Журналы →  Eurasian Mining →  2019 →  №1 →  Назад

TRAINING OF PERSONNEL
Название The building of effective systems of training and development for mining engineers with the basis of digital technologies
DOI 10.17580/em.2019.01.12
Автор Alvarez A., Fernandez E., Prokofeva E. N., Vostrikov A. V.
Информация об авторе

The University of Oviedo, Oviedo, Spain:

Alvarez A., Manager, PhD
Fernandez E., Professor, PhD

 

National Research University Higher School of Economics, Moscow, Russia:
Prokofeva E. N., Associate Professor, Candidate of Engineering Sciences, kotvasya2@mail.ru, eprokofyeva@hse.ru
Vostrikov A. V., Associate Professor, Candidate of Engineering Sciences

Реферат

The complexity of modern technology and the increase in the number of functions performed by the required equipment in the processing of large amounts of data, puts, especially given the conditions of import substitution, the problem of ensuring the quality and efficiency of engineering works in various directions. In addition, among other industries in the mining industry, the quality of computer technology depends not only on indirect statistical quantitative analysis, but also on the management of safety systems and, hence, people’s lives. The concept of the main directions of the state policy in the sphere of education for 2016-2020, based on the world standards of training of CDIO engineers, creates a favorable environment for the organization of training of competent competitive specialists of a certain engineering profile for the growth of competitiveness of the mining and mining industry of the Russian Federation in the world market, obtaining key economic results and achievements. The improvement of educational methods and tools for training and advanced training of mining engineers in the current period is based on the active implementation of the Standard of global engineering education, which forms a complex environment where trained engineers must be able to “Think-Design-Implement” and “Manage” systems in a team interaction for maximum synergetic effect. On the basis of a number of national universities of the 5-100 program, an open space of engineering education is being created, which involves the formation of an innovative environment and infrastructure based on modern technology (including super-computers), engineering and digital components in the framework of educational and research processes of training in-demand specialists. The implementation of the digital approach and design principles in specialized engineering education is aimed at the formation of key research skills, conducting virtual experiments in cooperation and collaboration with colleagues and experts [1-7]. Accordingly, the development of new geographic information methods of spatial data analysis in digital project engineering training is an important task in view of the current challenges of the information society and the economy.

Ключевые слова Project-based learning, mining industry, digital technologies, blended learning, geoinformatics
Библиографический список

