Virtual Nonholonomic Constraints-Based Motion Control for Underactuated UAV Slung-Payload Systems
成果类型:
Article
署名作者:
Kang, Junjie; Shan, Jinjun
署名单位:
York University - Canada
刊物名称:
IEEE TRANSACTIONS ON AUTOMATIC CONTROL
ISSN/ISSBN:
0018-9286
DOI:
10.1109/TAC.2025.3571641
发表日期:
2025
页码:
7047-7054
关键词:
trajectory
Autonomous aerial vehicles
Payloads
MANIFOLDS
asymptotic stability
system dynamics
transportation
Trajectory planning
tracking
DYNAMICS
underactuated systems
uncrewed aerial vehicle (UAV)
virtual nonholonomic constraints (VNHC)
摘要:
The uncrewed aerial vehicle (UAV) slung-payload transportation system, characterized by highly nonlinear and coupled dynamics, poses a significant control challenge due to the two-degree underactuation of the tethered payload. This note investigates online trajectory generation and control for this system, focusing on the asymptotic stabilization of both the actuated UAV's positions and the unactuated payload's swings. First, we introduce a virtual nonholonomic constraint (VNHC)-based approach to generate smooth UAV trajectories. This approach simplifies the design by operating on a lower dimensional system, thereby bypassing the complexities of the original high-dimensional underactuated system. Second, a continuous fixed-time tracking controller is designed to drive the system dynamics onto the VNHC and to ensure its invariance. The rigorous asymptotic stability of the closed-loop system is analyzed using Lyapunov techniques and Barbalat's lemma. Numerical and experimental studies are conducted to evaluate the performance of the proposed approach.