Design and embedded control of a soft elbow exosuit

2018 IEEE International Conference on Soft Robotics (RoboSoft) Pub Date : 2018-04-24 DOI:10.1109/ROBOSOFT.2018.8405386

D. Chiaradia, M. Xiloyannis, C. W. Antuvan, A. Frisoli, L. Masia

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引用次数: 62

Abstract

The use of soft materials to transmit power to the human body has numerous advantages, amongst which safety and kinematic transparency stand out. In previous work we showed that a tethered fabric-based exosuit for the elbow joint, driven by an electric motor through a Bowden cable transmission, reduces the muscular effort associated with flexion movements by working in parallel with its wearer's muscles. We herein propose a refined design of the suit and present an untethered control architecture for gravity compensation and motion-intention detection. The architecture comprises four interconnected modules for power management, low-level motor control and high-level signal processing and data streaming. The controller uses a silicone stretch sensor and a miniature load cell, integrated in the fabric frame, to estimate and minimise the torque that its user needs to exert to perform a movement. We show that the device relieves its wearer from an average of 77% of the total moment required to sustain and move a light weight, with a consequent average reduction in muscular effort of 64.5%.

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柔性肘部外护服的设计与嵌入式控制

使用软材料向人体传输能量有许多优点，其中安全性和运动透明性突出。在之前的工作中，我们展示了一种用于肘关节的系绳织物外穿服，通过鲍登电缆传输由电动机驱动，通过与穿着者的肌肉平行工作，减少了与弯曲运动相关的肌肉消耗。在此，我们提出了一种改进的宇航服设计，并提出了一种用于重力补偿和运动意图检测的无系绳控制架构。该架构包括四个相互连接的模块，用于电源管理、低级电机控制和高级信号处理和数据流。控制器使用硅胶拉伸传感器和微型称重传感器，集成在织物框架中，以估计和最小化其用户需要施加的扭矩来执行运动。我们的研究表明，该装置使佩戴者平均减少了维持和移动轻重量所需总力矩的77%，从而平均减少了64.5%的肌肉消耗。

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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2018 IEEE International Conference on Soft Robotics (RoboSoft)

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