Forecasting the parameters of performance monitoring of complex technical systems


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Abstract

The problem of monitoring the performance of technical systems is considered, corresponding to the stage of final control during the production of a product, as well as the stage of testing the product before its use. Based on the generalization and development of the existing approaches, models and methods for monitoring the performance of complex technical systems were developed, and models for predicting the parameters of their control were proposed. Methods of optimizing the number of tests of units of technical systems when monitoring their performance were developed. Methods for estimating the optimal level of the total defect rate are proposed. The efficiency of the proposed approaches is illustrated using a specific numerical example. The methods and models presented in the article can be useful for engineering and technical workers of design bureaus, research institutes, research and production associations and enterprises in ensuring the reliability of products and technical systems.

About the authors

A. A. Zolotov

Moscow Aviation Institute (National Research University)

Author for correspondence.
Email: alexandrzolotov41@mail.ru

Doctor of Science (Engineering), Professor, Professor of the Department of Space Systems and Rocket Construction

Russian Federation

V. V. Rodchenko

Moscow Aviation Institute (National Research University)

Email: rodchenko47@mail.ru

Doctor of Science (Engineering), Professor, Professor of the Department of Control of Operation of Space and Missile Systems

Russian Federation

E. V. Gusev

Moscow Aviation Institute (National Research University)

Email: ccg-gus@mail.ru
ORCID iD: 0000-0003-1634-0352

Candidate of Science (Engineering), Associate Professor of the Department of Control of Operation of Space and Missile Systems

Russian Federation

I. A. Karyagin

Moscow Aviation Institute (National Research University)

Email: jaonto@gmail.com
ORCID iD: 0009-0002-8977-6376

Postgraduate Student of the Department of Control of Operation of Space and Missile Systems

Russian Federation

References

  1. Men'shikov V.A., Rudakov V.B., Sychev V.N. Kontrol' kachestva kosmicheskikh apparatov pri otrabotke i proizvodstve [Quality control of spacecraft during development and production]. Moscow: Mashinostroenie Publ., 2009. 399 p.
  2. Zolotov A.A., Odelevskiy V.K., Rodchenko V.V., Chernikov A.I. Prikladnye metody i algoritmy obespecheniya nadezhnosti i bezopasnosti tekhnicheskikh sistem na etape ikh razrabotki i ekspluatatsii [Applied methods and algorithms for ensuring the reliability and safety of technical systems at the stage of their development and operation]. Moscow: MAI Publ., 2013. 349 p.
  3. Nadezhnost' i effektivnost' v tekhnike: spravochnik v 10 t. T. 6. Eksperimental'naya otrabotka i ispytaniya / pod red. R.S. Sudakova, O.I. Teskina [Reliability and efficiency in technology. Reference book in 10 volumes. Volume 6. Experimental development and testing]. Moscow: Mashinostroenie Publ., 1989. 375 p.
  4. Nadezhnost' i effektivnost' v tekhnike: spravochnik v 10 t. T. 10. Spravochnye dannye po usloviyam ekspluatatsii i kharakteristikam nadezhnosti / pod red. V.A. Kuznetsova [Reliability and efficiency in technology: Reference book in 10 volumes. Volume 10. Reference data on operating conditions and reliability characteristics]. Moscow: Mashinostroenie Publ., 1990. 330 p.
  5. Ianko Y. Statisticke tabulky. Praha, 1958. 251 p.
  6. Zolotov A.A., Rodchenko E.V., Gusev V.V. Methodology for taking into account the requirements for reliability when choosing design solutions for the load-bearing structures of launch vehicles. All-Russian Scientific-Technical Journal «Polyot». 2023. No. 1-2. P. 61-69. (In Russ.)
  7. Rodchenko V.V., Gusev E.V., Karyagin I.A. A mathematical model for predicting the resource of structural elements operating under dynamic loading conditions. Scientific and Technical Volga Region Bulletin. 2023. No. 5. P. 85-88. (In Russ.)
  8. Rodchenko V.V., Gusev E.V., Karyagin I.A. Development of a mathematical model of a maintenance strategy taking into account continuous monitoring. Scientific and Technical Volga Region Bulletin. 2023. No. 5. P. 89-92. (In Russ.)
  9. Zolotov A.A., Rodchenko V.V., Gusev E.V. Method for selecting design parameters for reusable launch vehicles. All-Russian Scientific-Technical Journal «Polyot». 2022. No. 8-9. P. 63-69. (In Russ.)
  10. Rodchenko V.V., Galeev A.G., Zolotov A.A., Galeev A.V. Planning of integrated tests of complex technical systems. Alternative Energy and Ecology. 2015. No. 8-9 (172-173). P. 76-85. (In Russ.)
  11. Zolotov A.A., Rodchenko V.V., Gusev E.V. Forecasting the resource of reusable aircraft devices. All-Russian Scientific-Technical Journal «Polyot». 2022. No. 5. P. 22-32. (In Russ.)
  12. Gusev E.V., Rodchenko V.V. Development of a model for detecting malfunctions during the maintenance of aircraft units and systems. Siberian Aerospace Journal. 2021. V. 22, no. 4. P. 638-648. (In Russ.). doi: 10.31772/2712-8970-2021-22-4-638-648

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