iipp publishingJournal of Applied Engineering Science

AUTOMATED PROCESS CONTROL SYSTEM OF MOBILE CRUSHING AND SCREENINg PLANT


DOI: 10.5937/jaes16-15586
This is an open access article distributed under the CC BY-NC-ND 4.0 terms and conditions. 
Creative Commons License

Volume 16 article 538 pages: 343 - 348

Andrey Ostroukh
Moscow Automobile and Road State Technical University (MADI), Moscow, Russian Federation

Nataliya Surkova
Moscow Automobile and Road State Technical University (MADI), Moscow, Russian Federation

Oleg Varlamov
Moscow Automobile and Road State Technical University (MADI), Moscow, Russian Federation
RI MIVAR, Moscow, Russian Federation
Bauman Moscow State Technical University (BMSTU), Moscow, Russian Federation

Valery Chernenky
Bauman Moscow State Technical University (BMSTU), Moscow, Russian Federation

Alexander Baldin
Bauman Moscow State Technical University (BMSTU), Moscow, Russian Federation


The article research the problem of automating the mobile crushing and screening plant as a complex multi-level system. The analysis of the characteristics of the technological equipment and individual aggregates of the mobile crushing and screening plant is performed. A software for automated cone crusher control system, that allows to integrate a set of interconnected technological units in the control of one hardware, controller and human-machine interface on the touch panel in the operator station. Proposed human-machine interface based on a set of technical, informational, mathematical and software tools for controlling the mobile cone crusher, which ensures efficient operation of the technological control object as a whole. In accordance with the proposed concept, a complex automated system should provide an optimal level of automation for information collection and processing to form control signals and transfer them without loss and distortion to actuators in order to achieve efficient operation of the technological line for the crushing and screening plant.

View article

Ostroukh, A.V. (2013). Systems of Artificial Intelligence in the Industry, the Robotics and the Transport Complex. Krasnoyarsk, RU: Publishing House Science and Innovation Center, Ltd.

Ostroukh, A.V. & Surkova N.E. (2015). Intelligence Information Systems and Technologies. Krasnoyarsk, RU: Publishing House Science and Innovation Center, Ltd.

Ostroukh, A.V. & Tian, Yu. (2014). Automated system for monitoring production-technological and organizational-economic activity of industrial enterprises. Instruments and Systems: Monitoring, Control, and Diagnostics, (3), 14-21.

Tian, Yu., Nguen, D.T., Chaudhary, R.R. & Ostroukh, A.V. (2014). Automated monitoring production - technological and organizational - economic activities of an industrial enterprise. Automation and Control in Technical Systems, 3(1.2), 16-31. DOI: 10.12731/2306-1561-2014-1-16.

Ostroukh, A.V. & Tian, Yu. (2013). Integration of monitoring system components. Young Scientist, 6(10), 182-185.

Ostroukh, A.V. & Tian, Yu. (2014). Development of the information and analytical monitoring system of technological processes of the automobile industry enterprise. In the World of Scientific Discoveries, Series B, 2(1), 92-102.

Ostroukh, A.V., Gimadetdinov, M.K. & Popov, V.P. (2015). Selection Process Equipment for Automated Crushing Plant. Automation and Control in Technical Systems, 4(2), 35-45. DOI: 10.12731/2306-1561-2015-2-4.

Gimadetdinov, M.K. & Ostroukh, A.V. (2014). List and Sequence of Solutions for Automated Crushing and Screening Production. Automation and Control in Technical Systems, 3(4), 55-61. DOI: 10.12731/2306-1561-2014-4-6.

Vorobeva, A.V., Ostroukh, A.V. Gimadetdinov, M.K., Wai Phyo Aung & Myo Lin Aung. (2015). Development of mathematical models and methods of optimal control of automated crushing and screening process. Industrial Automatic Control Systems and Controllers, (1), 9-16.

Ostroukh, A.V., Gimadetdinov, M.K., Borshch V.V. & Vorobeva, A.V. (2014). Development statistical modeling algorithm optimal control automated crushing and screening process. Industrial Automatic Control Systems and Controllers, (12), 3-10.

Gimadetdinov, M.K., Popov, V.P. & Ostroukh, A.V. (2015). Automation of Crushing and Screening Production with a Full Range of Technological Operations and Related Processes. Industrial Automatic Control Systems and Controllers, (9), 10-18.

Ostroukh, A.V., Vasiliev, Yu. E. & Kotlyarsky, E.V. (2015). Automated Control System Milling Unit for the Mineral Powders Plant. Industrial Automatic Control Systems and Controllers, (10), 3-10.

Ostroukh, A. V., Nedoseko, I. V., Surkova, N. E., & Bulatov, B. G. (2016). Automated Control System for the Milling Unit of Mineral Powders Plant. International Journal of Applied Engineering Research, 11(4), 2625-2628.

Ostroukh, A., Maksimychev, O., Nikolaev, A., Kolbasin, A., & Nedoseko, I. (2016). Development of automation of the drying and milling unit for the mineral powders plant. ARPN Journal of Engineering and Applied Sciences, 11(9), 5717-5721.

Salniy, A.G., Kukharenko, V.N., Nikolaev, A.B. & Ostroukh, A.V. (2013). General Principles of SCADA Design. Automation and Control in Technical Systems, 2(2), 8-12.

Varlamov, O.O. (2002). Evolutionary databases and knowledge for adaptive synthesis of intelligent systems. MIVAR Information Space. Moscow, RU: Radio and Communication, Ltd.

Varlamov, O.O. (2011). MIVAR: Transition from Productions to Bipartite Graphs MIVAR Nets and Practical Realization of Automated Constructor of Algorithms Handling More than Three Million Production Rules. https://arxiv.org/abs/1111.1321

Varlamov, O.O. (2015). Mivar Role and Place in Computer Sciences, Artificial Intelligence Systems and Informatics. Radio Industry, (3), 10-27.

Shadrin, S.S., Varlamov, O.O. & Ivanov, A.M. (2017). Experimental Autonomous Road Vehicle with Logical Artificial Intelligence. Journal of Advanced Transportation. DOI:10.1155/2017/2492765.