Balancing control of a biped robot
SMC(2012)
摘要
We propose a balancing control framework for a torque-controlled biped robot, Roboray. Roboray has two 6 DOF legs and torque sensors are integrated at all the leg joints. It has a new cable-driven joint module as a pitch joint drive, which is highly back-drivable and elastic. Using these hardware characteristics, we propose a new balancing control algorithm. This algorithm is the combination of gravity compensation, virtual gravity control and damping control. A friction compensation technique is also introduced in order to eliminate the nonlinearity of damping and to improve the performance of torque tracking. Our proposed method is applied to a simple inverted pendulum system and Roboray. Experimental results show that these two system keep their balance when they are pushed slightly.
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关键词
hardware characteristics,torque-controlled biped robot,friction,virtual gravity,mechanical stability,damping nonlinearity elimination,gravity compensation,roboray,damping control,inverted pendulum system,legged locomotion,torque control,6 dof leg joints,gravity,torque tracking performance improvement,pitch joint drive,back-drivability,balancing control framework,humanoid robots,virtual gravity control,pendulums,nonlinear control systems,control nonlinearities,balancing control,cable-driven joint module,torque sensors,sensors,elasticity,humanoid,damping,friction compensation technique,mathematical model,torque
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