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Publication

○English (refereed)

2025-

1. Kuroda, N., Hidaka, S., Tereamoto, W. (2025). Comparable magnitude of haptic size adaptation aftereffects between younger and older people. Experimental Brain Research, 243, 193.
Website

2024-

2. Chen, N., Hidaka, S., Ishii, N., Wada, M. (2024). People with higher systemizing traits have wider right hands. Frontiers in Psychiatry, section Autism, 15, 1404559. Website
3. Hidaka, S., Tucciarelli, R., Yusuf, S., Memmolo, F., Rajapakse, S., Azañón, E., and Longo, M. R. (2024). Haptic touch modulates size adaptation aftereffects on the hand. Journal of Experimental Psychology: Human Perception and Performance, 50(10), 989–999. Website
4. Uno, K. and Hidaka, S. (2024). No effect of spatial congruence on rapid temporal recalibration to audiovisual asynchrony. Psychonomic Bulletin & Review, 31, 1615–1626. Website

2023

5. Hidaka, S., Takeshima, M., and Kawagoe, T. (2023). No relationships between frequencies of mind wandering and perceptual rivalry. i-Perception, 14(6), 1–14. Website
6. Hidaka, S., Chen, N., Ishii, N., Iketani, R., Suzuki, K., Longo, M. R., and Wada, M. (2023). No differences in implicit hand maps among different degrees of autistic traits. Autism Research, 16(9), 1750–1764. Website
7. Hidaka, S., Gotoh, M., Yamamoto, S., and Wada, M. (2023). Exploring relationships between autistic traits and body temperature, circadian rhythms, and age. Scientific Reports, 13, 5888. Website

2022

8. Hidaka, S., Tucciarelli, R., Azañón, E., and Longo, M. R. (2022). Tilt adaptation aftereffects reveal fundamental perceptual characteristics of tactile orientation processing on the hand. Journal of Experimental Psychology: Human Perception and Performance, 48(12), 1427–1438. Website
9. Suzuishi, Y., and Hidaka, S. (2022). Noninformative vision of body movements can enhance tactile discrimination. i-Perception, 13(1), 1–13. Website

2021

10. Hidaka, S., Sasaki, K., Kawagoe, T., Asai, N., and Teramoto, W. (2021). Bodily ownership and agency sensations in a natural state. Scientific Reports, 11, 8651. Website
11. Hidaka, S., Tamè, L., and Longo, M. R. (2021). Tactile interactions in the path of tactile apparent motion. Cognition, 209, 104569. Website

2020

12. Yaguchi, A., and Hidaka, S. (2020). Autistic communication and imagination sub-traits are related to audiovisual temporal integration in the stream-bounce illusion.Multisensory Research, 34, 477–492. Website
13. Suzuishi, Y., Hidaka, S., Kuroki, S. (2020). Visual motion information modulates tactile roughness perception. Scientific Reports, 10, 13929. Website
14. Hidaka, S., Tucciarelli, R., Azañón, E., and Longo, M. R. (2020). Tactile distance adaptation aftereffects do not transfer to perceptual hand maps. Acta Psychologica., 208, 103090. Website
15. Hidaka, S., Tamè, L., Zafarana, A., and Longo, M. R. (2020). Anisotropy in tactile time perception. Cortex., 128, 124–131. Website
16. Yaguchi, A., and Hidaka, S. (2020). Unique relationships between autistic traits and visual, auditory, and tactile sensory thresholds in typically developing adults. Perception, 49, 405–421. Website

2018

17. Hidaka, S., Suzuishi, Y., Ide, M., and Wada, M. (2018). Effects of spatial consistency and individual difference on touch-induced visual suppression effect. Scientific Reports, 8, 17018. Website
18. Hidaka, S., Suzuishi, Y., and Kitagawa, N. (2018). Investigating the effects of tactile masking and surface texture on the velvet hand illusion. Perception, 47, 1070–1080. Website
19. Sugita, Y., Hidaka, S., and Teramoto, W. (2018). Visual percepts modify iconic memory in humans. Scientific Reports, 8, 13396. Website
20. Hidaka, S. and Yaguchi, A. (2018). An investigation of the relationships between autistic traits and crossmodal correspondences in typically developing adults. Multisensory Research, 31, 729–751. Website
21. Yaguchi, A., and Hidaka, S. (2018). Distinct autistic traits are differentially associated with the width of the multisensory temporal binding window. Multisensory Research, 31, 523–536. Website

2017

22. Hidaka, S., Higuchi, S., Teramoto, W., and Sugita, Y. (2017). Neural mechanisms underlying sound-induced visual motion perception: An fMRI study. Acta Psychologica, 178, 66–72. Website

