| ArticleName |
Применение новых технологий для маркшейдерского обеспечения горных работ |
| ArticleAuthorData |
АО «Лебединский ГОК», Губкин, Россия:
Соколов А. К., главный маркшейдер, sokolov_a_k@lebgok.ru
Монаков В. Н., начальник геолого-маркшейдерского управления
Ерёмин С. В., главный маркшейдер геолого-маркшейдерского управления
Дробышева В. Н., начальник маркшейдерской службы управления технического контроля |
| Abstract |
Освещены основные задачи маркшейдерского и геодезического обеспечения горнорудного производства в АО «Лебединский ГОК», структура маркшейдерской службы, ее современное техническое оснащение и инновационные технологии производства работ на основе геоинформационных систем. |
| References |
1. Galperin A. M., Zaytsev V. S. Geology: tutorial for universities. Moscow : Gornaya kniga, 2009. Part IV. Engineering geology. 559 p.
2. Melnik V. B. Implementation of MineScape Mining and Geological Information System project in Apatit JSC mines. Gornyi Zhurnal. 2014. No. 10. pp. 79–84.
3. Mukhamedgaliev A. F., Imansakipova B. B., Baygurin Zh. D., Ivo Milev. Radar interferometry for monitoring ground subsidence. Gornyi Zhurnal. 2015. No. 4. pp. 76–81.
4. Isachenko A. O., Mikhalevich D. S. Background and development of e-archiving of geological surveying documentation. Gornyi Zhurnal. 2015. No. 2. pp. 76-80. DOI: 10.17580/gzh.2015.02.15
5. Litvinova A. A. The automated assessment of particle size distribution of the blown-up mountain mass at perfection of geological and surveying providing of technology of open mining works. Marksheyderskiy vestnik. 2016. No. 2. pp. 18–22.
6. Koli N., Raykh U. Monitoring in real time of stability of boards of fi nal borders of the pit by means of advanced radar technology. Marksheyderskiy vestnik. 2016. No. 2. pp. 31–35.
7. Golovanov V. A. Problems of metrological control in the conduct of surveying work. Marksheyderskiy vestnik. 2016. No. 3. pp. 19–21.
8. Gospodinova V. Digital images interpretation to obtain thematic information in mining using remote sensing system. Marksheyderskiy vestnik. 2016. No. 3. pp. 46–50.
9. Rakhatkulov D. Kh., Vystrchiya M. G. Mine surveying pit mining using lidar systems. Marksheyderskiy vestnik. 2016. No. 4. pp. 23–35.
10. Shadrin A. G. Calculation and construction of zone of dangerous deformations at working mine on deep horizons. Marksheyderskiy vestnik. 2016. No. 4. pp. 37–39.
11. Mustafin M. G., Beregovoy D. V. Construction of open pit model on the basis of survey from air drones. Marksheyderskiy vestnik. 2016. No. 6. pp. 25–29.
12. Software RiSCAN PRO. RIEGL. Available at: http://www.riegl.ru/riscanpro.html (accessed: 10.02.2017).
13. Surveying in the Mining Sector. An Overview of Geospatial Methods in Mining Engineering. GIM International. 2017. Available at: https://www.gim-international.com/content/article/surveying-inthe-mining-sector (accessed: 15.02.2017).
14. Gao J., Liu Ch., Wang J., Li Z., Meng X. A new method for mining deformation monitoring with GPS-RTK. Transactions on Nonferrous Metals Society of China. 2011. Vol. 21. pp. 659–664.
15. Chen G., Cheng X., Chen W., Li X., Chen L. GPS-based slope monitoring systems and their applications in transition mining from open-pit to underground. International Journal of Mining and Mineral Engineering. 2014. Vol. 5, No 2. pp. 152–163. |
Применение новых технологий для маркшейдерского обеспечения горных работ
