Design of Aircraft Angle of Attack Control Law Based on Model-Free Adaptive Control

Xiaoxiong Liu; Yuehang Zhang; Hui Zhao; Ruichen Ming

doi:10.1007/978-981-15-8155-7_131

Design of Aircraft Angle of Attack Control Law Based on Model-Free Adaptive Control

Xiaoxiong Liu, Yuehang Zhang, Hui Zhao, Ruichen Ming

School of Automation

Northwestern Polytechnical University Xian

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The longitudinal static stability of the aircraft during maneuvering is affected by the angle of attack. To enhance the stability, it is necessary to design an aircraft stabilization system. Aiming at the problem that the traditional model-based adaptive control method depends too much on the system model in the process of obtaining the control law, a data-driven full-form dynamic linearization-based model-free adaptive control method (FFDL-MFAC) is used to design the flight control law. The appropriate step size factor and the dimensions of the input and output data are selected according to the characteristics of the controlled system. The pseudo-partitioned gradient (PPG) is decoupled according to the structural characteristics of the control law. The decoupling vector contains the connection between inputs and outputs, which can obviously reduce the difficulty of calculation. The method of this paper is used to design the control law of F-16 aircraft longitudinal stabilization system and carry out simulation analysis. After analyzing the results of simulation, it can be shown that the control system based on FFDL-MFAC method has a more flexible structure and meets the requirements of longitudinal stabilization control.

Original language	English
Title of host publication	Advances in Guidance, Navigation and Control - Proceedings of 2020 International Conference on Guidance, Navigation and Control, ICGNC 2020
Editors	Liang Yan, Haibin Duan, Xiang Yu
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	1567-1576
Number of pages	10
ISBN (Print)	9789811581540
DOIs	https://doi.org/10.1007/978-981-15-8155-7_131
State	Published - 2022
Event	International Conference on Guidance, Navigation and Control, ICGNC 2020 - Tianjin, China Duration: 23 Oct 2020 → 25 Oct 2020

Publication series

Name	Lecture Notes in Electrical Engineering
Volume	644 LNEE
ISSN (Print)	1876-1100
ISSN (Electronic)	1876-1119

Conference

Conference	International Conference on Guidance, Navigation and Control, ICGNC 2020
Country/Territory	China
City	Tianjin
Period	23/10/20 → 25/10/20

Keywords

Angle of attack
Control law
Model-Free adaptive control

Access to Document

10.1007/978-981-15-8155-7_131

Cite this

Liu, X., Zhang, Y., Zhao, H., & Ming, R. (2022). Design of Aircraft Angle of Attack Control Law Based on Model-Free Adaptive Control. In L. Yan, H. Duan, & X. Yu (Eds.), Advances in Guidance, Navigation and Control - Proceedings of 2020 International Conference on Guidance, Navigation and Control, ICGNC 2020 (pp. 1567-1576). (Lecture Notes in Electrical Engineering; Vol. 644 LNEE). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-15-8155-7_131

Liu, Xiaoxiong ; Zhang, Yuehang ; Zhao, Hui et al. / Design of Aircraft Angle of Attack Control Law Based on Model-Free Adaptive Control. Advances in Guidance, Navigation and Control - Proceedings of 2020 International Conference on Guidance, Navigation and Control, ICGNC 2020. editor / Liang Yan ; Haibin Duan ; Xiang Yu. Springer Science and Business Media Deutschland GmbH, 2022. pp. 1567-1576 (Lecture Notes in Electrical Engineering).

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title = "Design of Aircraft Angle of Attack Control Law Based on Model-Free Adaptive Control",

abstract = "The longitudinal static stability of the aircraft during maneuvering is affected by the angle of attack. To enhance the stability, it is necessary to design an aircraft stabilization system. Aiming at the problem that the traditional model-based adaptive control method depends too much on the system model in the process of obtaining the control law, a data-driven full-form dynamic linearization-based model-free adaptive control method (FFDL-MFAC) is used to design the flight control law. The appropriate step size factor and the dimensions of the input and output data are selected according to the characteristics of the controlled system. The pseudo-partitioned gradient (PPG) is decoupled according to the structural characteristics of the control law. The decoupling vector contains the connection between inputs and outputs, which can obviously reduce the difficulty of calculation. The method of this paper is used to design the control law of F-16 aircraft longitudinal stabilization system and carry out simulation analysis. After analyzing the results of simulation, it can be shown that the control system based on FFDL-MFAC method has a more flexible structure and meets the requirements of longitudinal stabilization control.",

keywords = "Angle of attack, Control law, Model-Free adaptive control",

author = "Xiaoxiong Liu and Yuehang Zhang and Hui Zhao and Ruichen Ming",

note = "Publisher Copyright: {\textcopyright} 2022, The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.; International Conference on Guidance, Navigation and Control, ICGNC 2020 ; Conference date: 23-10-2020 Through 25-10-2020",

