A Model Inversion Procedure for Control of Nonlinear Series Elastic Actuators

Christopher Jarrett, A. McDaid
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引用次数: 2

Abstract

This paper presents a model inversion procedure for a viscoelastic compliant element contained within a rotary series elastic actuator (SEA). Model inversion plays an important role in enabling accurate model-based control of physical human-robot interaction (HRI) with SEAs. If the compliant element of the SEA is elastomeric, analytically inverting its model is non-trivial due to the presence of complex non-linear terms. This paper applies an alternative inversion procedure, by coupling a partially analytical inverse model with a disturbance observer (DOB). Results of inverting without a DOB are given as a baseline and compared to the analytical inversion + DOB with two different types of filter. To quantify the accuracy of the inversion, the output of the inversion procedure is passed back through the forward model to identify the ‘actual setpoint’, the signal that would be generated if the output of the inversion procedure was tracked accurately. The inversions for five desired torque signals are presented; in all cases, the root-mean square (RMS) error between the desired setpoint and actual setpoint is lower when the DOB inversion procedure is used, compared to the RMS error incurred when the DOB is omitted. The results suggest that the proposed inversion procedure provides an accurate and mathematically tractable inverse of the complex viscoelastic elastomer model.
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非线性串联弹性作动器控制的模型反演方法
提出了旋转串联弹性作动器中粘弹性柔性单元的模型反演方法。模型反演对于实现基于模型的精确控制具有重要意义。如果SEA的柔性单元是弹性体,由于存在复杂的非线性项,对其模型进行解析反演是非常困难的。本文采用了另一种反演方法,即将部分解析逆模型与扰动观测器(DOB)耦合。没有DOB的反演结果作为基线,并与两种不同类型的滤波器的解析反演+ DOB进行比较。为了量化反演的准确性,反演过程的输出通过正演模型传回来确定“实际设定值”,即如果准确跟踪反演过程的输出将产生的信号。给出了五种期望转矩信号的反演;在所有情况下,与省略DOB时产生的RMS误差相比,使用DOB反演过程时期望设定值与实际设定值之间的均方根误差(RMS)更低。结果表明,所提出的反演方法提供了一个精确的、数学上易于处理的复杂粘弹性弹性体模型的反演。
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