Faculty - HIRATA Yutaka |

HIRATA Yutaka

Department / Course College of Science and Engineering Department of Artificial Intelligence and Robotics

College of Engineering Department of Robotic Science and Technology

Chubu University Academy of Emerging Sciences

Center for Mathematical Science and Artificial Intelligence

Graduate School of Engineering Department of Robotic Science and Technology

Job Professor

Lecturer and lecture
2024/02/09	Adaptive robot control using artificial and real cerebella (Bordeaux)
2022/10/18	Cerebellar roles in predictive reflexive eye movements and the Dragon Ball effect (online)
2019/04/21	Acquisition and maintenance of predictive optokinetic response require the cerebellum and the velocity storage mechanism (Memorial Auditorium of the Kyoto University Medical School)
2018/12/01	Cerebellar role in predicitive control of eye movement in fish and humans (Tokyo Medical and Dental University)
2018/09/06	Adaptive oculomotor control in fish and humans – from neural mechanism to mathematical modeling, cerebellum-machine interface, artificial cerebellum, robot control, sleepiness prediction, and motor learning facilitation (Ohio University)
2017/09/12	Predictive eye movement control in human and fish: Cerebellum is necessary but not sufficient (Washington University School of Medicine)
2017/06	The cerebellum is necessary but not sufficient for the acquisition of predictive motor control: in the case of optokinetic eye movement in zebrafish, medaka, carp, goldfish, and humans (CiNET)
2016/11	Adaptive control of reflexive eye movements in fish and humans: Goldfish BMI, Artificial cerebellum, and Sleepiness prediction (電気通信大学)
2016/08/25	Predictors of sleepiness in your eyes (Washington University School of Medicine)
2016/07	Neural mechanisms of adaptive oculomotor control. from animal experiments, neuronal circuitry modeling, cerebellum-machine interface to robot control, sleepiness detection, and motor learning promotion (Okinawa Institute of Technology)
2015/09	Hyper-gravity accelerates motor learning in goldfish and humans as predicted in Dragon Ball (Washington University School of Medicine)
2015/08/18	What we have learned from the comparison of eye movement performance and plasticity in fish and primates (Massachusetts Eye and Ear Infirmary)
2014/08/25	Cerebellar dependent adaptation of reflexive eye movements in fish and primates (Washington University School of Medicine)
2013/11/05	Understanding of reflexive eye movement control by neurophysiology, modeling-simulation, and brain-machine interface (University of Washington)
2013/03/21	From fish VOR to human VOR (Putra Malaysia University)