Incremental PI-like Fuzzy Logic Control of a Vacuum-Powered Artificial Muscle for Soft Exoskeletons

2023 IEEE International Conference on Advanced Robotics and Its Social Impacts (ARSO) Pub Date : 2023-06-05 DOI:10.1109/ARSO56563.2023.10187413

Esteban Centeno, Mijaíl Jaén Mendoza, Cesar F. Pinedo, Wangdo Kim, E. Roche, E. Vela

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Abstract

Newborns with lower limb motor deficiencies do need rehabilitation. Soft exoskeletons based on soft artificial muscles are promising for this purpose. However, the highly non-linear dynamic behavior of their system makes very difficult to obtain an accurate model to be controlled. This paper proposes to use a free-model method called Incremental PI-Like Fuzzy logic controller (PI-Like FLC). This variation facilitates the design and interpretation of the fuzzy rules; furthermore, we were capable of using optimization algorithms and fuzzy-C-means to obtain the fuzzy sets and membership functions based on data obtained from a previously tuned PID controller. The PI-Like FLC was physically implemented on infant dummies of 0 and 6 months of age to control the knee flexion-extension motion, and a PID was used as a comparison. The results demonstrate a successful tracking control and exhibit robustness against parametric uncertainties and disturbances for both dummies' motion without the need of tuning the controller.

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软性外骨骼真空动力人工肌肉的增量式pi模糊逻辑控制

患有下肢运动缺陷的新生儿确实需要康复。基于软人造肌肉的软外骨骼有望实现这一目的。然而，其系统的高度非线性动态特性使得很难获得精确的模型进行控制。本文提出了一种自由模型方法，称为增量式PI-Like模糊逻辑控制器(PI-Like FLC)。这种变化有利于模糊规则的设计和解释;此外，我们能够使用优化算法和fuzzy- c -means来获得基于先前调谐PID控制器获得的数据的模糊集和隶属函数。在0和6个月大的婴儿假人身上物理实施PI-Like FLC来控制膝关节屈伸运动，并使用PID作为比较。结果证明了一个成功的跟踪控制，并且在不需要调整控制器的情况下，对两个假人的运动表现出对参数不确定性和干扰的鲁棒性。

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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2023 IEEE International Conference on Advanced Robotics and Its Social Impacts (ARSO)

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