Hiroaki Gomi

Affiliations: 
NTT Communication Science Labs. 
Area:
Visuomotor system
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"Hiroaki Gomi"
Mean distance: 14.82 (cluster 29)
 
SNBCP
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Publications

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Ito S, Gomi H. (2020) Visually-updated hand state estimates modulate the proprioceptive reflex independently of motor task requirements. Elife. 9
Takamuku S, Gomi H. (2019) Better grip force control by attending to the controlled object: Evidence for direct force estimation from visual motion. Scientific Reports. 9: 13114
Ueda H, Abekawa N, Ito S, et al. (2019) Distinct temporal developments of visual motion and position representations for multi-stream visuomotor coordination. Scientific Reports. 9: 12104
Ueda H, Abekawa N, Gomi H. (2018) The faster you decide, the more accurate localization is possible: Position representation of "curveball illusion" in perception and eye movements. Plos One. 13: e0201610
Ueda H, Abekawa N, Gomi H. (2018) The faster you decide, the more accurate localization is possible: Position representation of "curveball illusion" in perception and eye movements. Plos One. 13: e0201610
De Havas J, Ito S, Haggard P, et al. (2018) Low Gain Servo Control During the Kohnstamm Phenomenon Reveals Dissociation Between Low-Level Control Mechanisms for Involuntary vs. Voluntary Arm Movements. Frontiers in Behavioral Neuroscience. 12: 113
Takamuku S, Forbes PAG, Hamilton AFC, et al. (2018) Typical use of inverse dynamics in perceiving motion in autistic adults: Exploring computational principles of perception and action. Autism Research : Official Journal of the International Society For Autism Research
Abekawa N, Ferrè ER, Gallagher M, et al. (2018) Disentangling the visual, motor and representational effects of vestibular input. Cortex; a Journal Devoted to the Study of the Nervous System and Behavior. 104: 46-57
De Havas J, Gomi H, Haggard P. (2017) Experimental investigations of control principles of involuntary movement: a comprehensive review of the Kohnstamm phenomenon. Experimental Brain Research
Amemiya T, Beck B, Walsh V, et al. (2017) Visual area V5/hMT+ contributes to perception of tactile motion direction: a TMS study. Scientific Reports. 7: 40937
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