Algorithm of Myoelectric Signals Processing for the Control of Prosthetic Robotic Hands

J. Comput. Sci. Technol. Pub Date : 2018-04-25 DOI:10.24215/16666038.18.E04

Rodrigo E. Russo, J. Fernandez, R. Rivera

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引用次数: 11

Abstract

The development of robotic hand prosthetic aims to give back people with disabilities, the ability to recover the functionality needed to manipulate the objects of their daily environment. The electrical signals sent by the brain through the nervous system are associated with the type of movement that the limbs must execute. Myoelectric sensors are non-intrusive devices that allow the capture of electrical signals from the peripheral nervous system. The relationship between the signals originated in the brain tending to generate an action and the myoelectric ones as a result of them, are weakly correlated. For this reason, it is necessary to study their interaction in order to develop the algorithms that allow recognizing orders and transform them into commands that activate the corresponding movements of the prosthesis.The present work shows the development of a prosthesis based on the design of an artificial hand Open Bionics to produce the movements, the MyoWare Muscle sensor for the capture of myoelectric signals (EMG) and the algorithm that allows to identify orders associated with three types of movement. Arduino Nano module performs the acquisition and control processes to meet the size and consumption requirements of this application.

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假肢机械手控制中的肌电信号处理算法

机械手假肢的开发旨在让残疾人恢复操作日常环境中物体所需的功能。大脑通过神经系统发出的电信号与肢体必须执行的运动类型有关。肌电传感器是一种非侵入式设备，可以捕获来自周围神经系统的电信号。源自大脑的产生动作的信号和由此产生的肌电信号之间的关系是弱相关的。因此，有必要研究它们之间的相互作用，以便开发允许识别命令并将其转换为激活假肢相应运动的命令的算法。目前的工作展示了一种基于人造手Open Bionics设计的假肢的发展，用于产生运动，MyoWare肌肉传感器用于捕获肌电信号(EMG)，以及允许识别与三种运动相关的顺序的算法。Arduino Nano模块执行采集和控制过程，以满足本应用的大小和消耗要求。

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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J. Comput. Sci. Technol.

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