAS, is the display on the monitor of a 3D object of underground mine workings, created in the *.dwg or *.dxf format, and the sources of seismoacoustic events recorded by automated rock pressure monitoring system (ARPMS) Prognoz-ADS (Fig. 3)
Summary
The modern scientific approach to solving this problem consists in modeling processes that allow to adequately describe the state of changing natural and technical systems with subsequent verification of the results of theoretical research by instrumental methods. The study of the properties and state of natural and technical systems requires interdisciplinary research, implying the processing and joint analysis of various data, as well as work with instrumental observation networks, measuring systems, etc. This requires the development of effective algorithms, technologies and high-performance computer systems for working with heterogeneous sets of scientific data, which should provide a comprehensive solution to the problems of collecting, integrating and processing large amounts of information [5].
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