Proceedings ArticleDOI
TeslaTouch: electrovibration for touch surfaces
Olivier Bau,Ivan Poupyrev,Ali Israr,Chris Harrison +3 more
- pp 283-292
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TLDR
The proposed technology is based on the electrovibration principle, does not use any moving parts and provides a wide range of tactile feedback sensations to fingers moving across a touch surface, which enables the design of a wide variety of interfaces that allow the user to feel virtual elements through touch.Abstract:
We present a new technology for enhancing touch interfaces with tactile feedback. The proposed technology is based on the electrovibration principle, does not use any moving parts and provides a wide range of tactile feedback sensations to fingers moving across a touch surface. When combined with an interactive display and touch input, it enables the design of a wide variety of interfaces that allow the user to feel virtual elements through touch. We present the principles of operation and an implementation of the technology. We also report the results of three controlled psychophysical experiments and a subjective user evaluation that describe and characterize users' perception of this technology. We conclude with an exploration of the design space of tactile touch screens using two comparable setups, one based on electrovibration and another on mechanical vibrotactile actuation.read more
Citations
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Book ChapterDOI
A New Surface Display for 3D Haptic Rendering
TL;DR: A surface display is proposed that can generate both electrovibration and mechanical vibration uniformly on a large surface and is presented as an effective method for 3D haptic rendering through several example applications.
Proceedings ArticleDOI
MudPad: tactile feedback for touch surfaces
TL;DR: MudPad is a system enriching touch surfaces with localized active haptic feedback, able to produce feedback in realtime locally at arbitrary points of interaction.
Journal ArticleDOI
Fingerpad contact evolution under electrovibration.
TL;DR: An experimental study to investigate the contact evolution between the human finger and a touch screen under electrovibration using a robotic set-up and an imaging system shows that the effect of electroVibration is only present during full slip but not before slip.
Book ChapterDOI
Diminished Haptics: Towards Digital Transformation of Real World Textures
TL;DR: By applying a squeeze film effect to real-world textures, this method makes haptic textures reduced and could transform real- world textures, e.g., from paper-like to metal-like, from wood- like to paper- like, and so on.
Proceedings ArticleDOI
Quantifying the Targeting Performance Benefit of Electrostatic Haptic Feedback on Touchscreens
Yang Zhang,Chris Harrison +1 more
TL;DR: Electrostatic haptic feedback can improve targeting speed by 7.5% compared to conventional flat touchscreens, and quantified how electrostatic feedback can be used to improve user performance in par-ticular targeting.
References
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DiamondTouch: a multi-user touch technology
Paul Henry Dietz,Darren Leigh +1 more
TL;DR: A technique for creating a touch-sensitive input device which allows multiple, simultaneous users to interact in an intuitive fashion and results obtained with a small prototype device are presented.
Proceedings ArticleDOI
Low-cost multi-touch sensing through frustrated total internal reflection
TL;DR: A simple, inexpensive, and scalable technique for enabling high-resolution multi-touch sensing on rear-projected interactive surfaces based on frustrated total internal reflection is described.
Book
Psychophysics: The Fundamentals
TL;DR: The theory of signal detection has been studied extensively in the literature, see as mentioned in this paper for an overview. But the application of TSD is limited to the measurement of sensory attributes and discrimination scales.