Exploring the LIMB Position Effect on Wearable-Ultrasound-Based Gesture Recognition

2019 International Conference on Machine Learning and Cybernetics (ICMLC) Pub Date : 2019-07-01 DOI:10.1109/ICMLC48188.2019.8949209

Xingchen Yang, J. Yan, Yi-Zhao, Honghai Liu

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Abstract

Despite the prosperous development of the ultrasound-based human-machine interface, its reliability in the practical applications is still unevaluated. This paper gives priority to exploring the limb position effect on the ultrasound-based gesture recognition, where wearable A-mode ultrasound is utilized instead of its cumbersome B-mode counterpart. An online experiment under eight different limb positions is conducted to validate the performance of the ultrasound-based gesture recognition, with eight able-bodied subjects employed. Results show that the influence of limb movement on the ultrasound-based gesture recognition is not significant. Overall, the real-time motion completion rate and motion recognition accuracy are 97.1% and 94.5% across different limb positions, albeit only training at a natural limb position. Moreover, it takes only 177 ms for the system to successfully recognize the intended motions across various limb positions. These results demonstrate the reliability of the ultrasound-based gesture interaction, paving the way for its practical applications.

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肢体位置对可穿戴超声手势识别的影响研究

尽管基于超声的人机界面发展迅速，但其在实际应用中的可靠性仍有待评估。本文重点研究基于超声的手势识别中肢体位置的影响，利用可穿戴的a模超声代替笨重的b模超声。为了验证基于超声波的手势识别的性能，我们采用了8名健全的被试，在8种不同的肢体姿势下进行了在线实验。结果表明，肢体运动对超声手势识别的影响不显著。总体而言，不同肢体位置的实时运动完成率和运动识别准确率分别为97.1%和94.5%，尽管仅在自然肢体位置进行训练。此外，该系统仅需要177 ms即可成功识别不同肢体位置的预期运动。这些结果证明了基于超声手势交互的可靠性，为其实际应用铺平了道路。

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

2019 International Conference on Machine Learning and Cybernetics (ICMLC)

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