Physiological Principle of Tactual Discriminability of Fabric Surface Softness by Touching Method
DOI:
10.3993/jfbi09200803
Journal of Fiber Bioengineering & Informatics,1 (2008), pp. 99-106
Published online: 2008-01
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@Article{JFBI-1-99,
author = {Lijing Wang},
title = {Physiological Principle of Tactual Discriminability of Fabric Surface Softness by Touching Method},
journal = {Journal of Fiber Bioengineering and Informatics},
year = {2008},
volume = {1},
number = {2},
pages = {99--106},
abstract = {Fabric Softness is one of main factors in guiding consumers' purchasing decisions, and
many instrumental testing techniques quantifying this attribute have been proposed to substitute for
its sensory evaluation. However, the performance is poor. By establishing a biomechanical model
equivalent to the manner in which human fingertips sense the mechanical resistance against lateral
compression of fabric, this study theoretically discusses the mechanical sensitivity of human sensing
organs and the perceptual sensitivity of human sensory system. The results show that the mechanical
sensitivity depends on the ratio of the mechanical resistance against compression of fabric to that
of fingerpad, and the perceptual sensitivity on both the mechanical sensitivity and the capacity of
human tactile system. Furthermore, the scatter among individual tactile evaluation on softness is
attributed to the limitation of human tactile system processing stimulus information, and the assigned
magnitude principally obeys a certain probability distribution, not a single averaging value statistically.
In this sense, the deformability of soft tissues leads to an intrinsic difference of tactile evaluation
from instrumental testing, although fabric compression property is detected on the same mechanical
principle. The present conclusions will correct our misunderstandings in the effect-cause relationship
between sensory attributes and instrumental testing.},
issn = {2617-8699},
doi = {https://doi.org/10.3993/jfbi09200803},
url = {http://global-sci.org/intro/article_detail/jfbi/5029.html}
}
TY - JOUR
T1 - Physiological Principle of Tactual Discriminability of Fabric Surface Softness by Touching Method
AU - Lijing Wang
JO - Journal of Fiber Bioengineering and Informatics
VL - 2
SP - 99
EP - 106
PY - 2008
DA - 2008/01
SN - 1
DO - http://doi.org/10.3993/jfbi09200803
UR - https://global-sci.org/intro/article_detail/jfbi/5029.html
KW - mechanical resistance
KW - softness
KW - sensitivity
KW - fabric
KW - fingertip
KW - tactile
AB - Fabric Softness is one of main factors in guiding consumers' purchasing decisions, and
many instrumental testing techniques quantifying this attribute have been proposed to substitute for
its sensory evaluation. However, the performance is poor. By establishing a biomechanical model
equivalent to the manner in which human fingertips sense the mechanical resistance against lateral
compression of fabric, this study theoretically discusses the mechanical sensitivity of human sensing
organs and the perceptual sensitivity of human sensory system. The results show that the mechanical
sensitivity depends on the ratio of the mechanical resistance against compression of fabric to that
of fingerpad, and the perceptual sensitivity on both the mechanical sensitivity and the capacity of
human tactile system. Furthermore, the scatter among individual tactile evaluation on softness is
attributed to the limitation of human tactile system processing stimulus information, and the assigned
magnitude principally obeys a certain probability distribution, not a single averaging value statistically.
In this sense, the deformability of soft tissues leads to an intrinsic difference of tactile evaluation
from instrumental testing, although fabric compression property is detected on the same mechanical
principle. The present conclusions will correct our misunderstandings in the effect-cause relationship
between sensory attributes and instrumental testing.
Lijing Wang. (2008). Physiological Principle of Tactual Discriminability of Fabric Surface Softness by Touching Method.
Journal of Fiber Bioengineering and Informatics. 1 (2).
99-106.
doi:10.3993/jfbi09200803
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