基于简单杠杆放大辐射力的超声驱动被动触觉执行器

SIGGRAPH Asia 2022 Emerging Technologies Pub Date : 2022-12-06 DOI:10.1145/3550471.3558401

Tao Morisaki, M. Fujiwara, Yasutoshi Makino, H. Shinoda

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引用次数: 1

摘要

触觉学是一种很有发展前途的技术，它可以实现直观的人体运动引导和身临其境的游戏体验。为了获得自然的触觉体验，需要一种轻便且功能强大的可穿戴触觉设备。在这项研究中，我们开发了一种轻型被动触觉装置(6.2 g)，由机载超声远程驱动。该装置采用简单的杠杆机构，将所施加的超声声辐射力放大19.6倍，可产生400 mN (40 gf)的强触觉刺激。而且，由于辐射力是以声速呈现的，所以放大后的力呈现速度仍然很高。在这个演示中，参与者可以体验佩戴在指尖上的轻量级被动触觉执行器。该装置可产生400 mN的静力和45 ms的低频振动。我们还演示了一种耳环型被动触觉装置，它向耳垂提供触觉刺激。

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Ultrasound-Driven Passive Haptic Actuator Based on Amplifying Radiation Force Using Simple Lever Mechanism

Haptics is a promising modality, which realizes intuitive human motion guidance and an immersive game experience. For a natural tactile experience, a lightweight and powerful wearable haptic device is required. In this study, we develop a lightweight passive haptic device (6.2 g) remotely driven by airborne ultrasound. This device can present a strong haptic stimulus of 400 mN (40 gf) by amplifying the applied ultrasound acoustic radiation force 19.6 times using a simple lever mechanism. Moreover, since the radiation force is presented at the sound velocity, the presentation speed of the amplified force is still high. In this demo, participants can experience a lightweight passive haptic actuator worn on their fingertips. This device can present a static force of 400 mN and low-frequency vibration in 45 ms. We also demonstrate an earring-type passive haptic device, which presents a haptic stimulus to the earlobe.

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SIGGRAPH Asia 2022 Emerging Technologies

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