TY - JOUR
T1 - 官能表現により分類された布地の摩擦感計測と評価
AU - Mishima, Ibuki
AU - Muroyama, Masanori
AU - Member, Yutaka Nonomura
N1 - Publisher Copyright:
© 2019 The Institute of Electrical Engineers of Japan.
PY - 2019
Y1 - 2019
N2 - Next generation robots are expected to assist humans by means of tactile sensing technologies. Relationships between physically measured values of fabrics with a friction sense tester KES-SE-SR-U (KATO TECH, Japan) and human friction sensations were evaluated. MIU (average friction coefficient), MMD (average deviation of friction coefficient) and SMD (average deviation of surface roughness) were measured with the friction sense tester. It was found that there were good correlations between the MIU, MMD, and SMD and sensual expressions, “Soft Feel”, “Rough Feel”, and “Uneven Feel”, respectively. Especially in “Soft Feel” fabrics, the measured MIUs were increased with an increase of sensual strength of the “Soft feel” of the fabrics. The subductions of the z-axis head of the tester to the fabrics were increased with an increase of sensual strength of the “Soft Feel”. The fabric fuzz brings on the subduction of the head and increasing of the MIUs. The MIUs were increased with fabric fuzz length and density. The sensual strengths of the “Soft Feel” were also increased with the fabric fuzz length and density. Therefore, it is thought that the “Soft Feel” is caused by fabric fuzz. The obtained relationships of feelings and physical values are important for the tactile sensing technologies and robot applications.
AB - Next generation robots are expected to assist humans by means of tactile sensing technologies. Relationships between physically measured values of fabrics with a friction sense tester KES-SE-SR-U (KATO TECH, Japan) and human friction sensations were evaluated. MIU (average friction coefficient), MMD (average deviation of friction coefficient) and SMD (average deviation of surface roughness) were measured with the friction sense tester. It was found that there were good correlations between the MIU, MMD, and SMD and sensual expressions, “Soft Feel”, “Rough Feel”, and “Uneven Feel”, respectively. Especially in “Soft Feel” fabrics, the measured MIUs were increased with an increase of sensual strength of the “Soft feel” of the fabrics. The subductions of the z-axis head of the tester to the fabrics were increased with an increase of sensual strength of the “Soft Feel”. The fabric fuzz brings on the subduction of the head and increasing of the MIUs. The MIUs were increased with fabric fuzz length and density. The sensual strengths of the “Soft Feel” were also increased with the fabric fuzz length and density. Therefore, it is thought that the “Soft Feel” is caused by fabric fuzz. The obtained relationships of feelings and physical values are important for the tactile sensing technologies and robot applications.
KW - Friction feeling
KW - Robot
KW - Sensor
KW - Sensual expression
KW - Tactile
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U2 - 10.1541/ieejsmas.139.114
DO - 10.1541/ieejsmas.139.114
M3 - Article
AN - SCOPUS:85065045701
SN - 1341-8939
VL - 139
SP - 114
EP - 120
JO - IEEJ Transactions on Sensors and Micromachines
JF - IEEJ Transactions on Sensors and Micromachines
IS - 5
ER -