A Multi-Layer Control Scheme for a centralized UAV formation

This paper presents an application of the multi-layer control scheme to guide a formation of three unmanned aerial vehicles (UAV) in trajectory tracking missions. In such case, each part of the formation control problem is dealt by an individual layer, which is independent module dealing with a specific part of the navigation problem. These layers are responsible to generate the desired path of the formation, to provide the desired posture of the robots, and to establish the control signal of each robot to reach their desired positions. The formation controller here introduced is able to coordinate the robots to the desired formation, including the possibility of time-varying position and/or shape, while a nonlinear underactuated controller previously proposed is responsible to guide the UAVs to their desired positions. The stability analysis of the closed-loop system is demonstrated in the sense of Lyapunov, resulting that the formation errors are ultimately bounded. Finally, simulation results for a group of three quadrotors are presented and discussed to validate the proposed model and controller.