CONTROL MODEL OF A GROUP OF MANEUVERABLE UNMANNED AERIAL VEHICLES TAKING INTO ACCOUNT THEIR FLIGHT SAFETY
DOI:
https://doi.org/10.26906/SUNZ.2023.3.058Keywords:
mobile unmanned aerial vehicles, control system, control law, aircraft group, information channel, flight safety, group flight, wind effects, control laws, model flight safetyAbstract
The article deals with the urgent scientific problem of creating an algorithmic support for an automated situational control system for group maneuverable unmanned aerial vehicles, taking into account the possibility of improving their flight safety. To realize this possibility, the authors proposed a non-linear flight model of group formation. This is the basis for the synthesis of nonlinear control laws for these aircraft. The difference of the proposed approach is taking into account the influence of changes in the speed and direction of wind flows on the laws governing the movement of aircraft in a group. Promising areas of research are considered, namely: the application of the results obtained to justify the requirements for the design characteristics of control systems and their algorithmic support in terms of not only improving their flight safety in group formations, but also ensuring the specified performance indicators for a wide range of possible flight tasks by a group of maneuverable aircraftDownloads
References
Romaniuk L.А., Chykhira І.V. (2020) Aerodynamic model of a group of unmanned aerial vehicles in space with obstacles. “Computer-integrated technologies: education, science, productionˮ. 2020. 38. 59–66. DOI: 10.36910/6775-2524-0560-2020-38-10. [in Ukrainian].
Ivanenko Yu.V., Liashenko О.S., Filimonchuk Т.V. (2023) Overview of methods of controlling unmanned aerial vehicles. Collection of scientific works of the PNTU “Control, navigation and communication systemsˮ. Т.1 (71). 26–30. DOI: 10.26906/SUNZ.2023.1.026. [in Ukrainian].
Yefremov О.V., Horbenko V.М., Korshets О.А. (2018) Methodology for evaluating the effectiveness of the use of units of unmanned aviation complexes. Collection of scientific works of the KhNUAF named after Ivan Kozhedub. 4 (58). 30–36. DOI: 10.30748/zhups.2018.58.04. [in Ukrainian].
Bondarenko Yu.L., Dupelych S.О., Horbach V.Ya. (2019) An improved mathematical model for planning the flight routes of reconnaissance unmanned aerial vehicles of the tactical class. Bulletin of ZhSTU. 1 (83). 206–213. DOI: 10.26642/th-2019-1(83)-206-213. [in Ukrainian].
Artiushyn L.М., Kononov О.А., Shmorhun Yu.V. (2019) Basic conditions for decision-making regarding the creation of an automated control system for the group use of unmanned aerial vehicles. National University of Defense of Ukraine named after Ivan Chernyakhovsky “Modern information technologies in the field of security and defenseˮ. 2 (35). С. 49–54. DOI: 10.33099/2311-7249/2019-35-2-49-54. [in Ukrainian].
Artiushyn L.М., Kononov О.А., Herasymenko V.V., Nausenko B.Yu. (2022) The method of choosing an option for the implementation of group use of unmanned aerial vehicles. National University of Defense of Ukraine named after Ivan Chernyakhovsky “Modern information technologies in the field of security and defenseˮ. 2 (44). 10–20. DOI:10.33099/2311-7249/2022-44-2-10-20. [in Ukrainian].
D. Liu, S.Li (2018) Research on efficient online planning of emergency logistics path based on doublelayer ant colony optimization algorithm. International Journal of Computers and Applications. 33. 1–7.
Sineglazov V.M., Tsoba A.O. (2022) Control and monitoring subsystem of an unmanned aerial vehicle. National Aviation University “Electronics and Control Systemˮ. № 3 (73). 47–53. DOI: 10.18372/1990-5548.73.17012. [in English].
Lavrynenko O.Y., Konakhovych G.F., Bakhtiiarov D.I. (2020) Protected voice control system of unmanned aerial vehicle. National Aviation University “Electronics and Control Systemˮ. 1 № 63, 92–98. DOI: 10.18372/1990-5548.63.14529.
Berezhnyi А.О., Kachalova V.V., Rozhkov М.І. (2019) Modeling the movement of dynamic objects in the decision-making support system for planning the routes of unmanned aerial vehicles. Collection of scientific works of the KhNUAF named after Ivan Kozhedub. “Information processing systemsˮ.4 (159). 44–49. DOI: 10.30748/soi.2019.159.05. [in Ukrainian].
Yershov V.V., Izvalov О.V., Nedilko S.М., Nedilko V.М. (2020) The concept of systematic control of the flight of unmanned aerial vehicles. “Computer-integrated technologies: education, science, productionˮ. 40. 23–30. DOI:10.36910/6775-2524-0560-2020-40-04. [in Ukrainian].
Подорожняк А.О., Волоцков Ye..А., Шевцова О.S. (2018) Study of the control system of unmanned aerial vehicles. NTU KhPI “Modern information systemsˮ.Т.2. № 3. 97–101. DOI: 10.20988/2522-9052.2018.3.16. [in Ukrainian].
Aerodynamics for engineering students [Text] /E.L. Houghton, P.W. Carpenter, Steven H. Collicott, Daniel T. Valentine. 6th ed. USA: Elsevier Ltd, 2016. 714 [in English].
Samborskyi І.І, Mashkov О.А., Kononov О.А. (2018) Problems of implementing joint use of promising unmanned aircraft complexes. “Arsenal XXIˮ., 1 (2). 36–41. [in Ukrainian].