2016

23. Ide, M., Hidaka, S., Ikeda, H., and Wada, M. (2016). Neural mechanisms underlying touch-induced visual perceptual suppression: An fMRI study. Scientific Reports, 6, 37301. Website
24. Sato, T., Mizoguchi, H., Arakawa, A.,Hidaka, S., Takasuna, M., and Nishikawa, Y. (2016). History of “History of Psychology” in Japan. Japanese Psychological Research, 58, 110-128. Website

2015

25. Hidaka, S., Teramoto, W., and Sugita, Y. (2015) Spatiotemporal processing in crossmodal interactions for perception of the external world: A review. Frontiers in Integrative Neuroscience, 9, 62. (Special issue: Integration and segregation in sensorimotor processing) Website
26. Hidaka, S., and Ide, M. (2015) Sound can suppress visual perception. Scientific Reports, 5, 10483. Website

2014

27. Hidaka, S., and Shimoda, K. (2014) Investigation of the effects of color on judgments of sweetness using a taste adaptation method. Multisensory Research, 27(3-4), 189-205. Website

2013

28. Ide, M., and Hidaka, S. (2013) Tactile stimulation can suppress visual perception. Scientific Reports, 3, 3453. Website
29. Hidaka, S., Teramoto, W., Keetels, M., and Vroomen, J. (2013) Effect of pitch-space correspondence on sound-induced visual motion perception. Experimental Brain Research, 231(1), 117-126. Website
30. Takahashi, J., Hidaka, S., Teramoto, W., and Gyoba, J. (2013) Temporal characteristics of the effects of visual pattern redundancy on encoding and storage processes: Evidence from rapid serial visual presentation. Psychological Research, 77, 687-697. Website
31. Teramoto, W., Kobayashi, M., Hidaka, S., and Sugita, Y. (2013) Vision contingent auditory pitch aftereffects. Experimental Brain Research, 229(1), 97-102. Website
32. Ide, M., and Hidaka, S. (2013) Visual presentation of hand image modulates visuo-tactile temporal order judgment. Experimental Brain Research, 228(1), 43-50. Website
33. Honda, A., Shibata H., Hidaka, S., Gyoba, J., Iwaya, Y., and Suzuki, Y. (2013) Effects of head movement and proprioceptive feedback in training of sound localization. iPerception, 4(4), 253–264. (Special issue: Multisensory perception) Website
34. Hidaka, S., and Nagai, M. (2013) Illusory motion and mislocalization of temporally offset target in apparent motion display. Frontiers in Consciousness Research, 4, 196. (Special issue: Awareness shaping or shaped by prediction and postdiction) Website

2012

35. Kobayashi, M., Teramoto, W., Hidaka, S., and Sugita, Y. (2012) Sound frequency and aural selectivity in sound-contingent visual motion aftereffect. PLoS ONE, 7(5), e36803. Website
36. Kobayashi, M., Teramoto, W., Hidaka, S., and Sugita, Y. (2012) Indiscriminable sounds determine the direction of visual motion. Scientific Reports, 2, 365. Website
37. Hidaka, S., Shibata, H., Kurihara, M., Tanaka, A., Konno, A., Maruyama, S., Gyoba, J., Hagiwara, H., and Koizumi, M. (2012) Effect of second language exposure on brain activity for language processing among preschoolers. Neuroscinence Research, 73, 73-79. Website
38. Hidaka, S., Teramoto, W., and Nagai, M. (2012) Sound can enhance the suppression of visual target detection in apparent motion trajectory. Vision Research, 59, 25-33. Website
39. Teramoto, W., Hidaka, S., Sugita, Y., Sakamoto, S., Gyoba, J., Iwaya, Y., and Suzuki, Y. (2012) Sounds can alter the perceived direction of a moving visual object. Journal of Vision, 12(3):11, 1-12. Website [Feartured on New Scientist web page]

2011

40. Hidaka, S., Nagai, M., Sekuler, A.B., Bennett, P.J., and Gyoba, J. (2011) Inhibition of target detection in apparent motion trajectory. Journal of Vision, 11(10):2, 1-12. Website
41. Hidaka, S., Teramoto, W., Kobayashi, M., and Sugita, Y. (2011) Sound-contingent visual motion aftereffect. BMC Neuroscience, 12(44), 1-6. Website
42. Hidaka, S., Teramoto, W., Sugita, Y., Manaka, Y., Sakamoto, S., and Suzuki, Y. (2011) Auditory motion information drives visual motion perception. PLoS ONE, 6(3), e17499. Website

