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ENVIRONMENTAL PROTECTION
Название Spatial data and technologies for geomonitoring of land use under aspect of mineral resource sector development
DOI 10.17580/em.2020.01.14
Автор Adero N. J., Drebenstedt C., Prokofeva E. N., Vostrikov A. V.
Информация об авторе

Freiberg University of Mining and Technology, Freiberg, Germany:

Adero N. J., PhD Research Student, Mine Planning & Surveying
Drebenstedt C., Professor, Doctor

 

National Research University Higher School of Economics, Moscow, Russia:
Prokofeva E. N., Associate Professor, Candidate of Engineering Sciences, eprokofyeva@hse.ru
Vostrikov A. V., Associate Professor, Candidate of Engineering Sciences

Реферат

The main efforts of modern geoecology focus on various aspects of monitoring the state of the natural environment within the sphere of anthropogenic impacts on raw materials complexes and on determining the irreversible level of adverse impacts and consequences of natural disasters in the absence of effective tools and systems for early forecasting and detection of hazards and environmental risks (erosion, oil spills, oil and gas leaks and contamination of surface and groundwater, landslides, collapses, subsidence, mining, fire, among others). As a result, even with the highest methodological and technical level of modern research, there remains trivial conclusion on the need to protect nature. This leaves open the main question of effective methods of nature protection and the necessary changes in technologies and methods of data management. The improvement of the methodological basis for the design of mining systems to achieve integrated development of subsoil is aimed at advancing the innovative energy and resource-saving geotechnologies, which ensure the required efficiency and safety of work, including early detection of potential hazards and risks. In this study, an integrated approach to the processing of remotely sensed data is being developed, which is envisaged to share the results of the measurements obtained in Russia and Kenya by various satellite-based technologies in both optical and radar bands.

The publication was prepared within the framework of the Academic Fund Program at the National Research University Higher School of Economics (HSE) in 2020 – 2021 (grant 4-033) and by the Russian Academic Excellence Project “5-100”.

Ключевые слова Mining industry, digital technologies, geoecology, geomonitoring, spatial data, geotechnology, subsoil use technologies, satellite images and aerial photographs, satellite data
Библиографический список

1. The Development Strategy of Information Technology Industry in the Russian Federation for 2014–2020, and the Prospect for 2025. Available at: http://government.ru/docs/8024/ (accessed: 20.11.2019).
2. Yeralin Z. M., Goncharenko S. N. Models for solving key problems of strategic development of uranium mines. GIAB. 2019. No. 4. pp. 199–208.
3. Prokofeva E. N., Vostrikov A. V., Shapovalenko G. N., Alvarez A. The development of effective geomonitoring for mining area with industrial review. Eurasian Mining. 2017. No. 2. pp. 61–63. DOI: 10.17580/em.2017.02.15
4. All about mining. Extractive industry Available at: http://industry-portal24.ru (accessed: 5.11.2019).
5. Zotov L., Frolova N., Shum C. Gravity Changes over Russian River Basins from GRACE, in: Planetary Exploration and Science: Recent Results and Advances. Berlin: Birkhauser/Springer, 2015.
6. Aleskerov F. T., Karabekyan D., Ivanov A., Yakuba V. I. Individual manipulability of majoritarian rules for one-dimensional preferences. Procedia Computer Science. Vol. 139: 6th International Conference on Information Technology and Quantitative Management. Elsevier, 2018. pp. 212-220.
7. Vasin S., Gamidullaeva L., Shkarupeta E., Finogeev A., Palatkin I., Vasina T. Emerging trends and opportunities for industry 4.0 development in Russia. European Research Studies Journal. 2018.Vol. XXI, Iss. 3. pp. 63–76.
8. Tolstykh T., Shkarupeta E., Shishkin I., Dudareva O., Golub N. Evaluation of the digitalization potential of region’s economy. Advances in Intelligent Systems and Computing. 2018. Vol. 622. pp. 736–743.
9. Goncharenko S. N., Duong L. B., Petrov M. V., Stoyanova I. A. Modeling of parameters of innovation water-protection measures on the basis of industrial-technological indices of coal mining at Vietnam enterprises. Gornyi Zhurnal. 2014. No. 9. pp.143–146.
10. Gaydin A. M. From Geotechnology to geoesthetic. Gornyi Zhurnal. 2009. No. 4. pp. 72–76.
11. Ilin S. A., Kovalenko V. S., Pastikhin D. V The overcoming of the open cut mining initial disadvantages: experience and results. Gornyi Zhurnal. 2012. No. 4. pp. 25–32.
12. Ganitskiy V. I., Dayanits D. G., Vorobyev A. G., Eyrikh V. I. About development of innovation activity and its staffing in the mining industry. Gornyi Zhurnal. 2011. No. 12. pp.27–30.
13. Aleskerov F., Ivanov A., Karabekyan D., Yakuba V. Manipulability of Aggregation Procedures in Impartial Anonymous Culture. Procedia Computer Science. 2015. Vol. 55. pp. 1250–1257.
14. Vartanov A. Z., Petrov I. V., Kobyakov A. A., Romanov S. M., Fedash A. V. Ecological and economic aspects of the transition of the mining enterprises on the principles of best available technologies. GIAB. 2015. No. 1. pp. 511–521.
15. Goncharenko S. N., Kobyakov A. A., Petrov I. V., Stoyanova I. A. Economic-mathematical modeling of the distribution of the value of the cost of the preservation and restoration of the environment in the areas of mass closure of coal mines. Ecological and economic problems of the mining industry and development of fuel and energy complex of Russia : Preprint. Moscow : Gornaya kniga, 2012. pp. 20–25.
16. Adero N. J., Kiema J. B. K. Flow-based structural modelling and dynamic simulation of lake water levels. Book Chapter. Handbook of Research on Hydroinformatics: Technologies, Theories and Applications. 2010. pp. 316–331.
17. Hartlieb P., Grafe B., Shepel T., Malovyk A., Akbari B. Experimental study on artificially induced crack patterns and their consequences on mechanical excavation processes. International Journal of Rock Mechanics and Mining Sciences. 2017. Vol. 100. pp. 160–169.
18. Shepel T., Grafe B., Hartlieb P., Drebenstedt C., Malovyk A. Evaluation of cutting forces in granite treated with microwaves on the basis of multiple linear regression analysis. International Journal of Rock Mechanics and Mining Sciences. 2018. Vol. 107. pp. 69–74.
19. Abbaspour H., Drebenstedt C., Paricheh M., Ritter R. Optimum location and relocation plan of semi-mobile in-pit crushing and conveying systems in open-pit mines by transportation problem. International Journal of Mining, Reclamation and Environment. 2019. Vol. 33(5). pp. 297–317.
20. Kaplunov D. R., Ryl'nikova M. V., Radchenko D. N. Utilization of renewable energy sources in hard mineral mining. Journal of Mining Science. 2015. No. 1. pp. 111–117.
21. Temkin I., Deryabin S., Konov I.: Soft computing models in an intelligent open-pit mines transport control system. Procedia Computer Science. 2017. pp. 411–416.
22. Temkin I. O., Do Chi Thanh, Agabubaev A. T. Some algorithms of functioning analytical platform in the control system of ventilation methane abundant mine. GIAB. 2018. No. S16. pp. 3–15.

