利用人工神经网络建立肌电信号与驱动信号的简化函数关系

2014 13th Mexican International Conference on Artificial Intelligence Pub Date : 2014-11-16 DOI:10.1109/MICAI.2014.26

Raul Almada-Aguilar, L. Torres-Treviño, G. Quiroz

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引用次数: 0

摘要

在过去的几十年里，使用肌电信号作为控制信号已经被广泛接受。通过广泛的技术，肌电信号可以用于各种实际方法，从假肢到外骨骼，但是肌电信号与上肢的动态和运动学方面之间的具体功能关系尚未建立。如今，几乎所有使用肌电图信号的设备都将其用于分类。在这项工作中，我们将傅里叶分析与其他信号处理工具结合使用来处理肌电图信号，然后将处理后的信号用作人工神经网络的输入，以建立肌电图与上肢之间的简化函数关系。为了比较，我们还采用了其他传统的信号处理方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Establishing a Simplified Functional Relationship between EMG Signals and Actuation Signals Using Artificial Neural Networks

Using EMG signals as control signals has been a widely accepted option in the last decades. Using a wide array of techniques, EMG signals can be used in a variety of practical ways, from prostethics to exoesqueletons, however a concrete functional relationship between EMG signals and the dynamic and kinematic aspects of the upper limbs has not been established. Nowadays, almost every device that uses EMG signals uses them for classification purposes. In this work, we employ Fourier analysis in conjunction with other signal processing tools to treat the EMG signal, the treated signal is then used as an input of an artificial neural network in order to establish a simplified functional relationship between EMG and the upper limbs. We also employed other traditional signal processing methods for comparison purposes.

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2014 13th Mexican International Conference on Artificial Intelligence

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