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Liu, X, Zhang, Y, Zhao, H & Ming, R 2022, Design of Aircraft Angle of Attack Control Law Based on Model-Free Adaptive Control. in L Yan, H Duan & X Yu (eds), Advances in Guidance, Navigation and Control - Proceedings of 2020 International Conference on Guidance, Navigation and Control, ICGNC 2020. Lecture Notes in Electrical Engineering, vol. 644 LNEE, Springer Science and Business Media Deutschland GmbH, pp. 1567-1576, International Conference on Guidance, Navigation and Control, ICGNC 2020, Tianjin, China, 23/10/20. https://doi.org/10.1007/978-981-15-8155-7_131

Design of Aircraft Angle of Attack Control Law Based on Model-Free Adaptive Control. / Liu, Xiaoxiong; Zhang, Yuehang; Zhao, Hui et al.
Advances in Guidance, Navigation and Control - Proceedings of 2020 International Conference on Guidance, Navigation and Control, ICGNC 2020. ed. / Liang Yan; Haibin Duan; Xiang Yu. Springer Science and Business Media Deutschland GmbH, 2022. p. 1567-1576 (Lecture Notes in Electrical Engineering; Vol. 644 LNEE).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - The longitudinal static stability of the aircraft during maneuvering is affected by the angle of attack. To enhance the stability, it is necessary to design an aircraft stabilization system. Aiming at the problem that the traditional model-based adaptive control method depends too much on the system model in the process of obtaining the control law, a data-driven full-form dynamic linearization-based model-free adaptive control method (FFDL-MFAC) is used to design the flight control law. The appropriate step size factor and the dimensions of the input and output data are selected according to the characteristics of the controlled system. The pseudo-partitioned gradient (PPG) is decoupled according to the structural characteristics of the control law. The decoupling vector contains the connection between inputs and outputs, which can obviously reduce the difficulty of calculation. The method of this paper is used to design the control law of F-16 aircraft longitudinal stabilization system and carry out simulation analysis. After analyzing the results of simulation, it can be shown that the control system based on FFDL-MFAC method has a more flexible structure and meets the requirements of longitudinal stabilization control.

AB - The longitudinal static stability of the aircraft during maneuvering is affected by the angle of attack. To enhance the stability, it is necessary to design an aircraft stabilization system. Aiming at the problem that the traditional model-based adaptive control method depends too much on the system model in the process of obtaining the control law, a data-driven full-form dynamic linearization-based model-free adaptive control method (FFDL-MFAC) is used to design the flight control law. The appropriate step size factor and the dimensions of the input and output data are selected according to the characteristics of the controlled system. The pseudo-partitioned gradient (PPG) is decoupled according to the structural characteristics of the control law. The decoupling vector contains the connection between inputs and outputs, which can obviously reduce the difficulty of calculation. The method of this paper is used to design the control law of F-16 aircraft longitudinal stabilization system and carry out simulation analysis. After analyzing the results of simulation, it can be shown that the control system based on FFDL-MFAC method has a more flexible structure and meets the requirements of longitudinal stabilization control.

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Liu X, Zhang Y, Zhao H, Ming R. Design of Aircraft Angle of Attack Control Law Based on Model-Free Adaptive Control. In Yan L, Duan H, Yu X, editors, Advances in Guidance, Navigation and Control - Proceedings of 2020 International Conference on Guidance, Navigation and Control, ICGNC 2020. Springer Science and Business Media Deutschland GmbH. 2022. p. 1567-1576. (Lecture Notes in Electrical Engineering). doi: 10.1007/978-981-15-8155-7_131

Design of Aircraft Angle of Attack Control Law Based on Model-Free Adaptive Control

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