气动人工肌肉执行器改进模型的评价

L. Peternel, B. Ugurlu, J. Babič, J. Morimoto
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引用次数: 4

摘要

在本文中,我们提出了关于气动空气肌肉建模的分析,特别强调外骨骼机器人的控制。我们提出了两种校准方法来获得模型识别数据。我们使用从所提出的方法中获得的测量数据来识别不同的气动肌肉数学模型。这些模型指定了在给定肌肉长度值下所需肌肉力的必要肌肉控制压力。我们比较了两种校准方法所识别的不同类型模型之间的性能。将验证误差最小的辨识模型应用于肘关节外骨骼系统的气动肌肉控制。结果表明,系统表现出令人满意的转矩和位置控制任务,充分验证了所提出的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessments on the improved modelling for pneumatic artificial muscle actuators
In this paper, we present an analysis regarding the pneumatic air muscle modelling, with a particular emphasis on the exoskeleton robot control. We propose two calibration approaches for obtaining the model identification data. We used the measurement data acquired from the proposed approaches to identify different mathematical models of pneumatic muscles. These models specified the necessary muscle control pressure for the desired muscle force at a given muscle length value. We compared the performance between the different types of models identified by either of the calibration method. The identified model with the lowest validation error was implemented in pneumatic muscle control for an elbow exoskeleton system. As a result, the system exhibited satisfactory torque and position control tasks, adequately validating the proposed approach.
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