Yasemin Vardar scite author profile

In this study, we investigated the effect of input voltage waveform on our haptic perception of electrovibration on touch screens. Through psychophysical experiments performed with eight subjects, we first measured the detection thresholds of electrovibration stimuli generated by sinusoidal and square voltages at various fundamental frequencies. We observed that the subjects were more sensitive to stimuli generated by square wave voltage than sinusoidal one for frequencies lower than 60 Hz. Using Matlab simulations, we showed that the sensation difference of waveforms in low fundamental frequencies occurred due to the frequency-dependent electrical properties of human skin and human tactile sensitivity. To validate our simulations, we conducted a second experiment with another group of eight subjects. We first actuated the touch screen at the threshold voltages estimated in the first experiment and then measured the contact force and acceleration acting on the index fingers of the subjects moving on the screen with a constant speed. We analyzed the collected data in the frequency domain using the human vibrotactile sensitivity curve. The results suggested that Pacinian channel was the primary psychophysical channel in the detection of the electrovibration stimuli caused by all the square-wave inputs tested in this study. We also observed that the measured force and acceleration data were affected by finger speed in a complex manner suggesting that it may also affect our haptic perception accordingly.

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Roughness perception of virtual textures displayed by electrovibration on touch screens

Vardar

Isleyen

Saleem

et al. 2017

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Effect of Waveform in Haptic Perception of Electrovibration on Touchscreens

Vardar

Güçlü

Başdoğan

2016

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Fingertip Interaction Metrics Correlate with Visual and Haptic Perception of Real Surfaces

Vardar

Wallraven

Kuchenbecker

2019

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Tactile Masking by Electrovibration

Vardar

Güçlü

Başdoğan

2018

IEEE Trans. Haptics

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Future touch screen applications will include multiple tactile stimuli displayed simultaneously or consecutively to single finger or multiple fingers. These applications should be designed by considering human tactile masking mechanism since it is known that presenting one stimulus may interfere with the perception of the other. In this study, we investigate the effect of masking on tactile perception of electrovibration displayed on touch screens. Through conducting psychophysical experiments with nine subjects, we measured the masked thresholds of sinusoidal electrovibration bursts (125 Hz) under two masking conditions: simultaneous and pedestal. The masking stimuli were noise bursts, applied at five different sensation levels varying from 2 to 22 dB SL, also presented by electrovibration. For each subject, the detection thresholds were elevated as linear functions of masking levels for both masking types. We observed that the masking effectiveness was larger with pedestal masking than simultaneous masking. Moreover, in order to investigate the effect of tactile masking on our haptic perception of edge sharpness, we compared the perceived sharpness of edges separating two textured regions displayed with and without various masking stimuli. Our results suggest that sharpness perception depends on the local contrast between background and foreground stimuli, which varies as a function of masking amplitude and activation levels of frequency-dependent psychophysical channels.

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Yasemin Vardar

Effect of Waveform on Tactile Perception by Electrovibration Displayed on Touch Screens

Roughness perception of virtual textures displayed by electrovibration on touch screens

Effect of Waveform in Haptic Perception of Electrovibration on Touchscreens

Fingertip Interaction Metrics Correlate with Visual and Haptic Perception of Real Surfaces

Tactile Masking by Electrovibration

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