周期性振动触觉制导

IEEE Haptics Symposium : [proceedings]. IEEE Haptics Symposium Pub Date : 2014-03-20 DOI:10.1109/HAPTICS.2014.6775550

Idin Karuei, Karon E Maclean

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引用次数: 0

摘要

仅给出摘要形式，如下。对于许多运动，例如步行、跑步、骑自行车，速度是步幅长度和节奏的函数:一般来说，步行者、跑步者或骑自行车的人可以控制自己移动得更快或更慢。我们最近已经证明，我们可以通过振动来引导行人的行走速度，从而使他们的节奏同步(参见Karuei和MacLean的“人类节奏的周期性振动触觉指导的敏感性”)。在这个演示中，我们在安卓手机上使用手腕佩戴的触觉通知器和RRACE(我们的节奏估计算法)，并展示它们如何协同工作，帮助行人决定何时开始移动，并指导他/她以正确的速度行走，按时到达目的地。戴上触觉通知设备，一只手拿着安卓手机，步行或骑车去目的地(或假装去)。比较有/没有引导的到达时间，测试系统对提前或落后时间的反应，并探索不同的使用策略。

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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Periodic Vibrotactile Guidance

Summary form only given, as follows. For many kinds of locomotion - e.g. walking, running, cycling - speed is a function of stride-length and cadence: generally, the walker, runner, or cyclist can control either one to move faster or slower. We've recently shown that we can guide a pedestrian's walking rate with a vibratory tap to which they synchronize cadence (see “Susceptibility to Periodic Vibrotactile Guidance of Human Cadence” by Karuei & MacLean). In this demo, we use the wrist-worn Haptic Notifier and RRACE (our Cadence Estimation Algorithm) on an Android phone, and show how they work together to help a pedestrian decide when to start moving and guide him/her to pace at the right speed to reach a destination on time. Wear the Haptic Notifier device, hold the Android phone in one hand, and walk/cycle to a destination (or pretend to). Compare arrival time with/without guidance, test the system response to being ahead or behind in time, and explore different usage strategies.

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IEEE Haptics Symposium : [proceedings]. IEEE Haptics Symposium

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