Optimal compromise between rigid-body motion tracking and elastic vibration suppression through careful design of the state weighting matrices, providing guaranteed stability and a degree of robustness. However, the principal limitation of classical control methods lies in their heavy reliance on an accurate mathematical model of the plant; the performance of controllers based on linearized models degrades significantly during large-range maneuvers or in the presence of parameter uncertainties and external disturbances.

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Control Methods for Flexible Manipulators

  • Juntian Qu

摘要

Optimal compromise between rigid-body motion tracking and elastic vibration suppression through careful design of the state weighting matrices, providing guaranteed stability and a degree of robustness. However, the principal limitation of classical control methods lies in their heavy reliance on an accurate mathematical model of the plant; the performance of controllers based on linearized models degrades significantly during large-range maneuvers or in the presence of parameter uncertainties and external disturbances.