Shaping geoinformation system for mine diagnostics

Authors: Alenichev V. M.

The implementation of a geoinformation system based on standards of interaction, expandability and openness of object-oriented data models will increase efficiency of computer technologies in justification of rational and integrated subsoil management. In modern conditions, the mine and geology monitoring is aimed at increasing the prediction ability of the geological model by interpreting additional geodata obtained during mining, operational (bottom-hole) testing, additional exploration, as well as using modern methods of transforming coordinate-linked values of samples at discrete points into the inter-well space using probabilistic and statistical research methods. This will be facilitated by the analysis of the influence exerted by the environmental factors on the current mining conditions and by the monitoring of changes in spatial and attribute features that characterize the geotechnical structure including a mineral deposit and waste accumulations (quarry, mine, dumps, tailings storage, etc.), which form a single system of elements that organically interact and change in time and space. A prerequisite for the formation of geodata to ensure sustainable development of mining and technological systems is the relevancy of the previously created bank of geodata and metadata. To create territorial (corporate) databases for the transmission of geological information, it is planned to arrange a unified national communication network. This will allow adaptation of information about geological resources to modern storage technologies and creation of user-friendly interfaces to facilitate the receipt of this information by subsurface users directly from Rosgeolfond and mine archives. The analysis of the nature of interaction of a mine with the external and internal environment necessitates continuous refinement and updating of geodata.

Keywords: geoinformation science, external and internal environment, GEODATA, updating, information support, structure, formation, diagnostics.
For citation:

Alenichev V. M. Shaping geoinformation system for mine diagnostics. MIAB. Mining Inf. Anal. Bull. 2021;(5—1):217—225. [In Russ]. DOI: 10.25018/0236_1493_2021_51_0_217.

Acknowledgements:
Issue number: 5
Year: 2021
Page number: 217-225
ISBN: 0236-1493
UDK: 622:[550.8:519.72]
DOI: 10.25018/0236_1493_2021_51_0_217
Article receipt date: 15.12.2020
Date of review receipt: 18.02.2021
Date of the editorial board′s decision on the article′s publishing: 10.04.2021
About authors:

Alenichev V. M., Dr. Sci. (Eng.), Professor, Chief Researcher, e-mail: alenichev@igduran.ru, Institute of Mining of the Ural Branch of the Russian Academy of Sciences, Ekaterinburg. Russia.

For contacts:
Bibliography:

1. Cherepanov V. V., Garanin K. V., Cheryakov I. A., Mandrik I. E. i dr. What expectations do you associate with the digitalization of subsurface use and what has already been done in this direction. Nedropol’zovanie XXI vek. 2018. no. 5 (75). pp. 4—11. [In Russ]

2. Alenichev V. M., Alenichev M. V. On the issue of forming GEODATA databases. Problemy nedropol’zovaniya. 2016. no. 1. pp. 12—18. [In Russ]

3. Lofgren, Karl-Gustav and Persson, Torsten and Weibull, Jorgen W., Markets with Asymmetric Information: The Contributions of George Akerlof, Michael Spence and Joseph Stiglitz. Scandinavian Journal of Economics, Vol. 104, pp. 195—211, 2002.

4. Carvalho, F. P. Mining industry and sustainable development: time for change. Food Energy Secur. 2017, 6, 61—77.

5. Gajos, M.; Sierka, E. GIS Technology in Environmental Protection: Research Directions Based on Literature Review. Pol. J. Environ. Stud. 2012, 21, 241—248.

6. D. Akerlof, M. Spence, J. Stiglitz: L’asymetrie au coeur de la nouvelle microeconomie. Problemes Econ. 2001. 2734. p. 1924.

7. Alenichev V. M., Kornilkov S. V., Suhanov V. I., Akoev M. A. Concept of creating reference and information systems of the mining complex. MIAB. Mining Inf. Anal. Bull. 2009. no. OV2. pp. 37—48. [In Russ]

8. Kornilkov S. V., Rybnikova L. S., Rybnikov P. A. The concept of GIS “Integrated development of natural and technogenic resources of the Urals”. Gornyj zhurnal. Izvestiya vuzov. 2013. no. 8. pp. 93—99. [In Russ]

9. Oy Leuangthong, K. Daniel Khan, Clayton V. Deutsch. Solved Problems in Geostatistics. Wiley, 2008. 208 p. [In Russ]

10. Antonov V. A., Alenichev V. M. About GEODATA monitoring and modeling of a productive layer of a gold-bearing placer. Markshejderiya i nedropol’zovanie. 2018. no. 3. pp. 56—59. [In Russ]

11. Shnurov I. V., Korovina T. A., Romanov E. A., Shimanskij V. V. Role of laboratory research in improving the reliability of geological information. Nedropol’zovanie XXI vek. 2018 no. 6 (76). pp. 176—186. [In Russ]

12. Nagovicyn O. V. Lukichev S. V. Modern state and prospects of development of mining and geological systems. MIAB. Mining Inf. Anal. Bull. Spec. vypusk 23. 2017. pp. 53—67. [In Russ]

13. Kochergin A. M. Cost universal criterion for assessing reserves in the construction of the modern national classification of reserves. Nedropol’zovanie XXI vek. 2015. no. 5 (55). pp. 146—155. [In Russ]

14. Moridi, Mohammad Ali, Youhei Kawamura, Mostafa Sharifzadeh, Emmanuel Knox Chanda, Markus Wagner, Hyongdoo Jang, Hirokazu Okawa. Development of Underground Mine Monitoring and Communication System Integrated ZigBee and GIS / International Journal of Mining Science and Technology. 2015, 25 (5). pp. 811—818.

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