23. Temkin I. O., Klebanov D. A., Deryabin S. A., Konov I. S. Method of determining the state of the haul road career in the management of the interaction between robotic elements of the mining transportation complex. Mining journal. 2018. No.1. pp. 78– 82.
24. Prokofeva E. N., Vostrikov A. V., Fernandez E., Borisov N. Navigation satellite systems as the audit foundation for mining companies. Eurasian Mining. 2017. No. 1. P. 30-32. DOI: 10.17580/em.2017.01.08
25. Satellite monitoring and geospatial solutions Available at: https://sovzond.ru/ (accessed: 21.11.2019).
26. Planet Labs Inc. Planet Imagery Product Specifications, August 2019. Available at: https://planet.com (accessed: 30.08.2019).
27. Digital Earth Africa (2019). Open Data Cubes. Available at: https://www.digitalearthafrica.org/. (accessed: 15.11.2019).
28. 2019 Kenya National Housing and Population Census: Vol. I: Population by County and Sub-County. Kenya National Bureau of Statistics – KNBS. Nairobi, 2019.
29. Reich C., Schatz M., Zsak G. World Mining Data 2018. Vol. 33: Iron and Ferro Alloy Metals Non-ferrous Metals, Precious Metals, Industrial Minerals, Mineral Fuels. Vienna: Federal Ministry of Sustainability and Tourism, 2018.
30. Adero N. J. Redressing the nexus of human rights and mining in Kenya using geospatial models. Book of Abstracts of the BHT 2018: Future Materials – Safe Resources Supply – Circular Economy and the 3rd Interdisciplinary Colloquium and PhD Conference on the Social Responsibility of Science and Scientists. Freiberg, Germany, 6–7 June, 2018. pp. 12–13.
31. Trubetskoy K. N., Galchenko Yu. P. Geoecology of Subsoil Development and EcoGeotechnologies of Mineral Mining. Moscow: Nauchtekhlitizdat, 2015.
32. Rylnikova M. V., Galchenko Yu. P. Renewable Sources of Energy in Integrated Subsoil Development. Moscow : IPKON RAS, 2015.
33. Trubetskoy K. N., Galchenko Yu. P., Eremenko V. A. Fundamentals of converging mining technologies in integrated development of mineral resources of lithosphere. IOP Conference Series: Earth and Environmental Science. 2018. Vol. 134(1). 012064.
34. Rylnikova M., Ainbinder I., Radchenko D. Role of Safety Justification of Mining Development for the Regulatory Framework Formation and Mineral Resources Management. E3S Web of Conferences. 2018. Vol. 41. 01033. DOI: 10.1051/e3sconf/20184101033
35. Kolosov V., Medvedev A., Zotova M. Comparing the development of border regions with the use of GIS (the case of Russia). Geographia Polonica. 2018. Vol. 91, No. 1. pp. 47–61.

Полный текст статьи Spatial data and technologies for geomonitoring of land use under aspect of mineral resource sector development
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