TY - JOUR
T1 - Thermal-Tactile Integration in Object Temperature Perception
AU - Ho, Hsin Ni
AU - Chow, Hiu Mei
AU - Tsunokake, Sayaka
AU - Roseboom, Warrick
N1 - Funding Information:
Manuscript received October 10, 2018; revised December 10, 2018; accepted January 15, 2019. Date of publication February 25, 2019; date of current version December 12, 2019. The work of H. M. Chow was supported in part by Postgraduate Studentship from the University of Hong Kong and in part by the HK Research Grant Council (753812). The work of W. Roseboom was supported in part by the Dr Mortimer and Theresa Sackler Foundation and in part the EU FET Proactive grant TIMESTORM: Mind and Time: Investigation of the Temporal Traits of Human-Machine Convergence. This paper was recommended for publication by Associate Editor A. Maria Louise upon evaluation of the reviewers’ comments. (Corresponding author: Hsin-Ni Ho.) H.-N. Ho is with the NTT Communication Science Laboratories, Atsugi 243-0198, Japan. (e-mail: ho.hsinni@gmail.com).
Publisher Copyright:
© 2019 IEEE.
PY - 2019/10/1
Y1 - 2019/10/1
N2 - The brain consistently faces a challenge of whether and how to combine the available information sources to estimate the properties of an object explored by hand. While object perception is an inference process involving multisensory inputs, thermal referral (TR) is an illusion demonstrating how the interaction between thermal and tactile systems can lead to deviations from physical reality-when observers touch three stimulators simultaneously with the middle three fingers of one hand but only the outer two stimulators are heated (or cooled), thermal uniformity is perceived across three fingers. Here, we used TR of warmth to examine the thermal-tactile interaction in object temperature perception. We show that TR is consistent with precision-weighted averaging of thermal sensation across tactile locations. Furthermore, we show that prolonged contact with TR stimulation results in adaptation to the local variations of veridical temperatures instead of the thermal uniformity perceived across three fingers. Our results illuminate the flexibility of processing that underlies thermal-tactile interactions and serve as a basis for thermal display design.
AB - The brain consistently faces a challenge of whether and how to combine the available information sources to estimate the properties of an object explored by hand. While object perception is an inference process involving multisensory inputs, thermal referral (TR) is an illusion demonstrating how the interaction between thermal and tactile systems can lead to deviations from physical reality-when observers touch three stimulators simultaneously with the middle three fingers of one hand but only the outer two stimulators are heated (or cooled), thermal uniformity is perceived across three fingers. Here, we used TR of warmth to examine the thermal-tactile interaction in object temperature perception. We show that TR is consistent with precision-weighted averaging of thermal sensation across tactile locations. Furthermore, we show that prolonged contact with TR stimulation results in adaptation to the local variations of veridical temperatures instead of the thermal uniformity perceived across three fingers. Our results illuminate the flexibility of processing that underlies thermal-tactile interactions and serve as a basis for thermal display design.
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U2 - 10.1109/TOH.2019.2894153
DO - 10.1109/TOH.2019.2894153
M3 - Article
C2 - 30835230
AN - SCOPUS:85077026758
SN - 1939-1412
VL - 12
SP - 594
EP - 603
JO - IEEE Transactions on Haptics
JF - IEEE Transactions on Haptics
IS - 4
M1 - 8653424
ER -