The study of sensor structure to sense a surface information for intelligent tactile sensor

Kwonsik Shin; Minkyung Sim; Hyunchul Park; Yuljae Cho; Jung Inn Sohn; Seung Nam Cha; Jae Eun Jang

doi:10.1109/HAPTICS.2018.8357159

The study of sensor structure to sense a surface information for intelligent tactile sensor

Kwonsik Shin
, Minkyung Sim
, Hyunchul Park
, Yuljae Cho
, Jung Inn Sohn
, Seung Nam Cha
, Jae Eun Jang

Department of Physics

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

2 Scopus citations

Abstract

A study of the human sense of touch has attracted much interest for a long time. Various kinds of sensors have been studied with various technologies for the sensing of external stimuli. Tactile sensors using capacitive, piezoresistive, piezoelectric and pyroelectric mechanism have been suggested to sense pressure, vibration and temperature. Unfortunately, it is rare to find a studying results of tactile sensor related with a surface information detection in comparison with pressure and temperature sensing. The ability to sense a surface information is the important factor to distinguish surface feelings such as roughness and smoothness. In this paper, a sensor array using piezoelectricity is demonstrated with a sliding motion to sense surface information such as the pitch and width of surface features. The suggested sensor array has a high spatial resolution(500um) and detected the variable sliding speeds thanks to the excellent dynamic response of the piezoelectric material. The reconfigured surface information had high accuracy compared to actual one. The demonstrated sliding speed sensing, high spatial resolution and the pitch and width of surface features measurement capabilities allow the sensor to be utilized as an intelligent artificial tactile sensor.

Original language	English
Title of host publication	IEEE Haptics Symposium, HAPTICS 2018 - Proceedings
Editors	Yon Visell, Katherine J. Kuchenbecker, Gregory J. Gerling
Publisher	IEEE Computer Society
Pages	95-99
Number of pages	5
ISBN (Electronic)	9781538654248
DOIs	https://doi.org/10.1109/HAPTICS.2018.8357159
State	Published - 9 May 2018
Event	2018 IEEE Haptics Symposium, HAPTICS 2018 - San Francisco, United States Duration: 25 Mar 2018 → 28 Mar 2018

Publication series

Name	IEEE Haptics Symposium, HAPTICS
Volume	2018-March
ISSN (Print)	2324-7347
ISSN (Electronic)	2324-7355

Conference

Conference	2018 IEEE Haptics Symposium, HAPTICS 2018
Country/Territory	United States
City	San Francisco
Period	25/03/18 → 28/03/18

Access to Document

10.1109/HAPTICS.2018.8357159

Cite this

Shin, K., Sim, M., Park, H., Cho, Y., Sohn, J. I., Cha, S. N., & Jang, J. E. (2018). The study of sensor structure to sense a surface information for intelligent tactile sensor. In Y. Visell, K. J. Kuchenbecker, & G. J. Gerling (Eds.), IEEE Haptics Symposium, HAPTICS 2018 - Proceedings (pp. 95-99). (IEEE Haptics Symposium, HAPTICS; Vol. 2018-March). IEEE Computer Society. https://doi.org/10.1109/HAPTICS.2018.8357159

@inproceedings{86b7cec8230546e39adcbff1f8de81b6,

title = "The study of sensor structure to sense a surface information for intelligent tactile sensor",

abstract = "A study of the human sense of touch has attracted much interest for a long time. Various kinds of sensors have been studied with various technologies for the sensing of external stimuli. Tactile sensors using capacitive, piezoresistive, piezoelectric and pyroelectric mechanism have been suggested to sense pressure, vibration and temperature. Unfortunately, it is rare to find a studying results of tactile sensor related with a surface information detection in comparison with pressure and temperature sensing. The ability to sense a surface information is the important factor to distinguish surface feelings such as roughness and smoothness. In this paper, a sensor array using piezoelectricity is demonstrated with a sliding motion to sense surface information such as the pitch and width of surface features. The suggested sensor array has a high spatial resolution(500um) and detected the variable sliding speeds thanks to the excellent dynamic response of the piezoelectric material. The reconfigured surface information had high accuracy compared to actual one. The demonstrated sliding speed sensing, high spatial resolution and the pitch and width of surface features measurement capabilities allow the sensor to be utilized as an intelligent artificial tactile sensor.",

