Research field (1):
Perceptual information processing
Research theme for competitive and other funds (2):
2008 - 知の伝達メカニズムを探る~身振り伝達コミュニケーションに基づく行動の記憶と再生
2008 - パラサイトヒューマンネットによる五感情報通信と環境センシング・行動誘導
Papers (430):
Hara Akiyoshi, Watanabe Ryo, Furukawa Masahiro, Maeda Taro. Proposal Method for Suppression of Circulation Current due to Short-circuit between Electrodes during Vestibular Sense Presentation in GVS. Transactions of the Virtual Reality Society of Japan. 2022. 27. 3. 201-209
Hara Akiyoshi, Watanabe Ryo, Furukawa Masahiro, Maeda Taro. Extension in Orientation of Vestibular Sensory Display with Time-Division Galvanic Vestibular Stimulation. Transactions of the Virtual Reality Society of Japan. 2022. 27. 3. 210-217
Stable Time-invariant Representation of Event-invariant Phenomena in the Eigenfunction Synchronicity Model. neuro2022. 2022. 3P-265
Ming Chang, Yusuke Yokota, Hideyuki Ando, Taro Maeda, Yasushi Naruse. Comparison and combination of gamified neurofeedback training and general behavioral training. PloS one. 2022. 17. 12. e0278762
T.Maeda, N.Nishio. A Whole Brain Synchronicity Neural Computing Model -Part 1. Neuroscience 2021. 2021. P949.01
MAEDA Taro. Perceptions and reflexes to illusionary acceleration produced by galvanic vestibular stimulation and their applications. Oyo Buturi. 2021. 90. 9. 555-559
前田 太郎. NTTコミュニケーション科学基礎研究所人間情報研究部感覚運動研究グループ : パラサイトヒューマンサブグループ. 日本バーチャルリアリティ学会誌 = Journal of the Virtual Reality Society of Japan. 2006. 11. 4. 270-271
Verification of versatility of trochoid mobility by camber angle control-A mechanism for omnidirectional mobility without omniwheels (IX)-
(The Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec) 2020)
Numerical controlled mechanism to run on trochoidal trajectory with flexible mode transition- A mechanism for omnidirectional mobility without omniwheels (VII) -
(The Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec) 2017)