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Autori principali: Tsuchiya, Haruka, Somei, Zen, Makino, Yasutoshi, Shinoda, Hiroyuki
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2411.06653
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author Tsuchiya, Haruka
Somei, Zen
Makino, Yasutoshi
Shinoda, Hiroyuki
author_facet Tsuchiya, Haruka
Somei, Zen
Makino, Yasutoshi
Shinoda, Hiroyuki
contents The airborne ultrasound tactile display can present tactile information without direct contact. Using this technology, we developed two methods for simulating the tactile sensation of tapping an object with a finger: the Amplitude Modulation Method and the Lateral Modulation Method. The first method, Amplitude Modulation, simulates the tactile sensation of tapping a soft, deformable surface, like a deflated balloon. The second method, Lateral Modulation, simulates the tactile sensation of a rigid surface that easily resonates with vibrations, like a cymbal. In the demonstration, participants can experience the difference between these two tactile stimuli by tapping virtual objects displayed on a screen.
format Preprint
id arxiv_https___arxiv_org_abs_2411_06653
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Tap tactile presentation by airborne ultrasound
Tsuchiya, Haruka
Somei, Zen
Makino, Yasutoshi
Shinoda, Hiroyuki
Human-Computer Interaction
The airborne ultrasound tactile display can present tactile information without direct contact. Using this technology, we developed two methods for simulating the tactile sensation of tapping an object with a finger: the Amplitude Modulation Method and the Lateral Modulation Method. The first method, Amplitude Modulation, simulates the tactile sensation of tapping a soft, deformable surface, like a deflated balloon. The second method, Lateral Modulation, simulates the tactile sensation of a rigid surface that easily resonates with vibrations, like a cymbal. In the demonstration, participants can experience the difference between these two tactile stimuli by tapping virtual objects displayed on a screen.
title Tap tactile presentation by airborne ultrasound
topic Human-Computer Interaction
url https://arxiv.org/abs/2411.06653