MATHEMATICAL MODELING OF PROCESSES OF DIAGNOSTICS OF TECHNICAL AND TECHNOLOGICAL OBJECTS

Authors

Azizbek Nodirbekovich Yusupbekov, Tashkent State Technical University, Address: 2 Universitetskaya st., 100095, Tashkent city, Republic of Uzbekistan, E-mail: abek71@mail.ru, Phone: +998-91-135-18-02;Follow
Khurshid Salim Ugli Turayev, Tashkent State Technical University, Address: 2 Universitetskaya st., 100095, Tashkent city, Republic of Uzbekistan, E-mail: xturayev@mail.ru, Phone:+998-90-325-85-55.Follow

Abstract

The work is an introduction to the technical diagnostics of technical (or technological) objects. It discloses the basic concepts and definitions of the reliability of dynamic systems as objects of diagnostic reference knowledge and their diagnosis. Structural schemes of diagnosing objects with individual and combined channels of influence are analyzed. Questions of rational construction of base of reference knowledge are stated.

First Page

60

Last Page

67

References

1. N.R.Yusupbekov, R.A.Aliev, R.R.Aliev, A.N.Yusupbekov, Intellektual'ny'e sistemy' upravleniya i prinyatiya resheniy [Intelligent management and decision-making systems]. Tashkent: Uzbekskaya nacional'naya e`nciklopediya, 2014, 490 p. (in Russian).
2. I.A.Ryabinin, Nadejnost' i bezopasnost' strukturno-slojny'h system [Reliability and safety of a structurally complex system]. Sankt-Peterburg: Politehnika, 2017, 250 p. (in Russian).
3. V.M.Gumenyuk, Osnovy' teorii nadejnosti i tehnicheskoy diagnostiki [Fundamentals of row theory and technical diagnostics]. Vladivostok: DVFU, 2013, 183 p. (in Russian).
4. O.N.Osnovina, Diagnostika i nadejnost' avtomatizirovanny'h system [Diagnostics and other automated systems]. Stary'y Oskol: STI MISiS, 2006, 132 p. (in Russian).
5. Т.H.K.Astrom, PID Controllers: Theory, Design and Tuning 2 nd Edition, 1995.
6. V.Ramon Vilanova, PID Control in the Third Millennium. Springer, 2012.
7. F.M.Francisco Vazquez, “Tuning Decentralized PID Controllers for MIMO Systems with Decouplers”, 15th Triennial World Congress. Barcelona, 2002.
8. A.Visioli, “Model-based PID tuning for high-order processes: when to approximate”. IEEE Conference on Decision and Control, 2005 and 2005 European Control Conference. CDC-ECC '05. 12-15 Dec., 2005, pp.7127-7132.
9. V.YA.Rotach, “Nastroyka regulyatorov moificirovanny'm metodom Ciglera-Nikolsa” [Adjustment of regulators, modified by the Sigler-Nichols method]. Promy'shlenny'e kontrollery' ASU, no. 2, pp. 38-42, 2008. (in Russian).
10. A.M.Shubladze, S.V.Gulyaev, V.A.Malahov, V.R.Ol'shvang, S.I.Kuznecov, “Avtomaticheskaya nastroyka i adaptaciya v promy'shlenny'h PID regulyatorah” [Automatic adjustment and adaptation in an industrial PID controller]. Pribory' i sistemy'. Upravlenie, kontrol', diagnostika, no. 13, pp. 26-30, 2007. (in Russian).
11. E.E.Hemerly, “PC-based packages for identification, optimization, and adaptive control”. IEEE Control Systems Magazine, vol. 11, Issue 2, pp. 37-43, 1991.
12. V.L.Bajanov, A.V.Vayshnaras, Programma "MM-nastroyka" dlya opredeleniya parametrov PID-regulyatorov po metodu masshtabirovaniya [MM-tuning program for determining the parameters of PID controllers by the scaling method]. Avtomatizaciya v promy'shlennosti, no. 6, pp. 60-64, 2007. (in Russian).
13. V.YU.Shishmarev, Nadejnost' tehnicheskih system [Reliability of technical systems]. Moskva: Akademiya, 2010, 304 p. (in Russian).