author = "Kwonsik Shin and Minkyung Sim and Hyunchul Park and Yuljae Cho and Sohn, \{Jung Inn\} and Cha, \{Seung Nam\} and Jang, \{Jae Eun\}",

note = "Publisher Copyright: {\textcopyright} 2018 IEEE.; 2018 IEEE Haptics Symposium, HAPTICS 2018 ; Conference date: 25-03-2018 Through 28-03-2018",

year = "2018",

month = may,

day = "9",

doi = "10.1109/HAPTICS.2018.8357159",

language = "English",

series = "IEEE Haptics Symposium, HAPTICS",

publisher = "IEEE Computer Society",

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editor = "Yon Visell and Kuchenbecker, \{Katherine J.\} and Gerling, \{Gregory J.\}",

booktitle = "IEEE Haptics Symposium, HAPTICS 2018 - Proceedings",

address = "United States",

}

Shin, K, Sim, M, Park, H, Cho, Y, Sohn, JI, Cha, SN & Jang, JE 2018, The study of sensor structure to sense a surface information for intelligent tactile sensor. in Y Visell, KJ Kuchenbecker & GJ Gerling (eds), IEEE Haptics Symposium, HAPTICS 2018 - Proceedings. IEEE Haptics Symposium, HAPTICS, vol. 2018-March, IEEE Computer Society, pp. 95-99, 2018 IEEE Haptics Symposium, HAPTICS 2018, San Francisco, United States, 25/03/18. https://doi.org/10.1109/HAPTICS.2018.8357159

The study of sensor structure to sense a surface information for intelligent tactile sensor. / Shin, Kwonsik; Sim, Minkyung; Park, Hyunchul et al.
IEEE Haptics Symposium, HAPTICS 2018 - Proceedings. ed. / Yon Visell; Katherine J. Kuchenbecker; Gregory J. Gerling. IEEE Computer Society, 2018. p. 95-99 (IEEE Haptics Symposium, HAPTICS; Vol. 2018-March).

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

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AU - Shin, Kwonsik

AU - Sim, Minkyung

AU - Park, Hyunchul

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AU - Cha, Seung Nam

AU - Jang, Jae Eun

PY - 2018/5/9

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N2 - A study of the human sense of touch has attracted much interest for a long time. Various kinds of sensors have been studied with various technologies for the sensing of external stimuli. Tactile sensors using capacitive, piezoresistive, piezoelectric and pyroelectric mechanism have been suggested to sense pressure, vibration and temperature. Unfortunately, it is rare to find a studying results of tactile sensor related with a surface information detection in comparison with pressure and temperature sensing. The ability to sense a surface information is the important factor to distinguish surface feelings such as roughness and smoothness. In this paper, a sensor array using piezoelectricity is demonstrated with a sliding motion to sense surface information such as the pitch and width of surface features. The suggested sensor array has a high spatial resolution(500um) and detected the variable sliding speeds thanks to the excellent dynamic response of the piezoelectric material. The reconfigured surface information had high accuracy compared to actual one. The demonstrated sliding speed sensing, high spatial resolution and the pitch and width of surface features measurement capabilities allow the sensor to be utilized as an intelligent artificial tactile sensor.

AB - A study of the human sense of touch has attracted much interest for a long time. Various kinds of sensors have been studied with various technologies for the sensing of external stimuli. Tactile sensors using capacitive, piezoresistive, piezoelectric and pyroelectric mechanism have been suggested to sense pressure, vibration and temperature. Unfortunately, it is rare to find a studying results of tactile sensor related with a surface information detection in comparison with pressure and temperature sensing. The ability to sense a surface information is the important factor to distinguish surface feelings such as roughness and smoothness. In this paper, a sensor array using piezoelectricity is demonstrated with a sliding motion to sense surface information such as the pitch and width of surface features. The suggested sensor array has a high spatial resolution(500um) and detected the variable sliding speeds thanks to the excellent dynamic response of the piezoelectric material. The reconfigured surface information had high accuracy compared to actual one. The demonstrated sliding speed sensing, high spatial resolution and the pitch and width of surface features measurement capabilities allow the sensor to be utilized as an intelligent artificial tactile sensor.

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Y2 - 25 March 2018 through 28 March 2018

ER -

The study of sensor structure to sense a surface information for intelligent tactile sensor

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