Development and dynamic state estimation for robotic knee-ankle orthosis with Shape memory alloy actuators

IF 2.9 3区工程技术 Q2 ENGINEERING, MECHANICAL Journal of Mechanical Design Pub Date : 2023-10-20 DOI:10.1115/1.4063565

Zhi Sun, Yuan Li, Bin Zi, Bing Chen

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Abstract

Abstract The development of rehabilitation robots has long been an issue of increasing interest in a wide range of fields. An important aspect of the ongoing research field is applying flexible components to rehabilitation equipment to enhance human−machine interaction. Another major challenge is to accurately estimate the individual’s intention to achieve safe operation and efficient training. In this article, a robotic knee−ankle orthosis (KAO) with shape memory alloy (SMA) actuators is developed, and the estimation method is proposed to determine the joint torque. First, based on the analysis of human lower limb structure and walking patterns, the mechanical design of the KAO that can achieve various rehabilitation training modes is detailed. Next, the dynamic model of the hybrid-driven KAO is established using the thermodynamic constitutive equation and Lagrange formalism. In addition, the joint torque estimation is realized by the nonlinear Kalman filter method. Finally, the prototype and human subject experiments are conducted, and the experimental results demonstrate that the KAO can assist lower limb movements. In the three experimental scenarios, reductions of 59.1%, 16.5%, and 73% of the torque estimation error during the knee joint movement are observed, respectively.

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形状记忆合金机器人膝关节矫形器的研制与动态估计

长期以来，康复机器人的发展一直受到广泛领域的关注。目前研究领域的一个重要方面是将柔性部件应用于康复设备以增强人机交互。另一个主要挑战是准确估计个人的意图，以实现安全操作和有效的培训。研制了一种带有形状记忆合金(SMA)作动器的机器人膝踝矫形器(KAO)，并提出了确定关节力矩的估计方法。首先，在分析人体下肢结构和行走方式的基础上，对能够实现多种康复训练模式的花王进行了详细的机械设计。其次，利用热力学本构方程和拉格朗日形式建立了混合驱动KAO的动力学模型。此外，采用非线性卡尔曼滤波方法实现了关节力矩的估计。最后，进行了原型机和人体实验，实验结果表明，KAO能够辅助下肢运动。在三种实验场景下，膝关节运动时的扭矩估计误差分别降低了59.1%、16.5%和73%。

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来源期刊

Journal of Mechanical Design 工程技术-工程：机械

CiteScore

8.00

自引率

18.20%

发文量

139

审稿时长

3.9 months

期刊介绍： The Journal of Mechanical Design (JMD) serves the broad design community as the venue for scholarly, archival research in all aspects of the design activity with emphasis on design synthesis. JMD has traditionally served the ASME Design Engineering Division and its technical committees, but it welcomes contributions from all areas of design with emphasis on synthesis. JMD communicates original contributions, primarily in the form of research articles of considerable depth, but also technical briefs, design innovation papers, book reviews, and editorials. Scope: The Journal of Mechanical Design (JMD) serves the broad design community as the venue for scholarly, archival research in all aspects of the design activity with emphasis on design synthesis. JMD has traditionally served the ASME Design Engineering Division and its technical committees, but it welcomes contributions from all areas of design with emphasis on synthesis. JMD communicates original contributions, primarily in the form of research articles of considerable depth, but also technical briefs, design innovation papers, book reviews, and editorials.