14. I.I.Bezukladnikov, A.V.Gavrilov, A.A.Yujakov, “Upravlenie i monitoring v besprovodny'h raspredelenny'h promy'shlenny'h informacionno-upravlyayusch'ih sistemakh” [Management and monitoring in wireless distributed industrial information and control systems]. Vserossiyskaya nauchnaya konferenciya po problemam upravleniya v tehnicheskih sistemah. 2015, no. 1, pp. 128-131. (in Russian).
15. O.V.Goncharovskiy, “Testirovanie vstroenny'h sistem” [Testing of embedded systems]. Vestnik Permskogo gosudarstvennogo tehnicheskogo universiteta. E`lektrotehnika, informacionny'e tehnologii, sistemy' upravleniya. no. 5, pp. 113-120, 2011. (in Russian).
16. V.M.Gumenyuk, Nadejnost' i diagnostika e`lektrotehnicheskih sistem [Reliability and diagnostics of electrical systems]. Vladivostok: Dal'nevost. gos. tehn. un-ta, 2010, 218 p. (in Russian).
17. S.V.Gurov, A.M.Polovko, Osnovy' teorii nadejnosti [Fundamentals of reliability theory]. Moskva: BHV, 2008, 704 p. (in Russian).
18. V.Yu.Grishin, A.V.Lobanov, V.G.Sirenko, “Funkcional'noe diagnostirovanie v raspredelennom sistemnom diagnostirovanii mnogomashinny'h vy'chislitel'ny'h sistem” [Functional diagnostics in distributed system diagnostics of multi-machine computing systems]. Avtomatika i telemehanika. no. 1, pp. 154-160, 2002. (in Russian).
19. V.A.Veresch'aka, A.N.Gustomyasov, V.V.Zimin, “Diagnosticheskie modeli tehnicheskih sistem” [Diagnostic models of technical systems]. Injenerny'y vestnik. no. 3, pp. 3-5, 2015. (in Russian).
20. I.G.Baklanov, Testirovanie i diagnostika sistem svyazi [Testing and diagnostics of communication systems]. Moskva: E`KO-TRENDZ, 2001, 265 p. (in Russian).
21. A.V.Vojakov, M.B.Gitman, V.YU.Stolbov, “Modeli prinyatiya kollektivny'h resheniy v proizvodstvenny'h sistemah” [Models of collective decision-making in production systems]. «Upravlenie bol'shimi sistemami»: Sbornik trudov, no. 58, pp. 161-178, 2015. (in Russian).
22. A.M.Pankin, S.A.Basharin, M.A.Kuznecov, “Svyaz' mejdu pokazatelyami nadejnosti i tehnicheskoy diagnostiki slojny'h ob`ektov” [The relationship between reliability indicators and technical diagnostics of complex objects]. Kontrol'. Diagnostika. no. 2, pp. 35-39, 2016. (in Russian).
23. T.Teyer, M.Lipov, E`Nel'son, Nadejnost' programmnogo obespecheniya [Software reliability]. Moskva: Mir, 1981. 281 p. (in Russian).
24. L.A.Goel, “Software Reliability Models Assumptions, Limitations and Applicability,” IEEE Transactions ... 12, pp. 1411-1423, 1985.
25. Z.Jelinski, P.B.Moranda, “Software reliability research, Academic Press”, New York, pp. 465-484, 1972.
26. P.B.Moranda, “An error detection model for application during software development”. IEEE Transactions on Reliability, no. 28(5), pp. 325–329, 1979.
27. B.Littlewood, “Software Reliability Model for Modular Program Structure”, IEEE Transactions on Reliability, Vol. R-28, no. 3, pp. 241-246, 1979.
28. H.Pham, Handbook of Reliability Engineering. Springer-Verlag London, 2003, 663 p.

Recommended Citation

Yusupbekov, Azizbek Nodirbekovich and Turayev, Khurshid Salim Ugli (2021) "MATHEMATICAL MODELING OF PROCESSES OF DIAGNOSTICS OF TECHNICAL AND TECHNOLOGICAL OBJECTS," Chemical Technology, Control and Management: Vol. 2021: Iss. 6, Article 10.
DOI: https://doi.org/10.51346/tstu-02.21.6-77-0054