The article is devoted to the analysis of the current state of the issue of managing
multi-stage processes and trends in the development of their effectiveness. Simplify system
management of the entire system. Particular attention is paid to improving the reliability and
efficiency of production, improving the quality of all products, more efficient use of existing
capacities, the speedy implementation of the achievements of modern science and technology,
further improvement of methods and means of control, systematic study of the organizational
and functional structure of MSP, which makes it possible to identify a number of general
provisions arising from the specifics of MSP that must be observed at all stages of the
development and implementation of IACS, which determines the relevance of developing
methods for solving modeling problems and flexible control algorithms for MSP of discretecontinuous and continuous types, methods focused on the development of human-machine
control systems with mathematical models operating in interactive modes, systems that increase
the efficiency of production in general.
The article is devoted to the analysis of the current state of the issue of managing
multi-stage processes and trends in the development of their effectiveness. Simplify system
management of the entire system. Particular attention is paid to improving the reliability and
efficiency of production, improving the quality of all products, more efficient use of existing
capacities, the speedy implementation of the achievements of modern science and technology,
further improvement of methods and means of control, systematic study of the organizational
and functional structure of MSP, which makes it possible to identify a number of general
provisions arising from the specifics of MSP that must be observed at all stages of the
development and implementation of IACS, which determines the relevance of developing
methods for solving modeling problems and flexible control algorithms for MSP of discretecontinuous and continuous types, methods focused on the development of human-machine
control systems with mathematical models operating in interactive modes, systems that increase
the efficiency of production in general.
| № | Имя автора | Должность | Наименование организации |
|---|---|---|---|
| 1 | Sharifzhanova N.M. | teacher | TUIT |
| 2 | Gregoretti F.. | researcher | TURIN POLYTECHNIC UNIVERSITY |
| № | Название ссылки |
|---|---|
| 1 | B.D. George., W. Philip. Journal article. “The Decomposition Algorithm for Linear Programs”, https://www.jstor.org/stable/1911818 |
| 2 | P.S. Krasnoshchekov., V.V. Morozov., N.M. Popov. Optimization in computer-aided design. “Monographs”, 2008. |
| 3 | Sh. Asadzadeh., A. Aghaie., S.F. Yang. Monitoring and Diagnosing Multistage Processes: A Review of Cause Selecting Control Charts (Monitoring and diagnostics multistage processes: overview causes Choice control diagrams). “Magazine industrial and systemic engineering”, 2008. 214. |
| 4 | M.S. Yakubov. The main tasks of creating a GPS for multi-stage production. “Preprint. LIIAN USSR”, 1988. 32. |
| 5 | A.M. Brazhnikov., A.M. Brazhnikova. The use of automated control systems at industrial enterprises and in production (Russian). “Samara State Technical University”, 2018. 29. |
| 6 | S.V. Shidlovsky. Automation of technological processes and production: Textbook. “Tomsk: NTL Publishing House”, 2005. 11. |
| 7 | M.S. Yakubov. Decomposition of complex technological complexes for the purpose of synthesis of control algorithms. Questions of cybernetics. “Technical cybernetics and information theory”, 1989. 128. |
| 8 | A.A. Abramov. Collected works: study guide. Volume 6: Flotation. “Physical and chemical modeling of processes”, 2010. 607. ISBN 978-5-7418-0640-1. — Text: electronic // Doe: electronic library system. |
| 9 | V.A. Kaladze. Investigation of the potential characteristics of random search as adaptation mechanisms. “Control systems and information technologies”, 2008. 28. |
| 10 | E.A. Gantseva., V.A. Kaladze., N.A. Tyukachev. Test functions of random search. Voronezh: Proceedings of the First All-Russian. Conf. “Critical technologies of computing and information systems, MICT”, 2011. 108. |
| 11 | B.S. Ksenofontov. Wastewater treatment: flotation kinetics and flotation combines: monograph. “Moscow: forum: INFRA M”, 2020. 256. |
| 12 | A.N. Kirillov. Management of multi-stage technological processes. “Bulletin of St. Petersburg State University”, 2006. |
| 13 | A.N. Kirillov. Dynamic decomposition method in modeling control systems with structural changes. “Modeling of systems and processes”, 2009. |
| 14 | L.I. Dorofeeva. Modeling and optimization of separation processes. Tomsk: “Publishing House of the Tomsk Polytechnic University”, 2008. 128. |