Myo手势控制臂带在生物医学上的新应用

2017 29th International Conference on Microelectronics (ICM) Pub Date : 2017-12-01 DOI:10.1109/ICM.2017.8268823

Maroun Geryes, J. Charara, A. Skaiky, Ali Mcheick, J. Girault

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引用次数: 6

摘要

由Thalmic Labs开发的Myo手势控制臂环可以远程控制多种数字技术。Myo使用肌电图(EMG)传感器来读取肌肉中的电活动。从这一事实出发，在本文中，我们将重点放在Myo作为可用于医疗目的的生物医学设备上。Myo开发人员在这方面的贡献有限。为了证明这一点，我们使用了Myo臂环，使用两个手臂数据集连续地翻转幻灯片;6只正常手臂，1只受伤手臂。比较正常手臂和受伤手臂在运动前10秒、运动后40秒和80秒的能量和rms表现。对于翻转演示文稿的正常手臂，能量和均方根值几乎保持不变(对于能量;10s时为23 dB, 80s时为21 dB, rms时为21 dB;10s时为16db, 80s时为14.5 dB)。然而，对于受伤的手臂，表现随着时间的推移而恶化(对于能量;10s时为22db, 80s时为15db;10s时为15db, 80s时为10.5 dB)，结果受伤的肌肉变得疲劳，它们的电活动减少。

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A novel biomedical application for the Myo gesture control armband

The Myo gesture control armband, by Thalmic Labs, allows taking control of several digital technologies from a distance. The Myo uses Electromyography (EMG) sensors to read electrical activity in muscles. Departing from this fact, in this paper we focus on the Myo as a biomedical equipment that could be used for medical purposes. Limited contribution has been made by Myo developers in this area. To prove this, we used the Myo armband to continuously flip slides of a PowerPoint presentation using two arm data-sets; 6 normal arms and 1 injured arm. The energy and rms performances of the normal and injured arms were compared at the first 10 seconds and after 40 and 80 seconds. For the normal arms flipping the presentation, the energy and rms values remained nearly the same (for the energy; 23 dB at 10s to 21 dB at 80s and for rms; 16 dB at 10s to 14.5 dB at 80s). However, for the injured arm the performance deteriorated as time elapsed (for the energy; 22 dB at 10s to 15 dB at 80s and for rms; 15 dB at 10s to 10.5 dB at 80s), as a result that the injured muscles were getting tired and their electrical activity was reduced.

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来源期刊

2017 29th International Conference on Microelectronics (ICM)

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