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Press Release

  1. 1. Takatomi Kubo, プログラム理解能力に関連する脳活動パターンの特定に成功 〜習熟度の高いプログラマーほど、 プログラム理解のために脳活動が洗練されている可能性〜, 奈良先端科学技術大学院大学, 2020, 国内,ネットニュース BibTeX
  2. 2. Kenji Doya (OIST), Machine intelligence accelerates research into mapping brains, OIST News Center, 2020, https://www.oist.jp/news-center/press-releases/machine-intelligence-accelerates-research-mapping-brains BibTeX
  3. 3. Kenji Doya (OIST), Scientists reveal regions of the brain where serotonin promotes patience, OIST News Center, 2020, https://www.oist.jp/news-center/press-releases/scientists-reveal-regions-brain-where-serotonin-promotes-patience BibTeX
  4. 4. Masayuki Matsumoto (University of Tsukuba), Dopamine neurons mull over your options, MedicalXpress他9件, 2020, https://medicalxpress.com/news/2020-07-dopamine-neurons-mull-options.html BibTeX
  5. 5. Hiroaki Gomi (NTT), NTT脳の仕組みで新発見 伸張反射が視覚による身体情報に依存, 電経新聞, 2020, http://www.denkeishimbun.co.jp/ BibTeX
  6. 6. Hiroaki Gomi (NTT), 運動を支える脳の仕組み「伸縮反射」 調整に視覚による身体情報が関与、NTTの研究所が世界で初めて発見, 科学新聞, 2020, 2020/6/12 1面 https://sci-news.co.jp/ BibTeX
  7. 7. Hiroaki Gomi (NTT), NTT、運動中の伸張反射の調整と脳内情報処理の関連性を発見, WebMagazine AXIS, 2020, https://www.axismag.jp/posts/2020/06/217671.html BibTeX
  8. 8. Hiroaki Gomi (NTT), NTT、脳の「伸張反射」が視覚による身体情報に依存して調整されることを発見, 日本経済新聞, 2020, https://www.nikkei.com/article/DGXLRSP535033_R00C20A6000000/ BibTeX
  9. 9. Hiroaki Gomi (NTT), NTT、脳の「伸張反射」が視覚による身体情報に依存して調整されることを発見, 日経クロステック, 2020, https://xtech.nikkei.com/ BibTeX
  10. 10. Hidehiko Takahashi (Tokyo Medical and Dental University), 脳機能的結合から統合失調症・自閉症の判別法を開発し、両者の関係も明らかに―人工知能を用いた疾患判別法による精神疾患の関係性の解明に道!―, 2020, https://www.tmd.ac.jp/archive-tmdu/kouhou/20200417_1.pdf BibTeX
  11. 11. Hiroaki Gomi (NTT), Study shows how the brain balances sensory information to control muscle movement, News Medical, 2020, https://www.news-medical.net/news/20200401/Study-shows-how-the-brain-balances-sensory-information-to-control-muscle-movement.aspx BibTeX
  12. 12. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, eLife Press Release, 2020, https://elifesciences.org/for-the-press/27c84381/visual-feedback-enhances-activation-of-muscle-movement-in-response-to-bodily-sensation BibTeX
  13. 13. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, Sciene Daily, 2020, https://www.sciencedaily.com/releases/2020/03/200331130002.htm BibTeX
  14. 14. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, Eurekalert, 2020, https://www.eurekalert.org/pub_releases/2020-03/e-vfe033120.php BibTeX
  15. 15. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, News Break, 2020, https://www.newsbreak.com/news/0OdPLV9V/visual-feedback-enhances-activation-of-muscle-movement-in-response-to-bodily-sensation BibTeX
  16. 16. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, Agenparl, 2020, https://agenparl.eu/visual-feedback-enhances-activation-of-muscle-movement-in-response-to-bodily-sensation/ BibTeX
  17. 17. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, The better Parent, 2020, https://thebetterparent.com/2020/03/visual-feedback-enhances-activation-of-muscle-movement-in-response-to-bodily-sensation/ BibTeX
  18. 18. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, Bioengineering facebook, 2020, https://www.facebook.com/permalink.php?id=155114304512496&story_fbid=3096827447007819 BibTeX
  19. 19. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, 365newsx, 2020, https://365newsx.com/gb/article/visual-feedback-enhances-activation-of-muscle-movement-in-response-to-bodily-sensation BibTeX
  20. 20. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, into.ai, 2020, https://into.ai/blog/news-stories/visual-feedback-enhances-activation-of-muscle-movement-in-response-to-bodily-sensation/ BibTeX
  21. 21. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, BrightSurf, 2020, https://www.brightsurf.com/news/article/033120506602/visual-feedback-enhances-activation-of-muscle-movement-in-response-to-bodily-sensation.html BibTeX
  22. 22. Hiroaki Gomi (NTT), Visual feedback enhances activation of muscle movement in response to bodily sensation, NewsLocker, 2020, https://www.newslocker.com/en-uk/profession/psychology/visual-feedback-enhances-activation-of-muscle-movement-in-response-to-bodily-sensation/ BibTeX
  23. 23. Yuichi Iino (Univ Tokyo), 線虫の全脳神経活動を1細胞レベルで神経回路にマッピングする方法の開発, 2020, https://www.s.u-tokyo.ac.jp/ja/press/2020/6724/ BibTeX
  24. 24. Takashi Ikegami, オーケストラを用いたヒューマンアンドロイドによる演奏表現の共同研究, 国立音楽大学, https://www.kunitachi.ac.jp/NEWS/introduction/20200111_01.html BibTeX
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