•  
  •  
 

Abstract

This article is devoted to the applied analysis of diagnostic and restructuring methods aimed at ensuring the reliability of control systems in the event of failures. The paper considers practical implementations of diagnostic and control algorithms using a servo drive setup as an example. The results of experiments are presented, demonstrating the system's behavior under various fault conditions. A comparative analysis of the effectiveness of the proposed solutions is carried out in terms of stability and operational accuracy. The obtained data confirm the feasibility of using adaptive control structures to increase the fault tolerance of technical systems. The article concludes with the formulation of conclusions and a discussion of future research directions.

First Page

78

Last Page

87

References

  1. Yusupbekov, N.R., Aliev, R.A., Aliev, R.R., Yusupbekov, A.N. (2014). Intellektual'ny'e sistemy' upravleniya i prinyatiya resheniy [Intelligent management and decision-making systems]. Tashkent: Uzbek-skaya nacional'naya e`nciklopediya, 490 p. (in Russian).
  2. Yusupbekov, N.R., Marakhimov, A.R., Igamberdiev, H.Z., Umarov, Sh.X. (2016). An Adaptive Fuzzy-Logic Traffic Control System in Conditions of Saturated Transport Stream. Scientific World Journal. 6719459. DOI: 10.1155/2016/6719459.
  3. Yusupbekov, A.N., Turaev, Kh.S. (2020). Intellectual Decision-Making Support System, International Conference on Intelligent Systems for Industrial Automation, WCIS-2020, Tashkent, Uzbekistan, 389-393.
  4. Rudenko, N.I., Rudenko, M.I. (2018). Osnovy otkazoustojchivogo upravleniya [Fundamentals of Fault-Tolerant Management]. Moskva: Nauka. (in Russian).
  5. Kuznetsov, V.P. (2017). Diagnostika neispravnostej v avtomaticheskikh sistemakh upravleniya [Fault Diagnosis in Automatic Control Systems]. Sankt-Peterburg: Politekhnika. (in Russian).
  6. Ivanov, S.A., Smirnov, A.P. (2019). Metody i algoritmy otkazoustojchivogo upravleniya v servosistemakh [Methods and Algorithms of Fault-Tolerant Control in Servo Systems]. Novosibirsk: SibGU. (in Russian).
  7. Yakovlev, YU.A., Barsukov, A.V. (2020). Dinamicheskoe rezervirovanie i ego primenenie v sovremennykh sistemakh upravleniya [Dynamic Redundancy and Its Application in Modern Control Systems]. Moskva: EHnergiya. (in Russian).
  8. Fedorenko, I.V. (2016). Teoriya i praktika diagnostiki neispravnostej v robototekhnicheskikh sistemakh [Theory and Practice of Fault Diagnosis in Robotic Systems]. Ekaterinburg: UrFU. (in Russian).
  9. Protasov, V.A. (2015). Servoprivody i ikh upravlenie: ot teorii k praktike [Servo Drives and Their Control: From Theory to Practice]. Kazan: Kazanskij universitet. (in Russian).
  10. Belyaev, A.B. (2018). Sovremennye metody povysheniya nadezhnosti i otkazoustojchivosti avtomatizirovannykh sistem [Modern Methods for Improving the Reliability and Fault Tolerance of Automated Systems]. Moskva: ITMO. (in Russian).
  11. Solov'ev, A.G., Chernov, V.M. (2017). Obespechenie nadezhnosti v robotizirovannykh i avtomatizirovannykh sistemakh [Ensuring Reliability in Robotic and Automated Systems]. SPb: BKHV-Peterburg. (in Russian).
  12. D'yakov, N.I. (2021). Avtomatizatsiya protsessov upravleniya s ispol'zovaniem diagnostiki i rezervirovaniya [Automation of Control Processes Using Diagnostics and Redundancy]. Tomsk: Izdatel'stvo Tomskogo universiteta. (in Russian).
  13. Petrov, O.V. (2018). Metody diagnostiki i upravleniya s uchetom otkazov v servosistemakh [Methods of Fault-Aware Diagnostics and Control in Servo Systems]. Sankt-Peterburg: Nevskij universitet. (in Russian).

Download

Share

COinS
 
 

To view the content in your browser, please download Adobe Reader or, alternately,
you may Download the file to your hard drive.

NOTE: The latest versions of Adobe Reader do not support viewing PDF files within Firefox on Mac OS and if you are using a modern (Intel) Mac, there is no official plugin for viewing PDF files within the browser window.