Position-based impedance control of a biped humanoid robot
Hun‐ok Lim, Samuel Agus Setiawan, Atsuo Takanishi
- 发表年份
- 2004
- 引用次数
- 38
摘要
Abstract This paper describes position-based impedance control for biped humanoid robot locomotion. The impedance parameters of the biped leg are adjusted in real-time according to the gait phase. In order to reduce the impact/contact forces generated between the contacting foot and the ground, the damping coefficient of the impedance of the landing foot is increased largely during the first half double support phase. In the last half double support phase, the walking pattern of the leg changed by the impedance control is returned to the desired walking pattern by using a polynomial. Also, the large stiffness of the landing leg is given to increase the momentum reduced by the viscosity of the landing leg in the first half single support phase. For the stability of the biped humanoid robot, a balance control that compensates for moments generated by the biped locomotion is employed during a whole walking cycle. For the confirmation of the impedance and balance control, we have developed a life-sized humanoid robot, WABIAN-RIII, which has 43 mechanical d.o.f. Through dynamic walking experiments, the validity of the proposed controls is verified. Keywords: BIPED HUMANOID ROBOTIMPEDANCE CONTROLBALANCE CONTROL LOCOMOTIONIMPACT/CONTACT FORCECOMPENSATORY MOTION.
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