Yutaka Hirata
Affiliations: | Chubu Univ. College of Engineering, Kasugai-shi, Aichi-ken, Japan |
Area:
Motor learning, cerebellum, vestibular systemWebsite:
http://www.elec.chubu.ac.jp/hirata-Lab/index.htmlGoogle:
"Yutaka Hirata"Mean distance: 16.17 (cluster 34) | S | N | B | C | P |
Parents
Sign in to add mentor| Shiro Usui | grad student | ||
| Stephen M. Highstein | post-doc | 1997-2000 | Washington University School of Medicine |
Collaborators
Sign in to add collaborator| Pablo M. Blazquez | collaborator | 2001- | Washington University School of Medicine |
| Joshua P. Bassett | collaborator | 2008-2009 | Chubu Univ. College of Engineering |
BETA: Related publications
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Publications
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| Soga J, Matsuyama M, Miura H, et al. (2020) Cerebellar Roles in Frequency Competitive Motor Learning of the Vestibulo-ocular Reflex. Neuroscience |
| Miki S, Urase K, Baker R, et al. (2020) Velocity storage mechanism drives a cerebellar clock for predictive eye velocity control. Scientific Reports. 10: 6944 |
| Sugawara T, Sakai H, Hirata Y. (2019) Vestibulo-ocular reflex characteristics during unidirectional translational whole-body vibration without head restriction. Ergonomics. 1-10 |
| Takatori S, Inagaki K, Hirata Y. (2018) Realization of Direction Selective Motor Learning in the Artificial Cerebellum: Simulation on the Vestibuloocular Reflex Adaptation. Conference Proceedings : ... Annual International Conference of the Ieee Engineering in Medicine and Biology Society. Ieee Engineering in Medicine and Biology Society. Annual Conference. 2018: 5077-5080 |
| Miki S, Baker R, Hirata Y. (2018) Cerebellar role in predictive control of eye velocity initiation and termination. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience |
| Inagaki K, Hirata Y. (2017) Computational Theory Underlying Acute Vestibulo-ocular Reflex Motor Learning with Cerebellar Long-Term Depression and Long-Term Potentiation. Cerebellum (London, England) |
| Ishise H, Larson B, Hirata Y, et al. (2015) Hypertrophic scar contracture is mediated by the TRPC3 mechanical force transducer via NFkB activation. Scientific Reports. 5: 11620 |
| Pinzon-Morales RD, Hirata Y. (2015) A realistic bi-hemispheric model of the cerebellum uncovers the purpose of the abundant granule cells during motor control. Frontiers in Neural Circuits. 9: 18 |
| Pinzon-Morales RD, Hirata Y. (2014) A bi-hemispheric neuronal network model of the cerebellum with spontaneous climbing fiber firing produces asymmetrical motor learning during robot control. Frontiers in Neural Circuits. 8: 131 |
| Pinzon-Morales RD, Hirata Y. (2014) A portable stand-alone bi-hemispherical neuronal network model of the cerebellum for adaptive robot control 2014 Ieee International Conference On Robotics and Biomimetics, Ieee Robio 2014. 1148-1151 |