神経データ解析ワークショップのご案内

本領域主催で以下のミニワークショップを開催致します。関心がお有りの方はぜひご参加下さい。事前の参加登録は不要です。詳細は以下をご覧ください。

「神経データ解析ワークショップ」
主催：新学術領域「非線形発振現象を基盤としたヒューマンネイチャーの理解」
日時：２０１６年２月２２日（月） 13:00 - 18:30
場所：京都大学附属病院 第二臨床講堂（地図の２３番「臨床講堂」の地下１階）

プログラム：
13:00-14:00 「Multi-scale neuron recordings and analysis of network interaction」
　Presenter:Sonja Gruen
　 Institute of Neuroscience and Medicine, Computational and Systems Neuroscience & Institute for
　 Advanced Simulation, Theoretical Neuroscience, Research Centre Jülich, Germany
14:00-15:00 「Spike-to-LFP phase locking in monkey visual cortex: methods and applications」
　Presenter：Junji Ito
　 Institute of Neuroscience and Medicine, Computational and Systems Neuroscience & Institute for
　 Advanced Simulation, Theoretical Neuroscience, Research Centre Jülich, Germany
15:00-15:15 (Break)
15:15-15:45 「Sparse estimation of oscillator network from fluctuating rhythmic data」
　Presenters:Takahiro Goto, Kazuki Koyama, and Toshio Aoyagi
　 Nonequilibrium Physics and Theoretical Neuroscience, Sub-department of Complex Dynamics,
　 Graduate School of Informatics, Kyoto University
15:45-16:15 「Dynamic alteration of coupling between slow waves and high gamma activities in different sleep stages: human electrocorticogram (ECoG) study」
　Presenters: Jumpei Togawa, Morito Inouchi, Riki Matsumoto, Masao Matsuhashi, Katsuya Kobayashi, Kiyohide Usami, Takefumi Hitomi, Takeharu Kunieda, Susumu Miyamoto, Ryosuke Takahashi and Akio Ikeda
　 Department of Neurology, Kyoto University, Kyoto. Japan
16:15-17:15 「Towards reproducible analysis of electrophysiological data」
　Presenter:Sonja Gruen
　 Institute of Neuroscience and Medicine, Computational and Systems Neuroscience & Institute for
　 Advanced Simulation, Theoretical Neuroscience, Research Centre Jülich, Germany
17:15-17:30 (Break)
17:30-18:30 「Construction of a system for managing and reuse the physiological data with various modalities (tentative)」
　Presenter:Takafumi Akasaki and Masao Kawasaki
　 Division of Frontier Informatics, Graduate School of Kyoto Sangyo University;
　 Department of Dynamic Brain Imaging, Brain Information Communication Research Group, ATR.