用准ddp最优控制控制气动肌肉驱动的多关节臂

2016 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) Pub Date : 2016-10-09 DOI:10.1109/IROS.2016.7759103

Ganesh Kumar Hari Shankar Lal Das, B. Tondu, Florent Forget, Jérôme Manhes, O. Stasse, P. Souéres

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引用次数: 10

摘要

气动执行器具有固有的顺应性，因此它们对于涉及与环境或人的相互作用的应用非常有趣。但是控制这类驱动器并非易事。本文提出了一种基于迭代线性二次调节器(iLQR)的最优控制框架，用于控制每个关节由一对激动-拮抗Mckibben人造肌肉驱动的拟人手臂。将该方法应用于定位任务和以最大连杆速度生成爆炸动作。然后将其与传统控制策略进行比较，证明了最优控制在高度非线性气动系统中的位置控制是有效的。此外，通过在不同的遵从性级别重复任务，强调了不同遵从性的重要性。本文通过仿真和硬件实验对该算法进行了验证，其中肩关节和肘关节的屈曲同时得到了控制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Controlling a multi-joint arm actuated by pneumatic muscles with quasi-DDP optimal control

Pneumatic actuators have inherent compliance and hence they are very interesting for applications involving interaction with environment or human. But controlling such kind of actuators is not trivial. The paper presents an implementation of iterative Linear Quadratic regulator (iLQR) based optimal control framework to control an anthropomorphic arm with each joint actuated by an agonist-antagonistic pair of Mckibben artificial muscles. The method is applied to positioning tasks and generation of explosive movements by maximizing the link speed. It is then compared to traditional control strategies to justify that optimal control is effective in controlling the position in highly non-linear pneumatic systems. Also the importance of varying compliance is highlighted by repeating the tasks at different compliance level. The algorithm validation is reported here by several simulations and hardware experiments in which the shoulder and elbow flexion are controlled simultaneously.

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来源期刊

2016 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

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