论文信息 - Novel algorithm of gait planning of hydraulic quadruped robot to avoid foot sliding and reduce impingement

Novel algorithm of gait planning of hydraulic quadruped robot to avoid foot sliding and reduce impingement

In order to solve kinematic redundancy problems of a hydraulic quadruped walking robot, which include leg dragging, sliding, impingement against the ground, an improved gait planning algo鄄 rithm for this robot is proposed in this paper. First, the foot trajectory is designated as the improved composite cycloid foot trajectory. Second, the landing angle of each leg of the robot is controlled to satisfy friction cone to improve the stability performance of the robot. Then with the controllable landing angle of quadruped robot and a geometry method, the kinematic equation is derived in this paper. Finally, a gait planning method of quadruped robot is proposed, a dynamic co鄄simulation is done with ADAMS and MATLAB, and practical experiments are conducted. The validity of the pro鄄 posed algorithm is confirmed through the co鄄simulation and experimentation. The results show that the robot can avoid sliding, reduce impingement, and trot stably in trot gait.

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