Confinement of Vibrotactile Stimuli in Narrow Plates

2019 IEEE World Haptics Conference (WHC) Pub Date : 2019-07-01 DOI:10.1109/WHC.2019.8816081
A. Dhiab, Charles Hudin
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引用次数: 13

Abstract

On a touch surface, providing a local vibrotactile feedback enables multiusers and multitouch interactions. While the vibration propagation usually impedes this localization, we show in this paper that narrow strip-shaped plates constitute waveguides in which bending waves below a cut-off frequency do not propagate. We provide a theoretical explanation of the phenomenon and experimental validations. We thus show that vibrations up to 2 kHz are well confined on top of the actuated area with vibration amplitude over 1 µm that can be felt by the fingers. The principle was validated with piezoelectric actuators of various shapes and a vibration motor.
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窄板振动触觉刺激的限制
在触摸表面上,提供局部振动触觉反馈可以实现多用户和多点触摸交互。虽然振动传播通常会阻碍这种定位,但我们在本文中表明,窄条形板构成波导,其中低于截止频率的弯曲波不会传播。我们对这一现象进行了理论解释和实验验证。因此,我们表明,高达2 kHz的振动被很好地限制在驱动区域的顶部,振动幅度超过1 μ m,可以被手指感觉到。用不同形状的压电驱动器和振动电机验证了该原理。
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2019 IEEE World Haptics Conference (WHC)
2019 IEEE World Haptics Conference (WHC)
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