Radiotekhnika
Publishing house Radiotekhnika

"Publishing house Radiotekhnika":
scientific and technical literature.
Books and journals of publishing houses: IPRZHR, RS-PRESS, SCIENCE-PRESS


Тел.: +7 (495) 625-9241

 

Methods of autonomous control of a miniature specialized technological complex

Keywords:

E.V. Naidenov – Assistant, Department of Electronics and Microprocessor Engineering, Smolensk branch of «National Research University «MPEI»
E-mail: nzettez@gmail.com
M.V. Zhendarev – Ph.D.(Eng.), Associate Professor, Department of Automated Command and Control Systems, Vasilevsky Military Academy of Air Defense Forces RF (Smolensk)
E-mail: zhendarev-misha@rambler.ru


In the article features of the organization of an autonomous control system in miniature specialized technological complexes (M STC) are considered. The functional purpose of M STC is the organization and implementation of various technological processes characterized by the rendering of various kinds of impacts (thermal, mechanical and other) on the initial material objects and the resulting new set of objects (usually distinguished by a set of properties): bio-cultivation, synthesis of chemicals, reception of bio-composite materials, etc. Internal structure and specificity of M STC application areas are considered. Advantages and disadvantages of M STC as a separate class of technical systems for special purposes estimated. The modern trends used in the development of new M STC types, including the di-rection of the Technological industry 4.0.
Based on earlier studies, a sessional method of autonomous management of M STC proposed. The session management method is characterized by adaptability of realized technological transformations to features of the technical node and allows describe the tech-nological process through the sequence of sessions – the stages of transformation or moving objects between technical nodes.
Depending on the specific application of miniaturized specialized technological complexes, the session method can implemented using a combination of methods. The paper describes method of ensure the maximum speed of the process; method of ensure maximum load of all technical nodes in M STC; method of obtaining a guaranteed result of the execution of the technological process; method of increase the reliability of the technical nodes. This set allows realize the whole set of functional needs for work with technological processes that arise during the operation of M STC. When writing a description of each of the methods, rules and features of their application indicated.
Optimization of the management process in M STC due to the use of a combination of methods makes it possible to expand the scope of the complex, in particular, to carry out technological processes on it with a previously unknown result.

References:
  1. Bilous V.A. et al. Organization of experimental technological complex for serial manufacturing and testing of products and semi-finished goods made of diamond-like and laminated composites for leading branches of mechanical engineering // Technical Science. 2014. V. 10. № 4. P. 5−19.
  2. Osipov Y.M., Osipov O.Y., Trifonov V.A. Prospects for Establishment of Technological Com-plexes in Machine Building Industry // IOP Conference Series: Materials Science and Engineering. IOP Publishing. 2015. V. 91. № 1. P. 2−6.
  3. Lee J., Kao H.A., Yang S. Service innovation and smart analytics for industry 4.0 and big data environment // Procedia Cirp. 2014. T. 16. P. 3−8.
  4. Almada-Lobo F. The Industry 4.0 revolution and the future of manufacturing execution systems (MES) // Journal of Innovation Management. 2016. V. 3. № 4. P. 16−21.
  5. Albers M.J., Mazur M.B. Content and complexity: information design in technical communication. Routledge. 2014. 380 p.
  6. Gallivan M.J. Organizational adoption and assimilation of complex technological innovations: development and application of a new framework // ACM Sigmis Database. 2001. V. 32. № 3. P. 51−85.
  7. Vogel L., Schack T. The cognitive representation of complex actions in work processes: A technological approach for individual diagnostic in people with cognitive disabilities // Journal of Sport & Exercise Psychology. 2016. V. 2. № 8. P. 11−16.
  8. Najdyonov E.V. Sessionnaya model’ upravleniya miniatyurny’mi speczializirovanny’mi texnologicheskimi kompleksami. 2018. № 3. S. 114−124.
  9. Batanov A.F., Griczy’nin S.N., Murkin S.V. Robototexnicheskie kompleksy’ dlya obespecheniya speczial’ny’x operaczij // Speczial’naya texnika. 1999. № 6. S. 10−17.
  10. Budy’lina E.A. Osnovny’e princzipy’ proektirovaniya slozhny’x texnicheskix sistem v prilozheniyax // Molodoj ucheny’j. 2013. № 5. S. 42−45.
  11. Davletova A.R., Xakimova E.N. Razvitie sovremenny’x sistem upravleniya texnologicheskim proczessom // Innovaczii, Texnologii, Nauka. 2017. T. 1. S. 38−40.
  12. Senchik K.Yu., Gryaznov N.A., Kireeva G.S. Razvitie mediczinskix robototexnicheskix sistem na osnove sovremenny’x dostizhenij teranostiki // Robototexnika i texnicheskaya kibernetika. 2015. № 1 (6). S. 12−16.
  13. Vlasov A.I. Sistemny’j analiz texnologicheskix proczessov proizvodstva slozhny’x texnicheskix sistem s ispol’zovaniem vizual’ny’x modelej // Mezhdunar. nauchno-issledovatel’skij zhurnal. 2013. № 10 2 (17). S. 17−26.
  14. Najdyonov E.V., Yakimenko I.V. Sposob upravleniya apparatnoj platformoj slozhnoj texnicheskoj sistemy’ // E’lektromagnitny’e volny’ i e’lektronny’e sistemy’. 2015. T. 20. № 2. S. 39−46.
  15. Najdyonov E.V., Zhendarev M.V., Yakimenko I.V. Sposob upravleniya apparatnoj platformoj speczializirovannoj texnicheskoj sistemy’ // Nelinejny’j mir. 2015. T. 13. № 6. S. 60−67.
  16. Najdyonov E.V., Yakimenko I.V. Sposob upravleniya apparatnoj platformoj speczializirovannogo mediczinskogo kompleksa // Naukoemkie texnologii. 2015. T. 16. № 10. S. 83−90.

© Издательство «РАДИОТЕХНИКА», 2004-2017            Тел.: (495) 625-9241                   Designed by [SWAP]Studio