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Kensuke Takenkaka,Akihito Jinnai,Kentaro Kotani,Satoshi Suzuki,Takafumi Asao,Asuka Otsuka,Seiji Nakagawa 대한인간공학회 2014 대한인간공학회 학술대회논문집 Vol.2014 No.5
The objective of this study was to evaluate the influence of the intensity of perceived tactile stimuli on the difference of the spatial location on the palm. Air-puff stimuli were presented on 16 different locations on the palm as well as the tip of the index finger. Participants performed magnitude estimation protocol, where each tactile stimulus was evaluated in terms of the stimulus intensity. The results revealed that the relationship of perceived tactile intensity between distal and proximal sides showed no significant difference, whereas the relationship between medial and lateral sides showed significant differences in perceived stimulus. Difference of perceived intensity between medial and lateral sides implied that hardness of the skin surface may affect the perceived intensity rather than the distribution of mechanoreceptors on the palm. Overall, current results obtained in this study would contribute to the optimum design specifications for tactile interface devices.
( Kensuke Takenkaka ),( Akihito Jinnai ),( Kentaro Kotani ),( Satoshi Suzuki ),( Takafumi Asao ),( Asuka Otsuka ),( Seiji Nakagawa ) 한국감성과학회 2014 춘계학술대회 Vol.2014 No.-
The objective of this study was to evaluate the influence of the intensity of perceived tactile stimuli on the difference of the spatial location on the palm. Air-puff stimuli were presented on 16 different locations on the palm as well as the tip of the index finger. Participants performed magnitude estimation protocol, where each tactile stimulus was evaluated in terms of the stimulus intensity. The results revealed that the relationship of perceived tactile intensity between distal and proximal sides showed no significant difference, whereas the relationship between medial and lateral sides showed significant differences in perceived stimulus. Difference of perceived intensity between medial and lateral sides implied that hardness of the skin surface may affect the perceived intensity rather than the distribution of mechanoreceptors on the palm. Overall, current results obtained in this study would contribute to the optimum design specifications for tactile interface devices.