首页 /研究 /Intrinsic dynamics and total energy-shaping control of the ballbot system
LOCOMOTION

Intrinsic dynamics and total energy-shaping control of the ballbot system

Aykut C. Satici, Alejandro Donaire, Bruno Siciliano

发表年份
2016
引用次数
8

摘要

Research on bipedal locomotion has shown that a dynamic walking gait is energetically more efficient than a statically stable one. Analogously, even though statically stable multi-wheeled robots are easier to control, they are energetically less efficient and have low accelerations to avoid tipping over. In contrast, the ballbot is an underactuated, nonholonomically constrained mobile robot, whose upward equilibrium point has to be stabilised by active control. In this work, we derive coordinate-invariant, reduced, Euler–Poincaré equations of motion for the ballbot. By means of partial feedback linearisation, we obtain two independent passive outputs with corresponding storage functions and utilise these to come up with energy-shaping control laws which move the system along the trajectories of a new Lagrangian system whose desired equilibrium point is asymptotically stable by construction. The basin of attraction of this controller is shown to be almost global under certain conditions on the design of the mechanism which are reflected directly in the mass matrix of the unforced equations of motion.

关键词

Control theory (sociology)UnderactuationController (irrigation)Equations of motionEquilibrium pointMathematicsStability theoryWork (physics)Invariant (physics)Robot

相关论文

查看 LOCOMOTION 分类全部论文