Fixed-Time Disturbance Observer-Based MPC Robust Trajectory Tracking Control of Quadrotor
Liwen Xu, Bailing Tian, Cong Wang, Junjie Lu, Dandan Wang, Zhiyu Li, Qun Zong
Abstract
In this article, a fixed-time disturbance observer-based model predictive control algorithm is proposed for trajectory tracking of quadrotor in the presence of disturbances. First, a novel multivariable fixed-time disturbance observer is proposed to estimate the lumped disturbances. The bi-limit homogeneity and Lyapunov techniques are employed to ensure the convergence of estimation error within a fixed convergence time, independent of the initial estimation error. Then, an observer-based model predictive control strategy is formulated to achieve robust trajectory tracking of quadrotor, attenuating the lumped disturbances and model uncertainties. Finally, simulations and real-world experiments are provided to illustrate the effectiveness of the proposed method.