TY - GEN
T1 - Research on Formation Generation Algorithm of Hypersonic Gliding Vehicle Based on Fixed-time Sliding Mode Control
AU - Luo, Yifan
AU - Zhang, Zhen
AU - Qu, Yaohong
N1 - Publisher Copyright:
© 2024 Technical Committee on Control Theory, Chinese Association of Automation.
PY - 2024
Y1 - 2024
N2 - In this paper, the formation generation problem of multiple hypersonic gliding vehicles (HGVs) and its research basis are first presented. Subsequently, the formation coordinate system and the particle motion model as well as the dynamics model of HGVs are established. Then a multiple HGVs formation generation algorithm based on fixed-time sliding-mode control is proposed, in which a novel sliding-mode surface is first introduced, and by using a second-order intelligent body model, the virtual formation control inputs in the pilot-follower mode is derived, and the error is proved to be able to converge quickly by the Lyapunov function. Subsequently, the virtual control inputs are substituted into the actual kinematic model of the HGVs to obtain the actual control commands: the attack angle command and the bank angle command, which are applied to each HGV to realize the HGVs to achieve the desired formation shape. Finally, through numerical simulations, two formation flight modes are realized, and then the algorithm in this paper is simulated and compared with the common sliding mode control algorithm, which further verifies the effectiveness and superiority of the algorithm proposed in this paper in the problem of HGVs formation generation.
AB - In this paper, the formation generation problem of multiple hypersonic gliding vehicles (HGVs) and its research basis are first presented. Subsequently, the formation coordinate system and the particle motion model as well as the dynamics model of HGVs are established. Then a multiple HGVs formation generation algorithm based on fixed-time sliding-mode control is proposed, in which a novel sliding-mode surface is first introduced, and by using a second-order intelligent body model, the virtual formation control inputs in the pilot-follower mode is derived, and the error is proved to be able to converge quickly by the Lyapunov function. Subsequently, the virtual control inputs are substituted into the actual kinematic model of the HGVs to obtain the actual control commands: the attack angle command and the bank angle command, which are applied to each HGV to realize the HGVs to achieve the desired formation shape. Finally, through numerical simulations, two formation flight modes are realized, and then the algorithm in this paper is simulated and compared with the common sliding mode control algorithm, which further verifies the effectiveness and superiority of the algorithm proposed in this paper in the problem of HGVs formation generation.
KW - fixed-time
KW - formation generation
KW - Hypersonic gliding vehicle
KW - sliding surface
UR - http://www.scopus.com/inward/record.url?scp=85205474223&partnerID=8YFLogxK
U2 - 10.23919/CCC63176.2024.10661600
DO - 10.23919/CCC63176.2024.10661600
M3 - 会议稿件
AN - SCOPUS:85205474223
T3 - Chinese Control Conference, CCC
SP - 5877
EP - 5882
BT - Proceedings of the 43rd Chinese Control Conference, CCC 2024
A2 - Na, Jing
A2 - Sun, Jian
PB - IEEE Computer Society
T2 - 43rd Chinese Control Conference, CCC 2024
Y2 - 28 July 2024 through 31 July 2024
ER -