An ANFIS based inverse modeling for pneumatic artificial muscles

C. V. Baysal
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Abstract

Pneumatic Artificial Muscles (PAM) are soft actuators with advantages of high force to weight ratio, flexible structure and low cost. On the other hand, their inherent nonlinear characteristics yield difficulties in modeling and control actions, which is an important factor restricting use of PAM. In literature, there are various modeling approaches such as virtual work , empirical and phenomenological models. However, they appear as either much complicated or are approximate ones as a variable stiffness spring for model with nonlinear input-output relationship. In this work, the behaviour of PAM is interpreted as an integrated response to pressure input that results in a simultaneous force and muscle length change. The integrated response behaviour of PAM is not combined effectively in terms of simultaneous resultant force and muscle contraction in many existing models. In order to implement that response, standard identification methods , for instance NNARX, are not suitable for modeling this behaviour. Moreover, an inverse modeling with grey box approach is proposed in order to utilize the model in control applications. Since Neuro-Fuzzy inference systems are universal estimators, the modeling is implemented by an ANFIS structure using the experimental data collected from PAM test bed. According to implementation results, the ANFIS based inverse model has yielded satisfactory performance deducing that it could be a simple and effective solution for PAM modeling and control issue.
基于ANFIS的气动人工肌肉逆建模
气动人工肌肉(PAM)是一种具有力重比高、结构灵活、成本低等优点的柔性执行器。另一方面,它们固有的非线性特性给建模和控制行为带来了困难,这是制约PAM应用的重要因素。在文献中,有各种建模方法,如虚拟功,经验和现象学模型。但对于具有非线性输入输出关系的模型,它们要么过于复杂,要么近似为变刚度弹簧。在这项工作中,PAM的行为被解释为对压力输入的综合响应,导致同时的力和肌肉长度变化。在现有的许多模型中,PAM的综合响应行为在同时合力和肌肉收缩方面没有得到有效的结合。为了实现这种响应,标准的识别方法,例如NNARX,不适合对这种行为进行建模。在此基础上,提出了一种基于灰盒法的逆建模方法,以便将该模型应用于控制中。由于神经模糊推理系统是通用估计器,因此利用PAM试验台收集的实验数据,通过ANFIS结构实现建模。实现结果表明,基于ANFIS的反模型取得了满意的效果,是解决PAM建模与控制问题的一种简单有效的方法。
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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