Torso motion control and toe trajectory generation of a trotting quadruped robot based on virtual model control

AbstractThis article presents an intuitive approach based on virtual model control for robust quadrupedal trotting. The controller consists of two main modules: support phase virtual model control for torso motion control and flight phase virtual model control for flight toe trajectory generation. We mapped the relationship between the joint torques of support legs and the torso forces. And virtual forces are applied to the torso to regulate the attitude, height, and velocities of the torso during support phase. To unify the control law, virtual forces are also applied to flight toes to track the planned trajectories that are designed based on lateral velocity of the torso and contact signals of the legs. Moreover, state machine, terrain estimator, and the high level controller are designed to control the robot trotting. Simulations of quadruped trotting versatilely on flat ground, trotting over stairs and slops as well as the impact recovery are reported to demonstrate the effectiveness and robustness of our controller.Keywords: Quadruped robottrotting locomotionvirtual model control NotesNo potential conflict of interest was reported by the authors.Additional informationFundingThis work is supported by National High Technology Research and Development Program of China grant number 2015AA042201; the National Natural Science Foundation of China grant number 61233014, grant number 61305130; the Shandong Provincial Natural Science Foundation grant number ZR2013FQ003, grant number ZR2013EEM027; China Postdoctoral Science Foundation grant number 2013M541912.