Generalization of the method of virtual object on the calculations of optimum parameters of complex systems

Authors

  • Любовь Витальевна Бовнегра Odessa National Polytechnic University, Ukraine
  • Татьяна Владимировна Лысенко Odessa National Polytechnic University Shevchenko 1, Odessa, Ukraine, 65044, Ukraine
  • Андрей Александрович Становский Odessa National Polytechnic University Shevchenko 1, Odessa, Ukraine, 65044, Ukraine

DOI:

https://doi.org/10.15587/1729-4061.2014.26279

Keywords:

complex systems, design, control, on-line optimization, method of virtual object

Abstract

The increasing complexity of modern equipment leads to the fact that the optimization blocks, included in the CAD and ACS of these objects do not manage to take effective project or management decision in real time. The reason for that is the emergence: the presence of special properties in systems, not inherent in their elements, or the sum of elements, not linked by specific system-forming connections, as well as irreducibility of the system properties to the sum of the properties of its components.

Such systems have a high dimensionality and “irregularity” of properties. For example, the lumped-parameter elements (nodes) are combined with distributed-parameter elements (connections), protocols of the individual nodes are not coordinated in time, etc. Herewith, each such feature strongly complicates the design models of the object.

It was shown that modern computer-aided design and control needs new intelligent optimization techniques that allow on-line solution of the problem with using the mathematical apparatus of the virtual object.

The mathematical bases of the method were developed, classification of virtual objects was performed and their applicability for mechanical, electrical and hydraulic systems was substantiated.

Author Biographies

Любовь Витальевна Бовнегра, Odessa National Polytechnic University

Candidate of technical science, docent

Department of computer design methods in mechanical engineering

Татьяна Владимировна Лысенко, Odessa National Polytechnic University Shevchenko 1, Odessa, Ukraine, 65044

Doctor of technical science, professor

Department of foundry processes technologies and managements 

Андрей Александрович Становский, Odessa National Polytechnic University Shevchenko 1, Odessa, Ukraine, 65044

Department of computer intellectual systems and networks

References

  1. Goncharova, O. E., Maksimov, V. G., Stanovskiy, A. L. (1999). Nechuvstvitelnyy k asimmetrii chislennyy metod optimizatsii konstruktsiy. Trudy Odesskogo politehnicheskogo universiteta, 2 (8), 41–44.
  2. Balan, S. A., Stanovskaya, T. P., Goncharova, O. E. (2000). Metod virtualnogo obekta v proektirovanii. Trudy Odesskogo politehnicheskogo universiteta, 1 (9), 32–35.
  3. Gritsanov, A. A., Abushenko, V. L., Evelkin, G. M., Sokolova, G. N., Tereshchenko, O. V. (2003). Virtualnaya realnost Entsiklopediya sotsiologii. Knizhnyy Dom, 131.
  4. Bagdasaryan, N. G., Silaeva, V. L. (2005). Virtualnaya realnost: popytka tipologizatsii. Filosofskie nauki, 6, 39–58.
  5. Nosov, N. A. (2001). Manifest virtualistiki. Put, 246.
  6. Grin, B. (2004). Elegantnaya Vselennaya. Superstruny, skrytye razmernosti i poiski okonchatelnoy teorii: Per. s angl. Editorial URSS, 288.
  7. Kolesnikova, E. V., Stanovskaya, I. I. (2013). Fraktalnaya razmernost kak mera transformatsii seriynoy proektnoy deyatelnosti v operatsionnuyu. Pratsi Odeskogo politehnichnogo universitetu, 2 (41), 282–288.
  8. Churikov, V. A. (2009). Vnutrennyaya algebra operatorov drobnogo integrodifferentsirovaniya. Izvestiya Tomskogo politehnicheskogo universiteta, 314 (2), 12–15.
  9. Loskutov, A. Yu., Mihaylov, A. S. (2007). Osnovy teorii slozhnyh system. Izhevsk: NITs «Regulyarnaya i stohasticheskaya dinamika», 612.
  10. Zhilin, D. M. (2004). Teoriya sistem. URSS, 183.
  11. Balan, S. A, Maksimov, V. G., Stanovskaya, T. P. (1999). Avtomatizirovannaya sistema upravleniya tormozheniem avtotransportnyh sredstv. Trudy Odesskogo politehnicheskogo universiteta, 2 (8), 95–97.

Published

2014-07-24

How to Cite

Бовнегра, Л. В., Лысенко, Т. В., & Становский, А. А. (2014). Generalization of the method of virtual object on the calculations of optimum parameters of complex systems. Eastern-European Journal of Enterprise Technologies, 4(3(70), 33–37. https://doi.org/10.15587/1729-4061.2014.26279

Issue

Section

Control processes