CHUBU UNIVERSITY
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INAGAKI Keiichiro

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Title Senior Assistant Professor
Belong to Dept. of Robotic Science and Technology
Robotic Science and Technology (graduate school)
Graduated Chubu University
Degree Ph.D (Eng.) Chubu University
Academic Institutional Membership Society for Neuroscience
IEEE
IEICE
Japanese Neural Network Society
Field of Study Neuroscience, Computational Science, Neuroinformatics
Research, Studies

Books Published, Translation

Model on visualization and analysis for peripheral drift illusion, Advances in Cognitive Neurodynamics (III), in press.

A next generation modeling environment PLATO: Platform for collaborative brain system modeling, Lecture Notes in Computer Science, 5863, pp.84-90, 2008.

Academic Papers, Critique

Academic Papers, Critique

A model-based theory in the signal transformation for the microsaccade generation, Neural Networks, vol.24, 9, pp.990-997, 2011.

PLATO: Data-oriented approach to collaborative large-scale brain system modeling, Neural Networks, vol.24, 9, pp.918-926, 2011.

Simulation Platform: A cloud-based online simulation environment, Neural networks, vol.24, 7, pp.693-698, 2011.

Analysis of Frequency Selective Vestibuloocular Reflex Motor Learning Using Cerebellar Spiking Neuron Network Model,IEICE D, vol.J94-D, no.5, pp.919-928, 2011.

Method for the construction and use of carbon fiber multibarrel electrodes for deep brain recordings in the alert animal, Journal of neuroscience methods, vol. 178, pp.255-262, 2009.

Computer simulation of vestibuloocular reflex motor learning using a realistic cerebellar cortical neuronal network model,Neural Information Processing, Vol. 4984, pp.902-912, 2008

The Model of Vestibuloocular Reflex Explicitly Describing Cerebellar Neuronal Network,IEICE D,vol. J90-D,no.5,pp.1293-1304,2007.

A recurrent neural network approach to rear vehicle detection which considered state dependency, Journal of Systemics, Cybernetics and Informatics, vol.1, no.4, pp.72-77, 2003.

Lectures, Symposium, Presentation

Lectures, Symposium, Presentation

Improvement of Simulation Platform for providing reliable and easy use model simulation environment, 5th INCF Congress of Neuroinformatics, Munich, 2012.

PLATO: Platform for integrating large-scale brain model from sub-system models, 4th INCF Congress of Neuroinformatics, Boston, US, 2011.

Simulation Platform: Quick and easy access environment of model simulation in computational neuroscience, 4th INCF Congress of Neuroinformatics, Boston, US, 2011.

A large-scale whole visual system model integrated by PLATO and its implementation on high performance computer, 4th INCF Congress of Neuroinformatics, Boston, US, 2011.

Simulation platform: cloud-computing meets computational neuroscience, 20th Annual Computational Neuroscience Meeting, Stockholm, Sweden, 2011. (BMC Neuroscience 2011, 12(Suppl 1):P346, 2011).

Visualization and analysis of peripheral drift illusion, 20th Annual Computational Neuroscience Meeting, Stockholm, Sweden, 2011. (BMC Neuroscience, 12(Suppl 1):P347, 2011).

Model on visualization and analysis for peripheral drift illusion, The 3rd International Conference on Cognitive Neurodynamics, p172, Niseko, Japan, 2011.

Simulation Platform: Model simulation on the cloud, 3rd INCF Congress of Neuroinformatics, Kobe, Japan, 2010.

Neuroinformatics environment: collecting, sharing, integrating and modeling data to support brain and neuroscience research, 3rd INCF Congress of Neuroinformatics, Kobe, Japan, 2010.

Environment for an integrative model simulation: PLATO, 3rd INCF Congress of Neuroinformatics, Kobe, Japan, 2010.

The origin of the frequency selectivity in VOR motor learning revealed by a realistic cerebellar spiking neuron network model, 19th Annual Computational Neuroscience Meeting, San Antonio, US, 2010. (BMC Neuroscience, vol.11 (Suppl.1), P 107, 2010.)

A modeling study on the signal transformation for the microsaccade generation, 19th Annual Computational Neuroscience Meeting, San Antonio, US, 2010. (BMC Neuroscience, vol.11 (Suppl.1), P 115, 2010.).

A next generation modeling environment PLATO: Platform for collaborative brain system modeling, 16th International Conference on Neural Information Processing, Bangkok, Thailand, 2009.

Effect of blocking inhibition in the spatial and temporal responses of cerebellar ventral paraflocculus Purkinje cells during oculomotor behaviors, Society for Neuroscience 2009, Chicago, US, 2009.

Platform for collaborative brain system modeling (PLATO), Society for Neuroscience 2009, Chicago, US, 2009.

Platform for collaborative brain system modeling (PLATO): toward large scale modeling for visual system, Frontiers in Neuroinformatics. Conference Abstract: 2nd INCF Congress of Neuroinformatics, Pilsen, Czech Republic, 2009.

Simulation Platform: a test environment of computational models via web, Frontiers in Neuroinformatics. Conference Abstract: 2nd INCF Congress of Neuroinformatics, Pilsen, Czech Republic, 2009.

Computer simulation of vestibuloocular reflex motor learning using a realistic cerebellar cortical neuronal network model,14th International Conference on Neural Information Processing, Kitakyusyu, Japan, 2007.

Cerebellar flocculus Purkinje cell complex spikes during VOR in the dark before and after VOR motor learning in squirrel monkeys, Society for Neuroscience 2007, San Diego, US, 2007.

A realistic model of VOR motor learning with spiking cerebellar cortical neuronal network, IEEE 2006 International Symposium on Intelligent Signal Processing and Communication Systems, Yonago, JAPAN, 2006.

Model of VOR motor learning with spiking cerebellar cortical neuronal network,16th Annual Computational Neuroscience Meeting, Edinburgh, UK, 2006.

Flocculus Purkinje cell complex spikes during acute motor learning of the horizontal vestibuloocular reflex in squirrel monkeys, Society for Neuroscience 2006, Atlanta, US, 2006.

Cerebellar cortical network model for vestibuloocular reflex motor learning, Society for Neuroscience 2005, Washington DC, US,2005.

A recurrent neural network approach to rear vehicle detection, 7th World Multiconference on Systemics, Cybernetics and Informatics, vol.7, pp.126-131, Orlando, US, 2003.

Social Activities

Fronier in Neuroinformatics, REVIEW EDITORS

Japanese Neural Network Society, member of editorial board

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