SIMULATION OF SAFETY MINING OPERATIONS CONTROL WITH THE HELP OF VISUAL MONITORING OF THE TUNNEL AND EQUIPMENT STATE

UDC 622.232.72.001.57:658.386

Shevchenko V.G., D.Sc. (Tech.), Senior Researcher (IGTM NAS of Ukraine)

Zaitsev M.S. (IGTM NAS of Ukraine)

Abstract. To ensure safety functioning of a production control system in the mines, a method and device are proposed for on-line monitoring of tunnel and equipment state in the mines, usage of which can significantly facilitate solving of many critical  mining problems. The individual augmented-reality device provides continuous, real time monitoring of safety of both production processes and miners. The individual augmented-reality device is a basic element in total informational augmented-reality complex of the mine. The complex records and analyzes state of tunnels and monitors functioning of various systems including mechanisms, pipelines and gas pipelines and the most critical sectors of production process. To analyze effectiveness of the on-line visual monitoring of various mining sites in total production control system of the mines, a functional scheme was created in order to monitor a system "foreman (coordinating manager) - miners - on-line monitoring devices of tunnel and equipment state", and transfer functions were defined for the subsystems, principal dynamic links and control system as a whole. A concrete case is presented which demonstrates significantly improved stability, performance rate, accuracy, and, consequently, reliability and safety of the control system thanks to use of the on-line visual monitoring devices.

Keywords: safe management of the mining process, the means of operative visual control, the state mining facilities at the mines, functional scheme, simulation.

References:

1. Besekersky, V.A. and Popov, E.P. (2004), The theory of automatic control systems, Business, St. Petersburg, Russia.

2. Sectoral program for improving safety, health and working environment for enterprises TAC for 2007-2011 (2012), available at: http://mpe.kmu.gov.ua/fuel/doccatalog/document?id=106168 (Accessed 15 July 2013).

3. VBN V.2.5-78.11.01-2003 "Engineering equipment of buildings and structures. Alarm systems guard" (MIA of Ukraine) (2003), available at: http://normativ.com.ua/types/tdoc796.php (Accessed 15 July 2013).

4. "The procedure of investigation and registration of accidents, occupational diseases accidents at work" approved by the Cabinet of Ministers of Ukraine of 30 November 2011 N 1232 (2011), available at: http://zakon2.rada.gov.ua/laws/show/1232-2011v (Accessed 15 July 2013).

5. Igor Oskolkov, (2011), Reality: virtual, augmented and neck - CHIP UA Online, available at:  http://www.chip.ua/stati/go-digital/2011/03/realnosti-virtualnaya-dopolnennaya-i-suzhennaya (Accessed 19 July 2013).

6. Perepelitsa, V.G., Zaitsev, M.S., Dyakun, R.A. and Svetlichniy, V.N. (2010), “Study the dynamics of the deformation of the sample beam bending using visual methods of downhole control (VDC)”, Geotekhnicheskaya Mekhanika [Geo-Technical Mechanics], vol. 89, pp. 203-210.

7. Shevchenko, V.G., Kiyashko, U.I. and Zaitsev, M.S. (2012), “To the development of devices and information systems overlays virtual reality for uranium mine”, Geotekhnicheskaya Mekhanika [Geo-Technical Mechanics], vol. 107, pp. 41-51.

8. Dushkov, B.A., Lomov, B.F. and Rubakhin, V.Yu. (1986), Fundamentals of Engineering Psychology , High. School, Moscow, Russia.

9. Smilyanskii, G.L., (ed) (1983), Spravochnik proectirovshchika [Reference designer PCS],  Mechanical Engineering, Moscow, Russia.

10. Zaitsev, G.F. (1975), The theory of automatic control, Visha School, Kiev, Ukraine.

11. Rotach, V.J. (2005) “On the calculation of the optimal PID controller parameters according to expert criteria” Industrial process control, and controllers, vol. 11, pp. 5-9.

12. Netushil, A.V. (ed)  (1976),  Teoria avtomaticheskogo upravlenia [Automatic Control Theory], High. School, Moscow, Russia.

13. Solomentsev, Y.M. (ed) (2000) Teoria avtomaticheskogo upravlenia [Automatic Control Theory] / High. School, Moscow, Russia.

About the authors:

Shevchenko Vladimir Georgievich, Doctor of Technical Sciences (D. Sc), Senior Researcher, Scientific Secretary of the Institute, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine (IGTM, NASU), Dnepropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .

Zaitsev Maxim Stanislavovich, Junior Researcher at the Department of Elastomeric Component Mechanics in Mining Machines, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine (IGTM, NASU), Dnepropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .

 

Attachments:
FileDescriptionFile size
Download this file (23.pdf)23.pdfSIMULATION OF SAFETY MINING OPERATIONS CONTROL WITH THE HELP OF VISUAL MONITORING OF THE TUNNEL AND EQUIPMENT STATE593 kB