Title :
Multivariable inverse decoupling PID control for the flatness and thickness of 4-high aluminum cold rolling mill
Author :
Zhang Chao ; Guo Qiang ; Wang Jing ; Zhang Fei ; Zhao Li ; Fan Lele
Author_Institution :
Nat. Eng. Res. Center for Adv. Rolling Technol., Univ. of Sci. & Technol. Beijing, Beijing, China
Abstract :
A new inverse decoupling control scheme to the main diagonal decoupling target is introduced for flatness and thickness system with the features of strong coupling, uncertainty and time delays in aluminum tandem rolling process. The flatness and thickness dynamic coupling model is built, and the inverse decoupling theory is used to decouple the MIMO system to weaken the coupling effects, and then analyzed the stability of the inverse decoupling matrix. A PID controller is designed by combining DDE (Desired Dynamic Equation) method for system uncertainty of dynamic model parameter perturbation and external disturbance. Simulation of field data shows the effectiveness of the algorithm for the coupling system.
Keywords :
MIMO systems; aluminium industry; control system synthesis; matrix algebra; multivariable control systems; rolling mills; three-term control; 4-high aluminum cold rolling mill; MIMO system; aluminum tandem rolling process; desired dynamic equation method; dynamic coupling model; dynamic model parameter perturbation; flatness and thickness system; inverse decoupling matrix stability; multivariable inverse decoupling PID control; system uncertainty; time delays; Aluminum; Couplings; Electronic mail; Mathematical model; Modeling; Stability analysis; Uncertainty; aluminous; decoupling control; flatness control; gauge control; time-delay system;
Conference_Titel :
Control Conference (CCC), 2013 32nd Chinese
Conference_Location :
Xi´an
