Title :
The Explicit Constrained Min-Max Model Predictive Control of a Discrete-Time Linear System With Uncertain Disturbances
Author :
Yu Gao ; Kil To Chong
Author_Institution :
Sch. of Electron. Eng., Jeon Buk Nat. Univ., Jeonju, South Korea
Abstract :
In this technical brief, we develop an algorithm to determine the explicit solution of the constrained min-max model predictive control problem. For a discrete-time linear system with bounded additive uncertain disturbance, the control law is determined to be piecewise affine from a quadratic cost function and the state space is partitioned into corresponding polyhedral cones. By moving the on-line implementation to an off-line explicit evaluation, the computational burden is decreased and the applicability of min-max optimization is broadened. The results of this approach are shown via computer simulations.
Keywords :
discrete time systems; linear systems; minimax techniques; piecewise polynomial techniques; predictive control; state-space methods; uncertain systems; bounded additive uncertain disturbance; discrete time linear system; explicit constrained min-max model predictive control; explicit solution determination; min-max optimization applicability; offline explicit evaluation; piecewise affine control law; polyhedral cones; quadratic cost function; state space partitioning; Aerospace electronics; Cost function; Linear systems; Neodymium; Partitioning algorithms; Predictive control; Constraints; model predictive control; piecewise affine; uncertain;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2012.2186090