1. Forecast of scientific and technological development of the Russian Federation for the period until 2030 (approved. The government of the Russian Federation on 3 January 2014). Available at: http://www.garant.ru/products/ipo/prime/doc/70484380/#ixzz4aP1zXHhy (accessed: 26.02.2019).
2. 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: 27.03.19).
3. Yeralin Z. M., Goncharenko S. N. Models for solving key problems of strategic development of uranium mines. GIAB. 2019. No. 4. pp. 199–208.
4. Belov A. A., Andrianova O. G.4. Anisotropy-based Analysis for Descriptor Systems with Norm-Bounded Parametric Uncertainties. Proceedings of 2016 International Conference “Stability and Oscillations of Nonlinear Control Systems (Pyatnitskiy’s Conference). IEEE, 2016. pp.1–4.
5. 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
6. All about mining. Extractive industry. Available at: http://industry-portal24.ru (accessed: 5.04.2019).
7. 12 solutions for new education. Expert report. Available at: https://www.hse.ru/news/expertise/217884372.html (accessed: 27.03.2019).
8. The development of design education in engineering departments. Available at: https://miem.hse.ru/project_office/project_list (accessed: 17.03.2019).
9. Zotov L. V., Shum C. K., Frolova N. L. Gravity Changes over Russian River Basins from Grace. Planetary Exploration and Science: Recent Results and Advances. Springer, 2015. pp. 45–59.
10. Artamonov S. Nonperiodic Modulus of Smoothness Corresponding to the Riesz Derivative. Mathematical notes. 2016. Vol. 99, No. 6. pp. 928–931.
11. Aleskerov F. T., Karabekyan D., Ivanov A., Yakuba V. I. Individual manipulability of majoritarian rules for one-dimensional preferences. Procedia Computer Science. 2018. Vol. 139. pp. 212–220.
12. Vasin S., Gamidullaeva L., Shkarupeta E., Finogeev A., Palatkin I. 2018 Emerging trends and opportunities for Industry 4.0 development in Russia. European Research Studies Journal. 2018. Vol. 21(3). pp. 63–76.
13. Tolstykh T O., Shkarupeta E. V., Shishkin I. A., Dudareva O. V., Golub N. N. Evaluation of the digitalization potential of region’s economy. HOSMC 2017: The Impact of Information on Modern Humans. AISC, 2018. Vol. 622. pp. 736–743.
14. 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.
15. Potekhin I., Mischenko V., Mottaeva A., Zheltenkov A. Evaluation of possibility to increasing sustainability of highrise buildings through use university intellectual property. E3S Web of Conferences. 2018. 03020. DOI: 10.1051/e3sconf/20183303020
16. Gaydin A. M. From Geotechnology to geoesthetic. Gornyi Zhurnal. 2009. No. 4. pp. 72–76.
17. 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.
18. Mineral Commodity Summaries 2016, United States Geological Survey. 202 p. Available at: https://minerals.usgs.gov/minerals/pubs/mcs/2016/mcs2016.pdf (accessed: 10.03.2019).
19. A Report on the State of the Canadian Mining Industry. Factsand-Figures-2016. 119 p. Available at: http://mining.ca/sites/default/files/documents/Facts-and-Figures-2016.pdf (accessed: 09.03.2019).
20. Ludden J. BGS and the Comprehensive Spending Review 2015. Available at: http://britgeosurvey.blogspot.ru/2015/12/bgs-and-comprehensive-spending-review.html (accessed: 17.03.2019).
21. Fernández S., Fernández J. E., Álvarez A. Assessment of quality assurance models University institutional evaluation and academic achievement. Implementing and Using Quality Assurance: Strategy and Practice. A Selection of Papers from the 2nd European Quality Assurance Forum. 15–17 November 2007, Hosted by Sapienza Università di Roma, Italy. European University Association, 2007. pp. 60–67.
22. 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.
23. 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.
24. 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.
25. 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. Mocsow : Gornaya kniga, 2012. pp. 20–25.
26. 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.
27. Korinek, J., Ramdoo I. Local content policies in mineralexporting countries, OECD Trade Policy Papers, 2017. No. 209. 27. DOI: 10.1787/4b9b2617-en
28. Mining Digital Report 2017. PwC School of Mines. Available at: http://www.pwc.com (accessed: 09.03.2019).
29. Mining for efficiency reports. PwC School of Mines. Available at: http://www.pwc.com (accessed: 01.04.2019).
30. Temkin I. O., Deryabin S. A, Konov I. Soft computing models in an intelligent open-pit mines transport control system. Procedia Computer Science. Elsevier, 2017. Vol. 120. pp. 411–416.
31. 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.
32. Temkin I. O., Klebanov D. A., Deryabin S. A., Konov I. S. Haul road condition determination under controlled interaction of robotic elements in open pit mining and transport system. Gornyi Zhurnal. 2018. No. 1. рр. 78–92. DOI: 10.17580/gzh.2018.01.14
33. Konik P. V., Prokofeva E. N., Vostrikov A.V., Goncharenko S. N. Prospects for the development of engineering projects and digital learning technologies. Step into the future: artificial intelligence and digital economy. Revolution in management: a new digital economy or a new world of machines : Proceedings of the II International scientific forum. Moscow : Publishing house GUU, 2018. Iss. 3. pp. 463–466.
34. 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. pp. 30–32. DOI: 10.17580/em.2017.01.08

Полный текст статьи The building of effective systems of training and development for mining engineers with the basis of digital technologies
Назад