Parametric design of an excitation pattern for smooth vibrotactile flow on thin plates

J. Kang; K. Cho; J. Ryu

doi:10.1109/HAPTIC.2012.6183822

Parametric design of an excitation pattern for smooth vibrotactile flow on thin plates

J. Kang, K. Cho, J. Ryu

Graduate School of Information

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

In the previous research, the vibrotactile flow that can be generated by the excitation pattern utilizing structural resonance phenomena of a thin plate was smoother than the vibrotactile flow generated by the conventional apparent tactile movement and phantom sensation methods. This paper further investigates effects of three design parameters (signal-duration, time-interval between the two actuating signals, cutoff-time) in the excitation pattern on the smoothness of the vibrotactile flow. User study results show that the time-interval between the two actuating signals is the most important parameter while the signal-duration is the second. This fact can be effectively used when designing an excitation pattern that can generate smoother vibrotactile flow.

Original language	English
Title of host publication	Haptics Symposium 2012, HAPTICS 2012 - Proceedings
Pages	403-406
Number of pages	4
DOIs	https://doi.org/10.1109/HAPTIC.2012.6183822
Publication status	Published - 2012
Event	2012 IEEE Haptics Symposium, HAPTICS 2012 - Vancouver, BC, Canada Duration: 2012 Mar 4 → 2012 Mar 7

Publication series

Name	Haptics Symposium 2012, HAPTICS 2012 - Proceedings

Other

Other	2012 IEEE Haptics Symposium, HAPTICS 2012
Country/Territory	Canada
City	Vancouver, BC
Period	12/3/4 → 12/3/7

All Science Journal Classification (ASJC) codes

Human-Computer Interaction

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10.1109/HAPTIC.2012.6183822

Cite this

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title = "Parametric design of an excitation pattern for smooth vibrotactile flow on thin plates",

abstract = "In the previous research, the vibrotactile flow that can be generated by the excitation pattern utilizing structural resonance phenomena of a thin plate was smoother than the vibrotactile flow generated by the conventional apparent tactile movement and phantom sensation methods. This paper further investigates effects of three design parameters (signal-duration, time-interval between the two actuating signals, cutoff-time) in the excitation pattern on the smoothness of the vibrotactile flow. User study results show that the time-interval between the two actuating signals is the most important parameter while the signal-duration is the second. This fact can be effectively used when designing an excitation pattern that can generate smoother vibrotactile flow.",

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AU - Kang, J.

AU - Cho, K.

AU - Ryu, J.

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N2 - In the previous research, the vibrotactile flow that can be generated by the excitation pattern utilizing structural resonance phenomena of a thin plate was smoother than the vibrotactile flow generated by the conventional apparent tactile movement and phantom sensation methods. This paper further investigates effects of three design parameters (signal-duration, time-interval between the two actuating signals, cutoff-time) in the excitation pattern on the smoothness of the vibrotactile flow. User study results show that the time-interval between the two actuating signals is the most important parameter while the signal-duration is the second. This fact can be effectively used when designing an excitation pattern that can generate smoother vibrotactile flow.

AB - In the previous research, the vibrotactile flow that can be generated by the excitation pattern utilizing structural resonance phenomena of a thin plate was smoother than the vibrotactile flow generated by the conventional apparent tactile movement and phantom sensation methods. This paper further investigates effects of three design parameters (signal-duration, time-interval between the two actuating signals, cutoff-time) in the excitation pattern on the smoothness of the vibrotactile flow. User study results show that the time-interval between the two actuating signals is the most important parameter while the signal-duration is the second. This fact can be effectively used when designing an excitation pattern that can generate smoother vibrotactile flow.

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DO - 10.1109/HAPTIC.2012.6183822

M3 - Conference contribution

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T3 - Haptics Symposium 2012, HAPTICS 2012 - Proceedings

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BT - Haptics Symposium 2012, HAPTICS 2012 - Proceedings

T2 - 2012 IEEE Haptics Symposium, HAPTICS 2012

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ER -

Parametric design of an excitation pattern for smooth vibrotactile flow on thin plates

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