Achievements

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Paper
  1. Development of an Experimental Humanoid Robot and Dynamics Based Motion Optimization for Rescue Missions

    Institute of Control, Robotics and Systems / vol.21 no.8 / 2015 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

  2. Development of an optimal velocity selection method with velocity obstacle

    JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY / vol.29 no.8 / 2015 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

  3. Active Suspension for a Rapid Mobile Robot Using Cartesian Computed Torque Control

    JOURNAL OF INTELLIGENT & ROBOTIC SYSTEMS / vol.79 no.2 / 2015 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

  4. Biped Walking Pattern Generation Using an Analytic Method for a Unit Step With a Stationary Time Interval Between Steps

    IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS / vol.62 no.2 / 2015 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

  5. Removal of debris blocking an entryway: Inverse kinematic control and balancing controller design for humanoid

    Journal of Institute of Control, Robotics and Systems / vol.20 no.10 / 2014 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

  6. Improvement Trend of a Humanoid Robot Platform HUBO2+

    Journal of Institute of Control, Robotics and Systems / vol.20 no.3 / 2014 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

  7. Posture Stabilization Strategy for a Trotting Point-foot Quadruped Robot

    JOURNAL OF INTELLIGENT & ROBOTIC SYSTEMS / vol.72 no.3-4 / 2013 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

  8. Development of the Cartesian Arm Exoskeleton System (CAES) using a 3-axis Force/Torque Sensor

    INTERNATIONAL JOURNAL OF CONTROL AUTOMATION AND SYSTEMS / vol.11 no.5 / 2013 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

  9. BALANCING STRATEGY USING THE PRINCIPLE OF ENERGY CONSERVATION FOR A HOPPING HUMANOID ROBOT

    INTERNATIONAL JOURNAL OF HUMANOID ROBOTICS / vol.10 no.3 / 2013 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

  10. Inverse Kinematic Control of Humanoids Under Joint Constraints

    INTERNATIONAL JOURNAL OF ADVANCED ROBOTIC SYSTEMS / vol.10 / 2013 / Oh, Jun-Ho / KIR > Fundamental Research on Future Robotics

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