A feasibility study of utilizing tribo-acoustics for mobile user interface
This paper proposes the feasibility of using triboacoustically emitted signals (TES) generated between finger (covered or uncovered) and tracing surfaces (with or without mechanoreceptors) as an input method for mobile users. This is achieved by localizing upon the acoustic signals generated during...
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my.uniten.dspace-294042023-12-28T12:12:56Z A feasibility study of utilizing tribo-acoustics for mobile user interface Leong Y.W. Seki H. Kamiya Y. Hikizu M. 26326032700 7202492680 35508847400 6506780601 acoustic input Acoustic localization alternative computer input subharmonic sensor separation distance tactile input triboacoustic emission Microphones Acoustic localization alternative computer input Feasibility studies Frequency limitation Fundamental frequencies Mobile user interface Separation distances Tactile input Surfaces This paper proposes the feasibility of using triboacoustically emitted signals (TES) generated between finger (covered or uncovered) and tracing surfaces (with or without mechanoreceptors) as an input method for mobile users. This is achieved by localizing upon the acoustic signals generated during the net motion between 2 surfaces in contact. This property allows it to be highly versatile in many real life scenarios. The design of the system opportunistically utilizes the microphone's frequency limitations to define its fundamental frequency of 25kHz and the uniqueness of each signal captured to separate the microphones pairs at the 8th subharmonic distance of separation. The system was proven to be feasible and versatile as test results show it could recreate triboacoustically traced shapes when coupled with different types of surface materials. Results show that the acoustical localization system is able to recreate shapes of a tracing event similar to that produced by the visually localized system but at lower precision and accuracy. � 2013 IEEE. Final 2023-12-28T04:12:55Z 2023-12-28T04:12:55Z 2013 Conference paper 10.1109/ICSensT.2013.6727762 2-s2.0-84897867207 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84897867207&doi=10.1109%2fICSensT.2013.6727762&partnerID=40&md5=487ff292d661edb6c5821fd5cf578eba https://irepository.uniten.edu.my/handle/123456789/29404 6727762 800 805 Scopus |
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acoustic input Acoustic localization alternative computer input subharmonic sensor separation distance tactile input triboacoustic emission Microphones Acoustic localization alternative computer input Feasibility studies Frequency limitation Fundamental frequencies Mobile user interface Separation distances Tactile input Surfaces |
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acoustic input Acoustic localization alternative computer input subharmonic sensor separation distance tactile input triboacoustic emission Microphones Acoustic localization alternative computer input Feasibility studies Frequency limitation Fundamental frequencies Mobile user interface Separation distances Tactile input Surfaces Leong Y.W. Seki H. Kamiya Y. Hikizu M. A feasibility study of utilizing tribo-acoustics for mobile user interface |
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This paper proposes the feasibility of using triboacoustically emitted signals (TES) generated between finger (covered or uncovered) and tracing surfaces (with or without mechanoreceptors) as an input method for mobile users. This is achieved by localizing upon the acoustic signals generated during the net motion between 2 surfaces in contact. This property allows it to be highly versatile in many real life scenarios. The design of the system opportunistically utilizes the microphone's frequency limitations to define its fundamental frequency of 25kHz and the uniqueness of each signal captured to separate the microphones pairs at the 8th subharmonic distance of separation. The system was proven to be feasible and versatile as test results show it could recreate triboacoustically traced shapes when coupled with different types of surface materials. Results show that the acoustical localization system is able to recreate shapes of a tracing event similar to that produced by the visually localized system but at lower precision and accuracy. � 2013 IEEE. |
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26326032700 |
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26326032700 Leong Y.W. Seki H. Kamiya Y. Hikizu M. |
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Conference paper |
author |
Leong Y.W. Seki H. Kamiya Y. Hikizu M. |
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Leong Y.W. |
title |
A feasibility study of utilizing tribo-acoustics for mobile user interface |
title_short |
A feasibility study of utilizing tribo-acoustics for mobile user interface |
title_full |
A feasibility study of utilizing tribo-acoustics for mobile user interface |
title_fullStr |
A feasibility study of utilizing tribo-acoustics for mobile user interface |
title_full_unstemmed |
A feasibility study of utilizing tribo-acoustics for mobile user interface |
title_sort |
feasibility study of utilizing tribo-acoustics for mobile user interface |
publishDate |
2023 |
_version_ |
1806424047839346688 |