Takinoue Masahiro | Dept. Of Life Sci Grad Sch Of Arts & Sci Univ. Of Tokyo:jst-crest
スポンサーリンク
概要
関連著者
-
Takinoue Masahiro
Dept. Of Life Sci Grad Sch Of Arts & Sci Univ. Of Tokyo:jst-crest
-
Takinoue Masahiro
Dept. Computational Intelligence And Systems Science Tokyo Tech
-
Takinoue Masahiro
Dept. Phys., Kyoto Univ.
-
Yoshikawa Kenichi
Dept. of Physics, Kyoto Univ.
-
木賀 大介
東工大・院総合理工・知能システム
-
Ma Yue
Dept. Phys. Kyoto Univ.:icorp Jst
-
Suyama Akira
Dept. Of Life Sciences Tokyo Univ.
-
Suyama Akira
Dept. Of Life Sci Grad Sch Of Arts & Sci Univ. Of Tokyo:jst-crest
-
Hagiya Masami
Grad. Sch. of Info. Sci. and Tech. The Univ. of Tokyo
-
Endoh Takahiko
Dept. of Life Sci, Grad Sch of Arts & Sci, Univ. of Tokyo
-
Endoh Takahiko
Dept. Of Life Sci Grad Sch Of Arts & Sci Univ. Of Tokyo
-
Yamamura Masayuki
Dept. Of Computational Intelligence And Systems Science Interdisciplinary Graduate School Of Science
-
Yoshikawa Kenichi
Dept. Of Physics Kyoto Univ.
-
Takinoue Masahiro
Dept. Phys. Kyoto Univ.
-
Ishimatsu Kana
Dept. Computational Intelligence And Systems Science Tokyo Tech
-
Sekine Ryoji
Dept. Computational Intelligence and Systems Science, Tokyo Tech
-
Ayukawa Shotaro
Dept. Computational Intelligence and Systems Science, Tokyo Tech
-
Akama Satoru
Dept. Computational Intelligence and Systems Science, Tokyo Tech
-
Ayukawa Shotaro
Dept. Computational Intelligence And Systems Science Tokyo Tech
-
Hagiya Masami
Grad. Sch. Information Science And Technology U. Tokyo
-
Sekine Ryoji
Dept. Computational Intelligence And Systems Science Tokyo Tech
-
Yamamura Masayuki
Dept. Computational Intelligence And Systems Science Tokyo Tech
-
Akama Satoru
Dept. Computational Intelligence And Systems Science Tokyo Tech
著作論文
- 2P-304 生体膜による非平衡開放系の効果を取り入れた細胞の生命機能モデリング(非平衡/生体リズム,第46回日本生物物理学会年会)
- 2P501 Molecular addressing enlarge the capacity of DNA molecular memory immobilized on a substrate(51. New methods and tools (II),Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)
- 2SL-04 Waddington地形上において自律的な細胞間シグナリングによって表現系を多様化する調節可能なシステムの細胞内における構築(2SL 生命システムの情報処理,日本生物物理学会第49回年会(2011年度))