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Perceptual and Biomechanical Frequency Response of Human Skin Implication for Design of Tactile Displays
Pisa, Italy March 18-March 20
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/WHC.2005.105First Joint Eurohaptics Conference an ...
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Ki-Uk Kyung, Minseung Ahn, Dong-Soo Kwon, Mandayam A. Srinivasan, "Perceptual and Biomechanical Frequency Response of Human Skin Implication for Design of Tactile Displays," World Haptics Conference, pp. 96-101, First Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems (WHC'05), 2005.
 
 
BibTex
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@article{ 10.1109/WHC.2005.105,
author = {Ki-Uk Kyung and Minseung Ahn and Dong-Soo Kwon and Mandayam A. Srinivasan},
title = {Perceptual and Biomechanical Frequency Response of Human Skin Implication for Design of Tactile Displays},
journal ={World Haptics Conference},
volume = {0},
year = {2005},
isbn = {0-7695-2310-2},
pages = {96-101},
doi = {http://doi.ieeecomputersociety.org/10.1109/WHC.2005.105},
publisher = {IEEE Computer Society},
address = {Los Alamitos, CA, USA},
}
 
 
RefWorks Procite/RefMan/Endnote
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TY - CONF
JO - World Haptics Conference
TI - Perceptual and Biomechanical Frequency Response of Human Skin Implication for Design of Tactile Displays
SN - 0-7695-2310-2
SP96
EP101
A1 - Ki-Uk Kyung,
A1 - Minseung Ahn,
A1 - Dong-Soo Kwon,
A1 - Mandayam A. Srinivasan,
PY - 2005
KW - null
VL - 0
JA - World Haptics Conference
ER -
 
Ki-Uk Kyung, Korea Advanced Institute of Science and Technology
Minseung Ahn, Massachusetts Institute of Technology
Dong-Soo Kwon, Korea Advanced Institute of Science and Technology
Mandayam A. Srinivasan, Massachusetts Institute of Technology
This paper investigates spatiotemporal tactile perceptive characteristics and biomechanical properties of human skin and considers their implications for the design of tactile displays. Three separate experiments were conducted. First, we measured vibrotactile thresholds as a function of frequency of vibration, using a cylindrical contactor of 0.7mm diameter. The results of our experiment showed similar trends to that of previous physiological results that used a larger contactor. In the second experiment, vibrotactile spatial acuities were investigated. Two-point localization errors were measured on the tip of the index finger and on thenar eminence as a function of frequency of vibration. The results show that human skin is sensitive to spatial differences at the frequency bands of 1-3Hz and 18-32Hz. The subjects? spatial acuities gradually decreased as the frequency of vibration increased over 50Hz. In the third experiment, impedances of human skin were measured as a function of frequency of vibration. From these results, we discuss the implications in the designing of spatially distributed tactile displays and methods for texture display.
Citation:
Ki-Uk Kyung, Minseung Ahn, Dong-Soo Kwon, Mandayam A. Srinivasan, "Perceptual and Biomechanical Frequency Response of Human Skin Implication for Design of Tactile Displays," whc, pp.96-101, First Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems (WHC'05), 2005
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