Designing a system for conducting geo-economic monitoring at the regional level using an ontograph model
Abstract Within the framework of monitoring the economic indicators of deposits of solid minerals and groundwater (geo-economic monitoring) at the regional level, an urgent task is to preserve both the ecological balance of the territory and, uniform and economically rational subsurface use. It should be noted that at present the issue of rational development of deposits is closely related to the issues of reproduction of mineral resources. This connection requires not only methodological, but also programmatic and analytical justification. The essence of the latter is to develop long-term and medium-term programs of geological exploration of the subsurface, aimed at the preservation and reproduction of mineral raw materials. In order to form programs, it is necessary to support analytically the need for measures to conserve mineral resources. Ultimately, to analyze the need for measures for the reproduction of mineral resources, an information storage system based on the principle of a multidimensional data management system is required. Such systems are currently being developed on the basis of ontology, in turn, the ontological graph reflecting relationships of finite elements will be considered as an ontograph model. The purpose of this work is to design a system for conducting geo-economic monitoring at the regional level through an ontological approach. As a result, it is necessary to build a model reflectingthe relationship between geological and economic indicators.
Keywords: geo-economic monitoring, regional economy, subsurface use, ontograph
Highlights:
♦ to build an ontological model, it is necessary to use blocks for geological objects and industrial raw materials points containing a miningfacility and a miningfacility;
♦ in order to perform calculations using the expert method, we propose to form an analytical model of fuzzy logic, which will aggregate expert estimates entered into the ontological model and perform the corresponding calculation;
♦ the estimates obtained made it possible to rank the subsurface areas in the territory of the Bryansk region according to their prospects in terms of the possibility of their industrial development with the currently available technical means and work technologies.
Valery S. Dadykin, Natalya V. Podobay, Vyacheslav V. Burago - Bryansk State Technical University, Bryansk, Russia