Main Catalog Aviation and Rocket-Space Engineering Aircraft Dynamics, Ballistics, Motion Control

Development of the aircraft control system in terms of discreteness of input signals on control organs

Authors: Zabolotskaya E.V., Nikanorova M.D.
Published in issue: #5(34)/2019
DOI: 10.18698/2541-8009-2019-5-480
Category: Aviation and Rocket-Space Engineering \| Chapter: Aircraft Dynamics, Ballistics, Motion Control
Keywords: aircraft, accuracy, control system, discreteness, homing, hit zone, guidance, homing head
Published: 30.05.2019

The two laws of control of the ground-to-ground class aircraft in the homing phase have been compiled. The first control law is valid for the device in terms of discrete input signals on control organs. The second law is a modification of the first under the condition of discreteness of operation of the roll control organs. The second law was developed to eliminate some of the problems encountered when using the first control law. A comparative analysis of the results of flight simulation with the considered control laws was carried out. It is demonstrated that the first control law is characterized by a worse quality of guidance than the second, but at the same time such a law is simpler to implement.

References

[1] Kalinovskiy T.A., Klishin A.N., Ilyukhin S.N. Employing functional lead to improve homing system efficiency. Inzhenernyy zhurnal: nauka i innovatsii [Engineering Journal: Science and Innovation], 2018, no. 10. DOI: 10.18698/2308-6033-2018-10-1812 URL: http://engjournal.ru/catalog/arse/adb/1812.html (in Russ.).

[2] Lebedev A.A., Karabanov V.A. Dinamika sistem upravleniya bespilotnymi letatel’nymi apparatami [Dynamics of control system for unmanned vehicle]. Moscow, Mashinostroenie Publ., 1965 (in Russ.).

[3] Ilyukhin S.N., Klishin A.N. On-board computer efficiency evaluation of unmanned aerial vehicles (UAV) when implementing the targeting process. Inzhenernyy zhurnal: nauka i innovatsii [Engineering Journal: Science and Innovation], 2018, no. 7. DOI: 10.18698/2308-6033-2018-7-1781 URL: http://engjournal.ru/catalog/arse/adb/1781.html (in Russ.).

[4] Grabin V.V., Klishin A.N. Some special aspects of organizing digital simulation process of vehicle at complex trajectory. Oboronnaya tekhnika, 2003, no. 1–2, pp. 67–71 (in Russ.).

[5] Dmitrievskiy A.A., Lysenko L.N. Vneshnyaya ballistika [External ballistics]. Moscow, Mashinostroenie Publ., 2005 (in Russ.).

[6] Ilyukhin S.N., Klishin A.N., Shvyrkina O.S. Satellite navigation and ballistic support in the problem of improving inertial navigation system accuracy. Inzhenernyy zhurnal: nauka i innovatsii [Engineering Journal: Science and Innovation], 2016, no. 9. DOI: 10.18698/2308-6033-2016-9-1532 URL: http://engjournal.ru/catalog/arse/adb/1532.html (in Russ.).

[7] Lysenko L.N. Navedenie ballisticheskikh raket [Ballistic missile guidance]. Moscow, Bauman MSTU Publ., 2016 (in Russ.).

[8] Ilyukhin S.N., Toporkov A.G., Koryanov V.V., et al. Actual aspects of control system development for advanced unmanned aerial vehicles. Inzhenernyy zhurnal: nauka i innovatsii [Engineering Journal: Science and Innovation], 2015, no. 9. DOI: 10.18698/2308-6033-2015-9-1450 URL: http://engjournal.ru/catalog/arse/adb/1450.html (in Russ.).

[9] Koryanov V.V., Kokuytseva T.V., Toporkov A.G., et al. Concept development of control system for perspective unmanned aerial vehicles. MATEC Web Conf., 2018, vol. 151, art. 04010. DOI: 10.1051/matecconf/201815104010 URL: http://engjournal.ru/catalog/arse/adb/1450.html

[10] Platunova A.V., Klishin A.N., Ilyukhin S.N. Special aspects of adaptive control law for high-precision aircraft. Inzhenernyy vestnik [Engineering bulletin], 2016, no. 10. URL: http://engsi.ru/doc/851360.html (in Russ.).