Noncontact Tactile Display Based on Radiation Pressure of Airborne Ultrasound

Hoshi, Takayuki; Takahashi, Masafumi; Inomata, Takayuki; Shinoda, Hiroyuki

doi:10.1109/toh.2010.4

Cited by 359 publications

(184 citation statements)

References 18 publications

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“…Iwamoto et al [11] used an array of ultrasound transducers to focus sound upon a fixed point which could be felt as ultrasound reflected off skin. Later work [10] allowed the focal point to be moved in 3D space above the transducers. Carter et al [6] built on this work and created an ultrasound tactile display which could produce many focal points of feedback at the same time.…”

Section: Non-contact Tactile Feedbackmentioning

confidence: 99%

Tactile Feedback for Above-Device Gesture Interfaces

Freeman

Brewster

Lantz

2014

Proceedings of the 16th International Conference on Multimodal Interaction

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Above-device gesture interfaces let people interact in the space above mobile devices using hand and finger movements. For example, users could gesture over a mobile phone or wearable without having to use the touchscreen. We look at how above-device interfaces can also give feedback in the space over the device. Recent haptic and wearable technologies give new ways to provide tactile feedback while gesturing, letting touchless gesture interfaces give touch feedback. In this paper we take a first detailed look at how tactile feedback can be given during above-device interaction. We compare approaches for giving feedback (ultrasound haptics, wearables and direct feedback) and also look at feedback design. Our findings show that tactile feedback can enhance above-device gesture interfaces.

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Section: Non-contact Tactile Feedbackmentioning

confidence: 99%

Tactile Feedback for Above-Device Gesture Interfaces

Freeman

Brewster

Lantz

2014

Proceedings of the 16th International Conference on Multimodal Interaction

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“…The tactile displays mainly base on mechanical stimulation and deform contacting skin to stimulate mechanoreceptors inside the skin, which perceive the stimuli, with displacement or vibration of actuators. [1][2][3][4] For example, Qi et al…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Multi-Electrode Effects on Electrovibration Tactile Stimulation

Ishizuka

Suzuki

Terao

et al. 2017

Transactions of The Japan Institute of Electronics Packaging

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Electrovibration is one of promising methods for tactile feedback in mobile devices because of its simplicity of the structure and principle. In order to increase the capability of tactile presentation with the electrovibration, we developed an electrovibration tactile display with 1 mm electrode resolution. Voltage to each electrode is controlled separately and the tactile display can present electrovibration stimulus distribution. We designed the tactile display and optimized the voltage waveform to avoid destruction of an insulator. We fabricated the proposed tactile display with micro-fabrication process. We experimentally evaluated the relationships between stimulation condition and perception in subjects. The obtained results indicated that the multi-electrode design had a potential to enhance tactile rendering performance of electrovibration stimulation.

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“…Phased ultrasound arrays have been used to generate a variety of mid-air haptic sensations (e.g., [2,7,8,9,12]), allowing users to experience tactile feedback from gesture systems. They have also been used to direct audio (e.g., Holographic Whisper [16]), to create the illusion of sound coming from remote objects or to direct audio feedback towards specific users.…”

Section: Related Workmentioning

confidence: 99%

Point-and-Shake

Freeman

Williamson

Subramanian

et al. 2018

Proceedings of the 2018 CHI Conference on Human Factors in Computing Systems

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Acoustic levitation enables a radical new type of humancomputer interface composed of small levitating objects. For the first time, we investigate the selection of such objects, an important part of interaction with a levitating object display. We present Point-and-Shake, a mid-air pointing interaction for selecting levitating objects, with feedback given through object movement. We describe the implementation of this technique and present two user studies that evaluate it. The first study found that users could accurately (96%) and quickly (4.1s) select objects by pointing at them. The second study found that users were able to accurately (95%) and quickly (3s) select occluded objects. These results show that Pointand-Shake is an effective way of initiating interaction with levitating object displays.

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Noncontact Tactile Display Based on Radiation Pressure of Airborne Ultrasound

Cited by 359 publications

References 18 publications

Tactile Feedback for Above-Device Gesture Interfaces

Tactile Feedback for Above-Device Gesture Interfaces

Evaluation of Multi-Electrode Effects on Electrovibration Tactile Stimulation

Point-and-Shake

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