Prescribed Performance Control for USV-UAV via a Robust Bounded Compensating Technique
Guoqing Zhang, Yingshuo Xing, Weidong Zhang, Jiqiang Li
Abstract
In this paper, to effectively implement the environmental monitoring mission around the perimeter of a rocky area, a prescribed performance control (PPC) scheme is proposed for an unmanned surface vehicle-unmanned aerial vehicle (USV-UAV) system using the robust bounded compensation technique (RBCT). Firstly, a grid cell guidance law is introduced for rocky area scanning, considering the heterogeneous system's differing maneuverability. The grid cell undergoes a comprehensive calculation process to ensure it meets operational requirements. Subsequently, a prescribed performance control scheme based on RBCT is proposed to reduce design and computational complexity. A novel prescribed performance function is developed to regulate transient performance and initial errors. RBCT is employed not only to eliminate system uncertainties but also to resolve the ‘calculation explosion’ problem, thereby simplifying the control design. The system's global stability is proved via Lyapunov theory. Simulation results demonstrate the effectiveness of the PPC-RBCT scheme.