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A symplectic instantaneous optimal control for robot trajectory tracking with differential-algebraic equation models

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Robot trajectory tracking control based on differential-algebraic equation (DAE) models is still a thorny issue, because the DAEs of such systems are inherently complex and unstable, such as the high index problem. In this paper, based on controlled DAEs, a symplectic instantaneous optimal control (IOC) method for robot trajectory tracking with input saturation is proposed. Based on the discrete variational principle and the canonical transformation, a symplectic discretization form for the controlled DAEs is first constructed. Then, the continuous trajectory tracking problem is approximated for a series of IOC problems at every time step, and the linear complementarity problem (LCP) can be derived for solving the IOC problems. Finally, the control inputs can be obtained by solving the corresponding standard LCP. The proposed method provides a unified framework for solving the trajectory tracking control problems of robot multibody dynamic systems. Numerical simulations and virtual experiments are conducted to verify the robustness and the efficiency of the proposed method, i.e., the input saturationconstraints are satisfied at the discrete time points, and high accuracy tracking control results can be obtained at low computational cost.
Original languageEnglish
Pages (from-to)3819-3829
Number of pages11
JournalIEEE Transactions on Industrial Electronics
Issue number5
Early online date17 May 2019
Publication statusEarly online - 17 May 2019


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