Ihor Slashchov , Anton Slashchov, Illya Siromaschenko, Volodymyr Kurinnyi, Maksym Ikonnikov. Development of digital technologies for the systems of remote mining safety monitoring

Details

Parent Category: Geo-Technical Mechanics, 2020

Category: Geo-Technical Mechanics, 2020, № 155

Geoteh. meh. 2020, 155, 133-143

https://doi.org/10.1051/e3sconf/202016800065

 

DEVELOPMENT OF DIGITAL TECHNOLOGIES FOR THE SYSTEMS OF REMOTE MINING SAFETY MONITORING

¹Ihor Slashchov , ¹Anton Slashchov, ²IllyaSiromaschenko, ³Volodymyr Kurinnyi, ³Maksym Ikonnikov

¹Institute of Geotechnical Mechanics named by N. Poljakov of National Academy of Sciences of Ukraine, ²Westphalian University of Applied Sciences, Westfälische Hochschule, ³National Technical University "Dnipro Polytechnic" of the Ministry of Education and Science of Ukraine

Language: English

Abstract. The article is devoted to development of methodology and digital technologies for assessing, forecasting and determining scenarios of geomechanical process evolution. A new digital technology is proposed for remote mining safety monitoring, which integrates a network personnel management system and expert subsystems for decision-making support taking into account geomechanical factors presenting risk of the mine roadway stability loss. Elements of the expert subsystems analyze data in real time, and are used to determine potential risks on basis of criteria and assessments of the production environment state in mines. It is proposed to identify the forecast safety indicators with the help of geomechanical models and by assessing scenarios of the "support-rocks" system stress-strain state evolution. In order the expert assessment of the rock massif and mine roadway stability, integral indicators of emergency potential risk for each geotechnical system elements are specified by values of informative parameters at a certain time point, as well as deviations rates of parameters from the equilibrium point over a period of time. Job safety is provided through the improved effectiveness of personnel interaction and its stricter disciplinary responsibility, as well as by making early decisions on keeping the mine roadways in a trouble-free condition.

REFERENCES

1. Bulat, A.F. and Slashchov, I.N. (2012), Development of computer systems mathematical modeling geomechanical processes. Geoteh. meh., 99, 16-27

2. О. Krukovskyi, V. Krukovska. Numerical simulation of the stress state of the layered gas-bearing rocks in the bottom of mine working. E3S Web of Conferences, International Conference Essays of Mining Science and Practice, 109 (2019). https://doi.org/10.1051/e3sconf/201910900043

3.  Pohlmann N., Sparenberg M., Siromaschenko I., Kilden K. (2014) Secure Communication and Digital Sovereignty in Europe. In: Reimer H., Pohlmann N., Schneider W. (eds) ISSE 2014 Securing Electronic Business Processes. Springer Vieweg, Wiesbaden. https://doi.org/10.1007/978-3-658-06708-3_12

4. Anciferov, A.V. [et al.] (2010). Heomekhanichnyy monitorynh pidzemnykh heotekhnichnykh system. Donetsk: Noulidzh

5. O. Voloshyn, O. Riabtsev. Some important aspects of rock mechanics and geomechanics. E3S Web of Conferences, International Conference Essays of Mining Science and Practice, 109 (2019). https://doi.org/10.1051/e3sconf/201910900114

6. Shevchenko, V.G., Slashchov, A.I. (2016). Validation of parameters and design of information system on the underground mining job safety with taking into account geomechanical factors. Geoteh. meh., 128, 70-78

7. Shulga, Yu.I., Zdanovskiy, V.G., Krivtsov, N.V., Ignatovich, N.V. (2010). Mines safety systems of Ukraine, their capabilities and prospects. Problemy okhorony pratsi v Ukrayini, 18, 3-11

8. Slashchov, I.N., Shevchenko, V.G., Slashchov, A.I. (2013). Optimized information system for on-line predicting of geomechanical process behavior and ensuring proper decision-making on the mine safety. Geoteh. meh., 112, 129-144

9. Derdin, O. (2009). The "UTAS" system is a presumption of non-alternativeism. Everything about labor protection, 10, 2-9

10. Shevchenko, V.G., Slashchov, A.I. (2018). Information systems for underground mining safety and productivity. Kiev: Naukova Dumka

11. V. Shevchenko, A. Slashchov. Justification of the basic algorithms of the mine safety information system. E3S Web of Conferences, International Conference Essays of Mining Science and Practice, 109 (2019).https://doi.org/10.1051/e3sconf/ 201910900086

12. A. Slashchov, O. Yalanskyi. Substantiation of fuzzy logic algorithms for control problems of a geotechnical systems. E3S Web of Conferences, International Conference Essays of Mining Science and Practice, 109 (2019). https://doi.org/10.1051/e3sconf/201910900091

13. Slashchov, I.M. (2019). Basic preconditions for development of mine safety systems by using production environment remote control methods. International independent scientific journal, 3(1), 40-48

14. Slashchov, I.M., Shevchenko, V.G, Kurinnyi, V.P., Slashchova, O.A., Yalanskyi, O.A. (2019). Forecast of potentially dangerous rock pressure manifestations in the mine roadways by using information technology and radiometric control methods. Mining of Mineral Deposits, 13(4), 9-17

15. NIST Special Publication 800-53A Revision 5. Security and Privacy Controls for Federal Information Systems and Organizations. National Institute of Standards and Technology (Retrieved July 24, 2019)

16. Amy DelPo, The Performance Appraisal Handbook: Legal & Practical Rules for Managers, NOLO: 2nd edition (2007)

17. Romanova, T.I., Vinichuk, T.G. (2008). Otsenka effektivnosti ispol'zovaniya trudovogo potentsiala i sistemy upravleniya personalom predpriyatiya. Tomsk: Tomsk State University of Architecture and Civil Engineering

18. Dave Ulrich, Measuring Human Resources: An Overview of Practice and a Prescription for Results, Human Resource Management, 36(4), 303-320 (1997)

19. David Parmenter, Key Performance Indicators (KPI) Fourth Edition: Developing, Implementing, and Using Winning KPIs, Wiley: 4 edition (2019). https://doi.org/10.1002/9781119620785

20. Solution Overview Cisco Unified Wireless Network, available at: https://www.cisco.com/c/en/us/ solutions/enterprise/design-zone-industry-solutions/index.html. (Accessed 7 January 2017)

21. Bulat, A.F., Slashchov, I.M., Slashchova, O.A. (2017), Evaluation methods of interconnected geomechanical and gas dynamic processes in the rock massif for the systems of working medium control in the mines, Geoteh. meh., 134, 3-21

22. Slashchov, A.I. (2016), Justification of the parameters of the information system assuring the underground mining safety, Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 1, 77–85

23. O. Slashchova, I. Slashchov, I. Sapunova. Specific solution of problem of water filtering in the rocks by the finite element method. E3S Web of Conferences, International Conference Essays of Mining Science and Practice, 109 (2019). https://doi.org/10.1051/e3sconf/201910900093

24. I. Slashchov. Estimation of fracture systems parameters in rock massif by the finite element method. E3S Web of Conferences, International Conference Essays of Mining Science and Practice, 109 (2019). https://doi.org/10.1051/e3sconf/201910900094

25. Slashchov, I.M. (2019), Stress-strain state of rock massif when using combined support systems in preparatory mine workings, Danish Scientific Journal, 22(1), 57-64

26. O. Slashchova. Water effect on the rocks and mine roadways stability. E3S Web of Conferences, International Conference Essays of Mining Science and Practice, 109 (2019). https://doi.org/10.1051/e3sconf/201910900092

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