Robust Controller for Supersonic Unmanned Aerial Vehicle

Бурнашев, Виталий Витальевич; Zbrutsky, Aleksandr

doi:10.3846/aviation.2019.10300

Cited by 7 publications

(6 citation statements)

References 17 publications

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“…При цьому критерій якості для синтезу регулятора має вигляд: ,, W W W -вагові функції. Пошук C W , що задовольняє (9), здійснюється за допомогою алгоритму, що використовує 2-Ріккаті підхід [18]. Для об'єкта з передатними функціями (8), отримаємо вираз коригуючого пристрою у просторі станів: С и с т е м и т а п р о ц е с и к е р у в а н н (11) При цьому критерій якості (9) досяг значення 0,97.…”

Section: синтез динамічного робастного регулятораunclassified

“…Пошук C W , що задовольняє (9), здійснюється за допомогою алгоритму, що використовує 2-Ріккаті підхід [18]. Для об'єкта з передатними функціями (8), отримаємо вираз коригуючого пристрою у просторі станів: С и с т е м и т а п р о ц е с и к е р у в а н н (11) При цьому критерій якості (9) досяг значення 0,97. Запас стійкості за амплітудою становив 14,9 дБ, за фазою -74°.…”

Section: синтез динамічного робастного регулятораunclassified

“…Таким чином, реалізації вітрових збурень (рис. 3), що використовуються для імітаційного моделювання польоту БПЛА із синтезованими законами керування (10), (11), ( 14) -( 18), відповідають шторму, а за швидкістю вертикальних поривів (рис. 3, б, рис.…”

Section: результати моделювання польоту під час дії вітруunclassified

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Development and study of a supersonic aircraft flight control laws in a turbulent atmosphere

Gladychkevych,

Burnashev

2022

MGS

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A dynamic robust regulator as well as proportional regulators of the motion parameters of a supersonic unmanned aerial vehicle for operation in strong wind conditions has been developed. At that, we obtained a robust regulator based on the minimization of the four-block quality criterion using the 2-Rikkati approach. For the synthesis of proportional regulators the Kalman-Letov functional was used. We calculated the parameters of the dynamic robust regulator at one point of the trajectory. They are unchanged from the start to the touchdown of the aircraft. The coefficients of the proportional regulator for the entire flight are changed four times. In the article we compare the transient processes quality and the control accuracy in all sections of the flight trajectory. The accuracy of the flight end point position is also considered. For this purpose we presented simulation modelling results of the control system operation. They show that both types of regulator provide stable motion of the aircraft in stormy wind conditions. However, the robust regulator using lead to a higher quality of the control system dynamic properties, and the proportional regulator provides higher accuracy at the final flight stage due to the astatic properties.

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Section: синтез динамічного робастного регулятораunclassified

Section: результати моделювання польоту під час дії вітруunclassified

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Development and study of a supersonic aircraft flight control laws in a turbulent atmosphere

Gladychkevych,

Burnashev

2022

MGS

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“…Works [9]- [11] are dedicated to the design of robust control of aircraft motion using the 𝐻 ∞ technique. Lyapunov functions are used in [12]- [14] to increase the robust stability of control systems to uncertainties caused by internal and external perturbations.…”

Section: Introductionmentioning

confidence: 99%

Robust control for a tracking electromechanical system

Karimtaevna

Asylbekkyzy²

2022

IJECE

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A strategy for the design of robust control of tracking electromechanical systems based on 𝐻∞ synthesis is proposed. Proposed methods are based on the operations on frequency characteristics of control systems designed and developed using the MATLAB robust control toolbox. Determination of the singular values for a transfer matrix of the control system reduces the disturbances and guarantees its stability margin. For selecting the weighted transfer functions, the basic recommendations are formulated. The efficiency of the proposed approach is verified by robust control of an elastically coupled two-mass system whose parameter values are adjusted by matching them with the parameters of one of the supplied robots. The simulation results confirm that the proposed strategy of design of robust control of two-mass elastic coupling system using the 𝐻∞ synthesis is very efficient and significantly reduces the perturbation of parameters of the controlled plant.

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“…The Lyapunov function is constructed in the form of a vector function, the anti-gradient of which is set by the components of the velocity vector of the system. Some researches [17]- [19] are devoted to the synthesis of robust controllers of aircraft motion parameters using the 𝐻 ∞ technique. Works [20]- [22] consider the problems of constructing a robust control of the aircraft under the action of uncontrolled disturbances, in which the so-called weight functions are introduced.…”

Section: Introductionmentioning

confidence: 99%

Robust control of aircraft flight in conditions of disturbances

Karimtaevna

Bekbolatovna

Assilkhanovna

2022

IJECE

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One of the most dangerous parts of the flight is the landing phase, as most accidents occur at this stage. In order to reduce the effect of the low-level wind shear on the longitudinal motion of the aircraft in the glide path landing mode (task) a robust H- control is proposed. Dynamic models of the plane and wind shear are built. H2 and H∞ synthesis methods are investigated for the task of aircraft flight control in a vertical plane during landing under conditions of undefined disturbances. Both control methods allow to reduce height deviation significantly. However, suboptimal control H∞ provides better quality of transition processes both in height and speed than optimal control H2. The results of simulation of the synthesized system confirm the effectiveness of H∞ - control for increasing robust stability to uncertainties caused by wind disturbances.

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Robust Controller for Supersonic Unmanned Aerial Vehicle

Cited by 7 publications

References 17 publications

Development and study of a supersonic aircraft flight control laws in a turbulent atmosphere

Development and study of a supersonic aircraft flight control laws in a turbulent atmosphere

Robust control for a tracking electromechanical system

Robust control of aircraft flight in conditions of disturbances

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