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MANIPULATION

Time-optimal control of a single-DOF mechanical system with friction

Taehan Kim, In-Joong Ha

Year
2001
Citations
17

Abstract

Presents the exact solution to the minimum-time optimal control problem of a single-degree-of-freedom (DOF) mechanical systems with friction. In particular, the optimal control input can be synthesized in feedback form. The effect of Coulomb friction, which has been ignored or precompensated in prior works, is taken into full account. As a result, the admissible range of control input can be maximized so as to achieve faster responses. A practical example using a direct-driven single-DOF robotic manipulator is discussed to demonstrate the practical use of the optimal solution.

Keywords

Control theory (sociology)Mechanical systemOptimal controlCoulomb frictionRange (aeronautics)Control (management)Control systemComputer scienceFeedback controlManipulator (device)

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