2010

43. Teramoto, W., Hidaka, S., Gyoba, J., and Suzuki, Y. (2010) Auditory temporal cues can modulate visual representational momentum. Attention, Perception & Psychophysics, 72(8), 2215-2226. Website
44. Hidaka, S., Teramoto, W., Gyoba, J., and Suzuki, Y. (2010) Sound can prolong the visible persistence of moving visual objects. Vision Research, 50(20), 2093-2099. Website
45. Teramoto, W., Hidaka, S., and Sugita, Y. (2010) Sound move a static visual object. PLoS ONE, 5(8), e12255. Website
46. Teramoto, W., Manaka, Y., Hidaka, S., Sugita, Y., Miyauchi, R., Sakamoto, S., Gyoba, J., Iwaya, Y., and Suzuki, Y. (2010) Visual motion perception induced by sounds in vertical plane. Neuroscience Letters, 479(3), 221-225. Website

2009

47. Hidaka, S., Manaka, Y., Teramoto, W., Sugita, Y., Miyauchi, R., Gyoba, J., Suzuki, Y., and Iwaya, Y. (2009) Alternation of sound location induces visual motion perception of a static object. PLoS ONE, 4(12), e8188. Website
48. Hidaka, S., Nagai, M., and Gyoba, J. (2009) Spatiotemporally coherent motion direction perception occurs even for spatiotemporal reversal of motion sequence. Journal of Vision, 9(13):6, 1-12. Website
49. Hidaka, S., Kawachi, Y., and Gyoba, J. (2009) The representation of moving 3-D objects in apparent motion perception. Attention, Perception & Psychophysics, 71(6), 1294-1304. Website

2008

50. Hidaka, S., Kawachi, Y., and Gyoba, J. (2008). Depth representation of moving 3D objects in apparent motion path. Perception, 37(5), 688-703. Website
51. Honda, A., Shibata, H., Hidaka, S., Iwaya, Y., Gyoba, J., and Suzuki, Y. (2008). Transfer effects on auditory skills from playing virtual three-dimensional auditory display games (pp. 141－157). In B. N. Weiss (Ed), New Research on Acoustics, Hauppauge, NY: Nova Science Publishers. Website

○Books

1. Teramoto, W., Hidaka, S., and Sugita, Y. (2018). Auditory bias in visual motion perception. In Spatial biases in perception and cognition. Hubbard, T. L. (Ed.). Cambridge, UK: Cambridge University Press.

○Japanese (refereed)

1. Ikeda, H., Tanaka, C., Hidaka, S., Ishiyama, T., and Miyazaki, G. (2016) Effects of image resolutions on subjective impressions of moving images in association with image contents and the presentation manner of movies. Cognitive Studies, 23(2), 101-117.
2. Ikeda, H., Tanaka, C., Ishiyama, T., Hidaka, S., and Miyazaki, G. (2015) Are there any impressive differences for viewers between ultra high-resolution and high definition images? International Journal of Affective Engineering, 14(3), 369-379.
3. Teramoto, W., Yoshida, K., Hidaka, S., Asai, N.,Gyoba, J., Sakamato, S., Iwaya, Y., and Suzuki, Y. (2010) Spatio-temporal characteristics responsible for high‘Vraisemblance.' Trans. Virtual Reality of Japan, 15, 483-486.
4. Teramoto, W., Yoshida, K., Asai, N., Hidaka, S., Gyoba, J., and Suzuki, Y. (2010) What is "Sense of Presence"? A Non-researcher's Understanding of Sense of Presence. Trans. Virtual Reality of Japan, 15(1), 7-16.
5. Hidaka, S., and Gyoba, J. (2009) Hisotry and characteristics of the classical psychological apparatus used in Tohoku University: Findings obtained from a study cpmparing the apparatus with that of Kyoto University. History of Psychology and Psychology Studies, 10/11, 49-55.

○Others

1. Hidaka, S., and Gyoba, J. (2008) Internal representations of moving objects in apparent motion perception. Japanese Psychological Review, 51(2), 220-234. (Invited paper)
2. Hidaka, S., Shigeta, R., Kawachi, Y., Sakuta, Y. and Gyoba, J. (2008). Speed and consistency of sound-color association in a colored-hearing test. Tohoku Psychologica Folia, 66, 68-74.
3. Hidaka, S., Kawachi, Y., and Gyoba, J. (2006). Analyses of internal depth information of 3-D objects in apparent motion path. Tohoku Psychologica Folia, 65, 1-9.

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