DocumentCode
2532173
Title
Joint robust position control using linear Kalman filters
Author
Cortesão, R. ; Millela, F. ; Nunes, U.
Author_Institution
Dept. of Electr. Eng., Coimbra Univ., Portugal
fYear
1998
fDate
29 Jun-1 Jul 1998
Firstpage
417
Lastpage
422
Abstract
A new control strategy for robotic manipulators is discussed. Some simulation results obtained in the Matlab/Simulink environment are presented. The position control system design is based on a local PD control technique with a feedforward compensation term. The PD controller is designed considering a first order linear reference model for each joint. The controller gains are tuned on average values of the inertial moments, evaluated in the range of the allowable configurations of the manipulator links, and on nominal viscous friction coefficients. The robustness of the proposed control system is guaranteed by the recursive algorithm, based on the discrete linear Kalman filter (LKF) theory, which has been developed to online estimate the nonlinear time varying equivalent disturbance. The LKF also gives the estimates of position and speed that are used as feedback signals for the joint control system
Keywords
Kalman filters; compensation; control system CAD; feedforward; manipulator dynamics; position control; robust control; two-term control; Matlab/Simulink environment; PD controller; feedforward compensation; friction coefficients; inertial moments; joint position control; linear Kalman filters; robotic manipulators; robust control; Control systems; Friction; Manipulators; Mathematical model; Nonlinear control systems; PD control; Position control; Recursive estimation; Robot control; Robust control;
fLanguage
English
Publisher
ieee
Conference_Titel
Advanced Motion Control, 1998. AMC '98-Coimbra., 1998 5th International Workshop on
Conference_Location
Coimbra
Print_ISBN
0-7803-4484-7
Type
conf
DOI
10.1109/AMC.1998.743573
Filename
743573
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