摘要
A neural network control scheme with mixed H2/H∞performance was proposed for robot force/position control under parameter uncertainties and external disturbances. The mixed H2/H∞tracking performance ensures both robust stability under a prescribed attenuation level for external disturbance and H2optimal tracking. The neural network was introduced to adaptively estimate nonlinear uncertainties, improving the system’s performance under parameter uncertainties as well as obtaining the H2/H∞tracking performance. The simulation shows that the control method performs better even when the system is under large modeling uncertainties and external disturbances.
A neural network control scheme with mixed H_2/H_∞performance was proposed for robot force/position control under parameter uncertainties and external disturbances. The mixed H_2/H_∞tracking performance ensures both robust stability under a prescribed attenuation level for external disturbance and H_2optimal tracking. The neural network was introduced to adaptively estimate nonlinear uncertainties, improving the system’s performance under parameter uncertainties as well as obtaining the H_2/H_∞tracking performance. The simulation shows that the control method performs better even when the system is under large modeling uncertainties and external disturbances.
基金
SponsoredbytheHebeiProvinceScienceTechnologyTacklingKeyProblemItem(GrantNo.A393) .
