Time delay compensation for tendon-driven bilateral control using modal decomposition and communication disturbance observer

Keita Shimamoto, Yoshiki Ohno, T. Nozaki, K. Ohnishi
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Abstract

Master-slave robots with transmission of force sensation have gotten a lot of attention. 4ch-bilateral control realizes the transmission. Realizing lightweight multi-DOF robots for the system and compensating adverse effects based on communication delay are challenges for the system. For realizing lightweight multi-DOF robots, tendon-driven mechanisms are suitable as driven systems and driving systems can be separated. In order to compensate the adverse effects from communication delay, communication disturbance observer (CDOB) can be applied. CDOB requires slave system model. As it is difficult to make a model of force acting on slave system is difficult, CDOB is not appropriate for force control. However, tension control is based on force control. Therefore, in this paper, a time delay compensation method for bilateral control system with tendon-driven mechanisms is proposed. In this method, tension control and CDOB are constructed in different mode, which are independent of each other. The experimental results of the proposed method show the validity. Strings were strained with desired force by the tension control, and the adverse effects of communication disturbance was compensated by CDOB.
基于模态分解和通信干扰观测器的肌腱驱动双边控制时滞补偿
具有力感传递能力的主从机器人受到了广泛的关注。4ch双向控制,实现传动。为系统实现轻量化的多自由度机器人以及基于通信延迟的不利影响补偿是系统面临的挑战。为了实现轻量化的多自由度机器人,肌腱驱动机构适合作为驱动系统,并且驱动系统可以分离。为了补偿通信延迟的不利影响,可以采用通信干扰观测器(CDOB)。CDOB需要从系统模型。由于难以建立作用于从系统的力的模型,CDOB不适合用于力的控制。然而,张力控制是以力控制为基础的。因此,本文提出了一种肌腱驱动双侧控制系统的时滞补偿方法。在该方法中,张力控制和CDOB以相互独立的不同模式构建。实验结果表明了该方法的有效性。通过张力控制使琴弦达到所需的张力,并通过CDOB补偿通信干扰的不利影响。
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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