Investigation of the possibility of using fuzzy logic in the indicator gyrostabilizer controller
| Authors: Solomentsev V.D. |  |
| Published in issue: #12(77)/2022 | |
| DOI: 10.18698/2541-8009-2022-12-849 | |
Category: Informatics, Computer Engineering and Control | Chapter: System Analysis, Control, and Information Processing, Statistics |
|
Keywords: stabilization systems, indicator gyrostabilizer, linear controller, fuzzy logic, system stability, mathematical modeling |
|
| Published: 27.01.2023 | |
With the development of navigation systems and optical devices, the need to use a stabilized base to maintain a given system orientation in space is growing. When increasing the accuracy and speed of designed gyroscopic stabilizers, there is a problem of stability due to the presence of unaccounted for links in the system with a linear regulator, which have a significant impact when increasing the cut-off frequency of the system. This paper describes the principle of feedback channel organization with the use of a nonlinear regulator based on fuzzy logic, built a nonlinear model of such a system and investigated the possibility of its application in practice.
References
[1] Pelpor D.S., ed. Giroskopicheskie sistemy. Proektirovanie giroskopicheskikh sistem. Ch. 1, 2 [Gyroscopic systems. Design of gyroscopic systems]. Moscow, Vysshaya shkola Publ., 1977 (in Russ.).
[2] Pelpor D.S. Giroskopicheskie sistemy. Teoriya giroskopov i girostabilizatorov [Gyroscopic systems. Theory of gyroscopes and hydrostabilizers]. Moscow, Vysshaya shkola Publ., 1986 (in Russ.).
[3] Slomyanskiy G.A., Agapov A.V. Detali i uzly giroskopicheskikh priborov. Atlas konstruktsiy [Parts and assemblies of gyroscopic devices. Atlas of designs]. Moscow, Mashinostroenie Publ., 1975 (in Russ.).
[4] Aleksandrov A.D., ed. Indikatornye giroskopicheskie platform [Indicator gyroscopic platforms]. Moscow, Mashinostroenie, 1979 (in Russ.).
[5] Matveev V.A., Podchezertsev V.P., Fateev V.V. Giroskopicheskie girostabilizatory na DNG [Gyroscopic gyrostabilizers on dynamically tuned gyroscopes]. Moscow, Bauman MSTU Publ., 2005 (in Russ.).
[6] Arsenyev V.D. Raschet i sintez parametrov girostabilizatorov dlya manevrennykh obektov [Calculation and synthesis of gyrostabilizers for maneuvering objects]. Moscow, Bauman MSTU Publ., 2013 (in Russ.).
[7] Besekerskiy V.A., Fabrikant E.A. Dinamicheskiy sintez sistem giroskopicheskoy stabilizatsii [Dynamic synthesis of gyroscopic stabilization systems]. Sankt-Petersburg, Sudostroenie Publ., 1968 (in Russ.).
[8] Regulyator na baze nechetkoy logiki. Sozdanie i nastroyka [Controller based on fuzzy logic. Creating and configuring]. habr.com: website (in Russ.). URL: https://habr.com/ru/post/413539/ (accessed: 10.04.2022).
[9] Rutkovskaya D., Pilinskiy M., Rutkovskiy L. Neyronnye seti, geneticheskie algoritmy i nechetkie sistemy [Neural networks, genetic algorithms and fuzzy systems]. Moscow, Goryachaya liniya-Telekom Publ., 2006 (in Russ.).