异构连续机器人的行为预定义自适应控制

Ning Tan, Peng Yu, Xin Wang, Kai Huang
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摘要

连续机器人因其灵巧性和顺应性,在各个领域都具有巨大的应用价值和广阔的发展前景。要充分发挥其优势,为其开发一套有效、精确和稳健的控制系统至关重要。然而,连续体机器人控制的研究仍处于起步阶段,该领域还有许多问题尚未解决。本文特别关注异构连续机器人的任务空间行为和通用控制。首先,本文提出了一种控制器,用于实现具有预定义任务空间行为的连续机器人的运动控制和视觉伺服。预定义行为包括两个方面:规定的任务空间误差和预定义的收敛时间。然后,将所提出的控制器与速度级运动映射估计器相结合,得到一个适用于异构连续机器人的无模型控制系统。此外,还提出了一个可重新调整的性能函数,以确保所提控制系统在外部干扰下的有效性和鲁棒性。最后,基于异构连续机器人(包括电缆驱动连续机器人、并联连续机器人、同心管机器人、柔性内窥镜和气动连续机器人)进行了大量模拟和实验。结果表明,异构连续机器人的任务空间误差符合规定边界,并在预定时间内收敛到稳态,这揭示了所提控制方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Behavior-predefined adaptive control for heterogeneous continuum robots
Continuum robots have great application value and broad prospects in various fields due to their dexterity and compliance. To fully exploit their advantages, it is crucial to develop an effective, accurate and robust control system for them. However, research on continuum robot control is still in its infancy and there are many problems remaining unsolved in this field. In particular, this paper focuses on the task-space behavior and the generic control of heterogeneous continuum robots. First, a controller is proposed to achieve the kinematic motion control and visual servoing of continuum robots with predefined task-space behavior. The predefined behavior is twofold: prescribed task-space error and predefined convergence time. Then, the proposed controller is integrated with a velocity-level kinematic mapping estimator to obtain a model-free control system, which is applicable to heterogeneous continuum robots. Furthermore, a re-adjustable performance function is proposed to ensure the effectiveness and robustness of the proposed control system in the presence of external disturbance. Finally, extensive simulations and experiments are performed based on heterogeneous continuum robots, including the cable-driven continuum robot, the parallel continuum robot, the concentric-tube robot, the flexible endoscope, and the pneumatic continuum robot. Our results demonstrate that the task-space error of heterogeneous continuum robots complies with the prescribed boundaries and converges to steady state in predefined time, which reveals the efficacy of the proposed control method.
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