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Nonlinear mixed<i>H</i><sub>2</sub>/<i>H</i><sub>∞</sub>control for robust tracking design of robotic systems

Bor‐Sen Chen, Yeong‐Chan Chang

发表年份
1997
引用次数
46

摘要

A mixed H 2/H ∞ control design is proposed in this study for tracking of rigid 2 robotic systems under parameter perturbations and external disturbances. The design objective is that under a prescribed disturbance attenuation level (H ∞ attenuation constraint), the optimal least square error (H 2 optimal tracking) 2 must be achieved. Additionally, an explicit and global solution to this nonlinear time-varying mixed H 2/H ∞ control problem is presented by combining nonlinear minimax (Nash game) theory and LQ optimal control techniques. Moreover, by virtue of the skew symmetric property of robotic systems and adequate choice of state variable transformation, only two linear algebraic (instead of nonlinear timevarying) Riccati-like equations are required to construct the proposed mixed H 2/H ∞ tracking control law. Furthermore, these two linear algebraic equations 2 can be solved with a very simple method so that a closed-form nonlinear mixed H 2/H ∞ tracking controller can be constructed. Finally, extensive simulations are 2 made for mixed H 2/H ∞ tracking control of a two-link robotic manipulator. From the simulation results, the robust tracking performance of robotic systems by the proposed algorithm is remarkable.

关键词

Control theory (sociology)Nonlinear systemAlgebraic Riccati equationMathematicsRiccati equationMinimaxController (irrigation)Optimal controlComputer scienceMathematical optimization

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