Kawato Mitsuo | Atr Computational Neuroscience Laboratories
スポンサーリンク
概要
関連著者
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Kawato Mitsuo
Atr Computational Neuroscience Laboratories
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Kawato Mitsuo
Atr Computational Neuroscience Laboratories Dep. Of Computational Neurobiology 2-2-2 Hikaridai Seika
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KAWATO Mitsuo
ATR Computational Neuroscience Labs
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Schaal Stefan
Atr Computational Neuroscience Labs
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Schaal Stefan
Atr Computational Neuroscience Laboratories
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Morimoto Jun
Atr Computational Neuroscience Laboratories
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Wada Yasuhiro
Nagaoka University Of Technology
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OSU Rieko
ERATO Dynamic Brain Project
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SHIBATA Tomohiro
Metalearing and Neuromodulation, CREST, Japan Science and Technology Corporation
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TABATA Hiromitsu
Graduate School of Medicine, Kyoto University
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Tabata Hiromitsu
Nara Institute Of Science And Technology:national Institute Of Advanced Industrial Science And Techn
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Doya Kenji
Atr Computational Neuroscience Labs
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Doya Kenji
Atr Computational Neuroscience Laboratories
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Kawato M
Atr Computational Neurosci. Lab. Kyoto Jpn
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Kawato Mitsuo
Nara Institute Of Science And Technology:atr Human Information Science Laboratories
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MIYAMOTO Hiroyuki
Kawato Dynamic Brain Project, Japan Science and Technology Corporation
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Shibata Tomohiro
Nara Institute Of Science And Technology:atr Human Information Science Laboratories
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Osu Rieko
Atr Computational Neuroscience Laboratories
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MORISHIGE Ken-ichi
Toyama Prefectural University
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MIYAMOTO Hiroyuki
Kyushu Institute of Technology
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Haruno Masahiko
Atr Computational Neuroscience Laboratories Department Of Computational Neurobiology
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NISHINA Shigeaki
ATR Computational Neuroscience Laboratories
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Miyamoto Hiroyuki
Kawato Dynamic Brain Project Japan Science And Technology Corporation
著作論文
- Heterarchical reinforcement-learning model for integration of multiple cortico-striatal loops : fMRI examination in stimulus-action-reward association learning
- A model of smooth pursuit in primates based on learning the target dynamics
- Reinforcement learning with via-point representation
- Feedforward impedance control efficiently reduce motor variability
- A via-point time optimization algorithm for complex sequential trajectory formation
- A computational model of spatio-temporal dynamics in depth filling-in
- S3f2-3 Towards Manipulative Neuroscience based on Brain Network Interface(S3-f2: "Advances in Anatomical, Functional, and Computational Brain Imaging",Symposia,Abstract,Meeting Program of EABS & BSJ 2006)