Safe High Stiffness Impedance Control for Series Elastic Actuators using Collocated Position Feedback

IF 1 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEJ Journal of Industry Applications Pub Date : 2023-07-01 DOI:10.1541/ieejjia.22008067

Razvan Andrei Budau Petrea, Roberto Oboe, Giulia Michieletto

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引用次数: 0

Abstract

Physical human-robot interaction applications requiring safety and compliance characteristics usually employ mechanical devices such as series elastic actuators (SEAs). So far, impedance control schemes for SEAs have been investigated to overcome the limited displayable stiffness at the end point, represented by the stiffness of a physical spring, in a passive manner. SEAs usually mount two encoders on both the motor and load sides for position measurements. However, in several applications, the installation of a load-side encoder is not feasible from both cost and manufacturing perspectives. In this scenario, a Kalman Filter based on micro electro mechanical system accelerometers has been proposed for estimating the external force and load side quantities, without the need for load-side encoders. Herein, a novel impedance control scheme leveraging this approach is proposed to effectively overcome the stiffness of the physical spring while maintaining passivity at the end point. Compared with conventional load-side encoder-based impedance control schemes, the proposed control scheme presents comparable performance, as demonstrated by simulation and experimental results.

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基于位置反馈的串联弹性作动器安全高刚度阻抗控制

要求安全性和顺应性的物理人机交互应用通常采用串联弹性致动器(SEAs)等机械装置。到目前为止，已经研究了用于SEAs的阻抗控制方案，以克服以被动方式在端点以物理弹簧的刚度表示的有限显示刚度。SEAs通常在电机和负载两侧安装两个编码器以进行位置测量。然而，在一些应用中，从成本和制造角度来看，安装负载侧编码器是不可行的。在这种情况下，提出了一种基于微机电系统加速度计的卡尔曼滤波器，用于估计外力和负载侧量，而不需要负载侧编码器。本文提出了一种新的阻抗控制方案，利用这种方法有效地克服了物理弹簧的刚度，同时保持了端点的无源性。仿真和实验结果表明，该控制方案与传统的基于负载侧编码器的阻抗控制方案具有相当的性能。

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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来源期刊

IEEJ Journal of Industry Applications ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

2.80

自引率

17.60%

发文量

期刊介绍： IEEJ Journal of Industry Applications: Power Electronics - AC/AC Conversion and DC/DC Conversion, - Power Semiconductor Devices and their Application, - Inverters and Rectifiers, - Power Supply System and its Application, - Power Electronics Modeling, Simulation, Design and Control, - Renewable Electric Energy Conversion　　　 Industrial System - Mechatronics and Robotics, - Industrial Instrumentation and Control, - Sensing, Actuation, Motion Control and Haptics, - Factory Automation and Production Facility Control, - Automobile Technology and ITS Technology, - Information Oriented Industrial System Electrical Machinery and Apparatus - Electric Machines Design, Modeling and Control, - Rotating Motor Drives and Linear Motor Drives, - Electric Vehicles and Hybrid Electric Vehicles, - Electric Railway and Traction Control, - Magnetic Levitation and Magnetic Bearing, - Static Apparatus and Superconductive Application Publishing Ethics of IEEJ Journal of Industry Applications: 　　　 Code of Ethics on IEEJ IEEJ Journal of Industry Applications is a peer-reviewed journal of IEEJ (the Institute of Electrical Engineers of Japan). The publication of IEEJ Journal of Industry Applications is an essential building article in the development of a coherent and respected network of knowledge. It is a direct reflection of the quality of the work of the authors and the institutions that support them. IEEJ Journal of Industry Applications has "Peer-reviewed articles support." It is therefore important to agree upon standards of expected ethical behavior for all parties involved in the act of publishing: the author, the journal editor, the peer reviewer and IEEJ (the Institute of Electrical Engineers of Japan).