固定翼无人机协同路径跟踪控制

Coordinated Path-Following Control of Fixed-Wing Unmanned Aerial Vehicles

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2021
被引 73
ABS 3

中文导读

研究了二维平面中固定翼无人机在速度约束下的协同路径跟踪问题,提出混合控制律使无人机在协调层和单机层工作,并通过硬件在环仿真验证了有效性。

Abstract

This article investigates the problem of coordinated path following for fixed-wing unmanned aerial vehicles (UAVs) with speed constraints in the two-dimensional plane. The objective is to steer a fleet of UAVs along the path(s) while achieving the desired sequenced inter-UAV arc distance. In contrast to the previous coordinated path-following studies, we are able through our proposed hybrid control law to deal with the forward speed and the angular speed constraints of fixed-wing UAVs. More specifically, the hybrid control law makes all the UAVs work at two different levels: 1) those UAVs whose path-following errors are within an invariant set (i.e., the designed coordination set) work at the coordination level and 2) the other UAVs work at the single-agent level. At the coordination level, we prove that even with speed constraints, the proposed control law can make sure the path-following errors reduce to zero, while the inter-UAV arc distances converge to the desired value. At the single-agent level, analysis for the path-following error entering the coordination set is provided. We develop a hardware-in-the-loop simulation testbed of the multi-UAV system by using actual autopilots and the X-Plane simulator. The effectiveness of the proposed approach is corroborated with both numerical simulation and the testbed.

无人机协同控制路径跟踪混合控制