Title :
Supervised Robustly Feasible Soft Switching Model Predictive Control with Bounded Disturbances
Author :
Wang, Jingsong ; Brdys, Mietek A.
Author_Institution :
Dept. of Electron., Electr. & Comput. Eng., Birmingham Univ.
Abstract :
It is common that an efficient constrained plant operation under full range of disturbance inputs requires meeting different sets of control objectives. This calls for application of multiple model predictive controllers each of them being best fit into specific operating conditions. It is inevitable then to switch between the controllers during the plant operation. A simple hard switching may introduce unwanted transients and more importantly it may not achieve robustly feasible controller operation. In this paper, a softly switched model predictive control scheme is presented based on the invariant set theory. The algorithm is derived for the switching mechanism parameter design that minimizes the soft switching duration time. Numerical examples with simulation results show that the proposed methods can be useful in practical applications
Keywords :
predictive control; robust control; set theory; bounded disturbances; invariant set theory; model predictive control; supervised robustly feasible soft switching model; supervisory control; switching mechanism parameter design; Algorithm design and analysis; Application software; Control systems; Meeting planning; Numerical simulation; Predictive control; Predictive models; Robust control; Set theory; Switches; Constraints; Invariant sets; Model predictive control; Supervisory control; Switched system;
Conference_Titel :
Intelligent Control and Automation, 2006. WCICA 2006. The Sixth World Congress on
Conference_Location :
Dalian
Print_ISBN :
1-4244-0332-4
DOI :
10.1109/WCICA.2006.1712324
