利用指数坐标实现刚体的几乎全局镇定

On the Almost-Global Stabilization of Rigid Bodies Using Exponential Coordinates

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2026
被引 1 · 同刊同年前 7%
ABS 3

中文导读

针对四旋翼、航天器等刚体的姿态稳定问题,利用旋转指数坐标设计非线性控制器,实现几乎全局指数稳定,并处理常值扰动和跟踪问题,仿真与实验验证了有效性。

Abstract

This article addresses the attitude stabilization problem of fully actuated rigid bodies such as quadrotors, spacecraft, or satellites. To describe the attitude of the rigid body, we employ the exponential coordinates of rotation. By exploiting the properties of kinematic and dynamic models, we design a nonlinear attitude controller that guarantees almost global exponential stability (aGES) of the closed-loop dynamics. We also consider the case when the attitude dynamics are subject to constant disturbances. To counteract the external disturbance, we modify the attitude control law to include an integral action that rejects the disturbance and achieves aGES. In addition, we show that the stabilization control law can be extended to address the attitude-tracking problem. Using barrier Lyapunov functions, we demonstrate that the proposed control algorithms avoid the singularity of the exponential coordinates during the transient response. We propose strict Lyapunov functions to prove the aGES of the origin of the closed-loop dynamics. Numerical simulations and experimental results performed on a commercial small aerial robot assessed the effectiveness and feasibility of the proposed control laws.

控制理论非线性系统姿态控制刚体动力学