Title :
Achieving Decoupling with Predictive Controllers
Author :
Maurath, Paul R. ; Seborg, Dale E. ; Mellichamp, Duncan A.
Author_Institution :
Department of Chemical and Nuclear Engineering, University of California, Santa Barbara
Abstract :
Predictive controllers such as Dynamic Matrix Control (DMC) and Internal Model Control (IMC) are formulated as true multivariable control systems rather than as traditional multiloop systems. For many processes such predictive controllers perform well with a minimum of interaction between controlled variables. However, for some processes strong coupling between outputs can occur when predictive controllers are used to implement step changes in set points. A new technique is presented which yields decoupled set-point changes while retaining the original load disturbance rejection properties of the controller. The technique uses a particular time-varying set-point trajectory to enforce decoupled set-point changes in the closed-loop system.
Keywords :
Chemical engineering; Computer industry; Control system synthesis; Control systems; Performance analysis; Predictive control; Predictive models; Process control; Sampling methods; Steady-state;
Conference_Titel :
American Control Conference, 1986
Conference_Location :
Seattle, WA, USA
