期刊
NONLINEAR DYNAMICS
卷 88, 期 3, 页码 1749-1768出版社
SPRINGER
DOI: 10.1007/s11071-017-3343-2
关键词
Underactuated mechanical systems; 3-Link planar robot; Two passive joints; Underactuation degree two; Energy-based control; Global motion analysis; Lyapunov stability theory
资金
- JSPS KAKENHI [26420425]
- Grants-in-Aid for Scientific Research [26420425, 17K06504] Funding Source: KAKEN
This paper studies nonlinear control of a 3-link planar robot moving in the vertical plane with only the first joint being actuated while the two other revolute joints are passive (called the APP robot below). A nonlinear energy-based controller is proposed, whose objective is to drive the APP robot into an invariant set where the first link is in the upright position and the total mechanical energy converges to its value at the upright equilibrium point (all three links are in the upright position). By presenting and using a new property of the motion of the APP robot, without any condition on its mechanical parameters, this paper proves that if the control gains are larger than specific lower bounds, then only a measure-zero set of initial conditions converges to three strictly unstable equilibrium points instead of converging to the invariant set. This paper presents numerical results for a physical 3-link planar robot to validate the obtained theoretical results and to demonstrate a switch-and-stabilize maneuver in which the energy-based controller is switched to a linear state feedback controller that stabilizes the APP robot at its upright equilibrium point.
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