Search Results1-7 of  7

  • ATSUUMI KEITA ID: 9000398149028

    Bioscience and Textile Technology, Interdisciplinary Graduate School of Science and Technology, Shinshu University|Systems Engineering, Graduate School of Information Sciences, Hiroshima City University (2018 from CiNii)

    Articles in CiNii:1

    • Modeling of a Finger Based on Functional Electrical Stimulation and the Measurement of Joint Angles (2018)
  • ATSUUMI Keita ID: 9000004759659

    Graduate School of Information Science Hiroshima City University (2005 from CiNii)

    Articles in CiNii:2

    • Discontinuous Current Mode Boost Type Three-Phase PFC Converters and Comparative Performance Evaluations (2000)
    • B-2-16 A Single Axis Rotation Sensor using Linear Polarizer (2005)
  • ATSUUMI Keita ID: 9000304309578

    Hiroshima City University (2016 from CiNii)

    Articles in CiNii:6

    • 410 Controller Design for Inverted Pendulum System Using Pseudo-Linear Model and Vector Norm-Based Stability Criterion (2014)
    • G1010306 Development of a Pneumatic Arm Assistive Device with an EMG-Based Motion Prediction (2014)
    • 810 EMG-Based Motion Prediction System for a Pneumatic Power Assist Device (2015)
  • ATSUUMI Keita ID: 9000345284811

    Department of Systems Engineering, Graduate School of Information Sciences, Hiroshima City University (2016 from CiNii)

    Articles in CiNii:1

    • Development of an elbow power assist device with a water-hydraulic muscle actuator (2016)
  • ATSUUMI Keita ID: 9000399380138

    広島市立大学 大学院 情報科学研究科 (2018 from CiNii)

    Articles in CiNii:1

    • An Experimental Study on High Efficiency Small Vertical-Axis Wind Turbine Using a Motor-Driven Variable-Pitch Mechanism (2018)
  • ATSUUMI Keita ID: 9000400162537

    Department of Bioscience and Textile Technology, Interdisciplinary Graduate School of Science and Technology, Shinshu University|Department of Systems Engineering, Graduate School of Information Sciences, Hiroshima City University (2018 from CiNii)

    Articles in CiNii:1

    • Test of Human Finger-joint Movement Model Using Functional Electrical Stimulation Based on Equilibrium Point Hypothesis under an Isometric Condition (2018)
  • Keita Atsuumi ID: 9000308049989

    Hiroshima City University (2013 from CiNii)

    Articles in CiNii:1

    • 1144 MEASUREMENT OF AERODYNAMIC FORCES ON BLADES IN DARRIEUS MOTION (2013)
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