study presents a combination of the robust passivity-based controller(RPBC)and an extended state observer(ESO)for the tracking control of a three degree-of-freedom PUMA 500 robot manipulator under parameter variations...study presents a combination of the robust passivity-based controller(RPBC)and an extended state observer(ESO)for the tracking control of a three degree-of-freedom PUMA 500 robot manipulator under parameter variations and external disturbances.The dynamic model of the PUMA robot and its structural properties are analysed.The extra state in the ESO estimates the parameter variations and external disturbances in the control system.Then the RPBC cancels them in the control law.The stability of the proposed control system and the convergence of the observation errors are analysed.Simulations prove that the proposed controller is robust and tracks well under parameter variations,and external disturbances,validating the proposed control scheme.展开更多
基金This work was supported by the Department of Electrical Engineering and Computer Science at Cleveland State University.
文摘study presents a combination of the robust passivity-based controller(RPBC)and an extended state observer(ESO)for the tracking control of a three degree-of-freedom PUMA 500 robot manipulator under parameter variations and external disturbances.The dynamic model of the PUMA robot and its structural properties are analysed.The extra state in the ESO estimates the parameter variations and external disturbances in the control system.Then the RPBC cancels them in the control law.The stability of the proposed control system and the convergence of the observation errors are analysed.Simulations prove that the proposed controller is robust and tracks well under parameter variations,and external disturbances,validating the proposed control scheme.
