弹道
跟踪(教育)
控制理论(社会学)
事件(粒子物理)
计算机科学
控制(管理)
主题(文档)
控制工程
航空学
工程类
人工智能
心理学
物理
教育学
量子力学
图书馆学
天文
作者
Peng Zhao,Zean Bao,Xinzhi Liu,Jingyao Zhang,Kaiquan Cai
摘要
ABSTRACT This article investigates the trajectory tracking control problem for quadrotor UAVs using the dynamic event‐triggered control approach. Unlike existing results, the dynamic event‐triggered control strategy proposed in this work ensures that the trajectory tracking error of quadrotor UAVs converges to zero asymptotically for a class of external disturbances. Specifically, an event‐triggered mechanism is introduced in the position loop to reduce the resource transmission consumption. To address the non‐differentiable nature of the event‐triggered signal, a fourth‐order linear system model for the position loop is derived, ensuring the existence of a twice‐differentiable acceleration reference which is essential for the attitude loop. Subsequently, based on the internal model principle, we develop a class of dynamic event‐triggered control strategies with dynamic triggering mechanisms. Furthermore, to handle the challenges posed by the unknown parameters and external perturbations within the attitude‐loop subsystem, a robust adaptive dynamic control law is implemented based on the attitude rotation matrix. Rigorous Lyapunov analysis demonstrates that the overall control approach ensures asymptotic stability of the closed‐loop system. Finally, we verify the effectiveness and robustness of the controller through numerical simulations.
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