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Hiroki Terashima
Hiroki Terashima
NTT Communication Science Laboratories
Verified email at teratti.jp - Homepage
Title
Cited by
Cited by
Year
Cascaded tuning to amplitude modulation for natural sound recognition
T Koumura, H Terashima, S Furukawa
Journal of Neuroscience 39 (28), 5517-5533, 2019
322019
The topographic unsupervised learning of natural sounds in the auditory cortex
H Terashima, M Okada
Advances in Neural Information Processing Systems 25 (NIPS 2012), 2321-2329, 2012
282012
Direct relay pathways from lemniscal auditory thalamus to secondary auditory field in mice
S Ohga, H Tsukano, M Horie, H Terashima, N Nishio, Y Kubota, ...
Cerebral Cortex 28 (12), 4424-4439, 2018
262018
Sparse codes of harmonic natural sounds and their modulatory interactions
H Terashima, H Hosoya
Network: Computation in Neural Systems 20 (4), 253-267, 2009
262009
Sparse coding of harmonic vocalization in monkey auditory cortex
H Terashima, H Hosoya, T Tani, N Ichinohe, M Okada
Neurocomputing 103, 14-21, 2013
182013
Common principles underlie the fluctuation of auditory and visual sustained attention
H Terashima, K Kihara, JI Kawahara, HM Kondo
Quarterly Journal of Experimental Psychology 74 (4), 705-715, 2021
122021
Dynamic transitions between brain states predict auditory attentional fluctuations
HM Kondo, H Terashima, T Ezaki, T Kochiyama, K Kihara, JI Kawahara
Frontiers in Neuroscience 16, 816735, 2022
82022
Human-like modulation sensitivity emerging through optimization to natural sound recognition
T Koumura, H Terashima, S Furukawa
Journal of Neuroscience 43 (21), 3876-3894, 2023
62023
Pupillary fluctuation amplitude preceding target presentation is linked to the variable foreperiod effect on reaction time in Psychomotor Vigilance Tasks
J Yamashita, H Terashima, M Yoneya, K Maruya, H Oishi, T Kumada
Plos one 17 (10), e0276205, 2022
52022
Computational Model for Auditory Cortex: An Analogy to Visual Cortex
H Terashima
The University of Tokyo, 2014
52014
Pupillary fluctuation amplitude before target presentation reflects short-term vigilance level in Psychomotor Vigilance Tasks
J Yamashita, H Terashima, M Yoneya, K Maruya, H Koya, H Oishi, ...
Plos one 16 (9), e0256953, 2021
32021
Sparse codes of harmonic sound and their interaction explain harmony-related response of auditory cortex
H Terashima, H Hosoya
BMC Neuroscience 11 (Suppl 1), O19, 2010
32010
Prefrontal GABA and glutamate–glutamine levels affect sustained attention
HM Kondo, H Terashima, K Kihara, T Kochiyama, Y Shimada, ...
Cerebral Cortex 33 (19), 10441-10452, 2023
22023
Cascaded processing of amplitude modulation for natural sound recognition
T Koumura, H Terashima, S Furukawa
BioRxiv, 308999, 2018
22018
Predicting tingling sensations induced by autonomous sensory meridian response (ASMR) videos based on sound texture statistics: a comparison to pleasant feelings
H Terashima, K Tada, HM Kondo
Philosophical Transactions of the Royal Society B 379 (1908), 20230254, 2024
12024
ESP: Extra-sensory puck in air hockey using the projection-based illusion
K Sato, H Terashima, S Nishida, Y Watanabe
SIGGRAPH Asia 2022 Emerging Technologies, 1-2, 2022
12022
Corrigendum: direct relay pathways from lemniscal auditory thalamus to secondary auditory field in mice
S Ohga, H Tsukano, M Horie, H Terashima, N Nishio, Y Kubota, ...
Cerebral Cortex 31 (4), 2305-2305, 2021
12021
Data-driven approaches for unveiling the neurophysiological functions of the auditory system
S Furukawa, H Terashima, T Koumura, H Tsukano
Acoustical Science and Technology 41 (1), 63-66, 2020
12020
“Psychophysical” modulation transfer functions in a deep neural network trained for natural sound recognition
T Koumura, H Terashima, S Furukawa
Proceedings of the International Symposium on Auditory and Audiological …, 2019
12019
Functional brain networks predicting sustained attention are not specific to perceptual modality
A Corriveau, J Ke, H Terashima, HM Kondo, MD Rosenberg
bioRxiv, 2024.05. 15.594382, 2024
2024
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