Fixed-Time-Synchronized Non-Affine Attitude Control for Reusable Launch Vehicles
This study investigates a fixed-time-synchronized non-affine attitude tracking control scheme for reusable launch vehicles (RLVs). The non-affine characteristics, which are often overlooked and simplified into an affine model during the controller design, significantly impact both the precision of t...
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| Published in | IEEE transactions on aerospace and electronic systems pp. 1 - 16 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
IEEE
2025
|
| Online Access | Get full text |
| ISSN | 0018-9251 1557-9603 |
| DOI | 10.1109/TAES.2025.3569795 |
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| Abstract | This study investigates a fixed-time-synchronized non-affine attitude tracking control scheme for reusable launch vehicles (RLVs). The non-affine characteristics, which are often overlooked and simplified into an affine model during the controller design, significantly impact both the precision of the RLV models and the stability of the systems. To address these non-affine characteristics, as well as system uncertainties and disturbances, a fixed-time-synchronized controller (FTSC) with a time-varying parameter is designed to generate a virtual control signal. The time-varying parameter helps reduce control energy consumption and mitigates saturation issues by moderating the initial control input. Subsequently, a dynamic inversion subsystem is incorporated to generate the control input, ensuring fixed-time tracking of the virtual control signal. A closed-loop stability analysis of the system governed by the controller is provided, demonstrating fixed-time-synchronized convergence for the non-affine RLV system. Finally, numerical simulations are presented to illustrate the effectiveness and advantages of the proposed method. |
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| AbstractList | This study investigates a fixed-time-synchronized non-affine attitude tracking control scheme for reusable launch vehicles (RLVs). The non-affine characteristics, which are often overlooked and simplified into an affine model during the controller design, significantly impact both the precision of the RLV models and the stability of the systems. To address these non-affine characteristics, as well as system uncertainties and disturbances, a fixed-time-synchronized controller (FTSC) with a time-varying parameter is designed to generate a virtual control signal. The time-varying parameter helps reduce control energy consumption and mitigates saturation issues by moderating the initial control input. Subsequently, a dynamic inversion subsystem is incorporated to generate the control input, ensuring fixed-time tracking of the virtual control signal. A closed-loop stability analysis of the system governed by the controller is provided, demonstrating fixed-time-synchronized convergence for the non-affine RLV system. Finally, numerical simulations are presented to illustrate the effectiveness and advantages of the proposed method. |
| Author | Yin, Zhao Li, Dongyu Zhang, Puxi Wang, Wei Wang, Yuchen |
| Author_xml | – sequence: 1 givenname: Puxi surname: Zhang fullname: Zhang, Puxi email: zpx13316@icloud.com organization: School of Aerospace Engineering, Beijing Institute of Technology, Beijing, China – sequence: 2 givenname: Wei surname: Wang fullname: Wang, Wei email: Wangweiyh@bit.edu.cn organization: School of Aerospace Engineering, Beijing Institute of Technology, Beijing, China – sequence: 3 givenname: Yuchen surname: Wang fullname: Wang, Yuchen email: wycc@bit.edu.cn organization: Institute of Advanced Structure Technology, Beijing Institute of Technology, Beijing, China – sequence: 4 givenname: Dongyu surname: Li fullname: Li, Dongyu email: dongyuli@buaa.edu.cn organization: School of Cyber Science and Technology, Beihang University, Beijing, China – sequence: 5 givenname: Zhao surname: Yin fullname: Yin, Zhao email: yinzh@bit.edu.cn organization: School of Aerospace Engineering, Beijing Institute of Technology, Beijing, China |
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| Title | Fixed-Time-Synchronized Non-Affine Attitude Control for Reusable Launch Vehicles |
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