Biologically Inspired Energy Efficient Walking for Biped Robots

Biologically Inspired Energy Efficient Walking for Biped Robots

Prior methods of bipedal humanoid walking through high gain position control is energy intensive. This paper introduces a biologically inspired method for robot locomotion that improves energy efficiency. Neural oscillators were used as the central pattern generator of the gait pattern and were able...

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Bibliographische Detailangaben
Hauptverfasser: Kim, H.K., Woong Kwon, Kyung Shik Roh
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Biologically inspired robotics
Bipedal walking
Energy efficiency
Foot
Frequency
Humanoid robot
Humanoid robots
Impedance
Impedance control
Leg
Legged locomotion
Neural oscillator
Oscillators
Phase modulation
Position control
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Zusammenfassung:Prior methods of bipedal humanoid walking through high gain position control is energy intensive. This paper introduces a biologically inspired method for robot locomotion that improves energy efficiency. Neural oscillators were used as the central pattern generator of the gait pattern and were able to entrain the natural frequency for robot locomotion. The impedance of the legs was modulated so that the legs can swing more freely during swing phase and control position accurately during support phase. Dynamic simulations of humanoid robot walking with the proposed method resulted in energy efficiency improvement of 40.5%. Also, the modulation of impedance resulted in a more stable contact with the ground during landing of the foot.
DOI:10.1109/ROBIO.2006.340273