Preserving Agency During Electrical Muscle Stimulation Training Speeds up Reaction Time Directly After Removing EMS

Proceedings of the 2021 CHI Conference on Human Factors in Computing Systems Pub Date : 2021-05-06 DOI:10.1145/3411764.3445147

Shunichi Kasahara, Kazuma Takada, Jun Nishida, Kazuhisa Shibata, S. Shimojo, Pedro Lopes

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引用次数: 25

Abstract

Abstract: Force feedback devices, such as motor-based exoskeletons or wearables based on electrical muscle stimulation (EMS), have the unique potential to accelerate users’ own reaction time (RT). However, this speedup has only been explored while the device is attached to the user. In fact, very little is known regarding whether this faster reaction time still occurs after the user removes the device from their bodies–this is precisely what we investigated by means of a simple reaction time (RT) experiment, in which participants were asked to tap as soon as they saw an LED flashing. Participants experienced this in three EMS conditions: (1) fast-EMS, the electrical impulses were synced with the LED; (2) agency-EMS, the electrical impulse was delivered 40ms faster than the participant’s own RT, which prior work has shown to preserve one’s sense of agency over this movement; and, (3) late-EMS: the impulse was delivered after the participant’s own RT. Our results revealed that the participants’ RT was significantly reduced by approximately 8ms (up to 20ms) only after training with the agency-EMS condition. This finding suggests that the prioritizing agency during EMS training is key to motor-adaptation, i.e., it enables a faster motor response even after the user has removed the EMS device from their body.

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在肌肉电刺激训练中保存代理加速移除EMS后的直接反应时间

力反馈设备，如基于电机的外骨骼或基于电肌肉刺激(EMS)的可穿戴设备，具有加速用户自身反应时间(RT)的独特潜力。然而，这种加速只在设备连接到用户身上时才被探索过。事实上，很少有人知道在用户将设备从身体中取出后，这种更快的反应时间是否仍然存在——这正是我们通过简单反应时间(RT)实验所调查的，在这个实验中，参与者被要求在他们看到LED闪烁时立即点击。参与者在三种EMS条件下经历了这一点:(1)快速EMS，电脉冲与LED同步;(2)代理- ems，电脉冲的传递速度比参与者自己的RT快40ms，先前的研究表明，在这个运动中保持了一个人的代理感;(3)晚ems:冲动是在参与者自己的RT之后传递的。我们的研究结果显示，参与者的RT仅在代理- ems条件下训练后显着减少了大约8ms(最多20ms)。这一发现表明，EMS训练中的优先机构是运动适应的关键，也就是说，即使在用户从身体上取下EMS设备后，它也能使运动反应更快。

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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Proceedings of the 2021 CHI Conference on Human Factors in Computing Systems

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