A Modified Model-Free Adaptive Control Method for Large-Scale Morphing Unmanned Vehicles
H Che, J Chen, G Bai, J Wang - Drones, 2023 - mdpi.com
This paper investigates the attitude control problem for large-scale morphing unmanned
vehicles. Considering the rapid time-varying and strong aerodynamic interference caused …
vehicles. Considering the rapid time-varying and strong aerodynamic interference caused …
Data‐driven model‐free adaptive attitude control for morphing vehicles
H Che, J Chen, Y Wang, J Wang… - IET Control Theory & …, 2022 - Wiley Online Library
This paper investigates the attitude control problem of the morphing vehicle subject to great
dynamics changes and disturbances during the morphing phase. An improved model‐free …
dynamics changes and disturbances during the morphing phase. An improved model‐free …
Control design for the autonomous horizontal takeoff phase of the reusable launch vehicles
S An, K Liu, Y Fan, J Guo, Z She - IEEE Access, 2020 - ieeexplore.ieee.org
The control system design for the reusable launch vehicles (RLVs), especially in the
autonomous horizontal takeoff phase, is a highly challenging task. Significant issues arise …
autonomous horizontal takeoff phase, is a highly challenging task. Significant issues arise …
Predictor–Corrector Guidance for a Hypersonic Morphing Vehicle
D Yao, Q Xia - Aerospace, 2023 - mdpi.com
In an effort to address the problem of hypersonic morphing vehicles reaching the target
while avoiding no-fly zones, an improved predictor–corrector guidance method is proposed …
while avoiding no-fly zones, an improved predictor–corrector guidance method is proposed …
变体飞行器智能变形与飞行控制技术研究进展.
甄子洋, 刘攀, 陆宇平 - Journal of Nanjing University of …, 2022 - search.ebscohost.com
变体飞行器在航空, 航天和兵器等领域具有极为重要的应用前景. 智能变形与飞行控制技术是
包含众多学科和应用的综合性技术. 首先归纳了变体飞行器的具体分类及特性 …
包含众多学科和应用的综合性技术. 首先归纳了变体飞行器的具体分类及特性 …