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Design of a biped robot actuated by pneumatic artificial muscles

Yixiang Liu, Xizhe Zang, Xinyu Liu, Lin Wang

Year
2015
Citations
16
Access
Open access

Abstract

High compliant legs are essential for the efficient versatile locomotion and shock absorbency of humans. This study proposes a biped robot actuated by pneumatic artificial muscles to mimic human locomotion. On the basis of the musculoskeletal architecture of human lower limbs, each leg of the biped robot is modeled as a system of three segments, namely, hip joint, knee joint, and ankle joint, and eleven muscles, including both monoarticular and biarticular muscles. Each rotational joint is driven by a pair of antagonistic muscles, enabling joint compliance to be tuned by operating the pressure inside the muscles. Biarticular muscles play an important role in transferring power between joints. Walking simulations verify that biarticular muscles contribute to joint compliance and can absorb impact energy when the robot makes an impact upon ground contact.

Keywords

AnklePneumatic artificial musclesRobotJoint (building)Computer scienceSimulationArtificial muscleBiped robotKnee JointEngineering

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