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基于最优全驱动系统方法的机器人机械臂轨迹跟踪控制

Optimal Fully Actuated System Approach-Based Trajectory Tracking Control for Robot Manipulators

IEEE Transactions on Cybernetics · 2024
被引 86 · 同刊同年前 3%
ABS 3

中文导读

针对机器人机械臂的轨迹跟踪问题,提出一种结合全驱动系统与高阶扰动观测器的复合控制策略,并通过梯度优化方法调整控制器参数以满足物理约束。

Abstract

In this article, a trajectory tracking control strategy is proposed for robot manipulators via a fully actuated system (FAS) approach, which has shown its simplicity and flexibility for most of the nonlinear controller design. However, the motion control for robot manipulators is more complicated since unknown dynamical model, external disturbances, friction forces, and various physical constraints are required to be considered. Therefore, the FAS approach cannot be straightforwardly applied. To address these challenges, the dynamic model of robot manipulators is established via model identification methods. Furthermore, based on the identified model, an FAS composite control strategy with simple structure is designed, which is achieved by integrating a high-order disturbance observer (HODO) in the inner loop, with an FAS trajectory tracking controller in the outer loop. Specifically, the HODO is utilized for handling the uncertain dynamics and external disturbances. Moreover, the controller gains are optimized using a gradient-based optimal parameter tuning method (OPTM). By imposing joint angle constraints, joint angular velocity constraints, and input torque limits into the formulation, the OPTM also ensures the satisfaction of these physical constraints. Numerical simulations and experiments are provided to validate the performance of the proposed controller.

机器人控制轨迹跟踪非线性控制扰动观测器