DocumentCode
3438899
Title
Input-to-state stabilization of low-complexity model predictive controllers for linear systems
Author
Schildbach, Georg ; Zeilinger, Melanie N. ; Morari, Manfred ; Jones, Colin N.
Author_Institution
Autom. Control Lab., ETH Zurich, Zurich, Switzerland
fYear
2011
fDate
12-15 Dec. 2011
Firstpage
482
Lastpage
488
Abstract
Research on sub-optimal Model Predictive Control (MPC) has led to a variety of optimization methods based on explicit or online approaches, or combinations thereof. Its foremost aim is to guarantee essential controller properties, i.e. recursive feasibility, stability, and robustness, at reduced and predictable computational cost, i.e. computation time and storage space. This paper shows how the input sequence of any (not necessarily stabilizing) sub-optimal controller and the shifted input sequence from the previous time step can be used in an optimal combination, which is easy to determine online, in order to guarantee input-to-state stability (ISS) for the closed-loop system. The presented method is thus able to stabilize a wide range of existing sub-optimal MPC schemes that lack a formal stability guarantee, if they can be considered as a continuous map from the state space to the space of feasible input sequences.
Keywords
closed loop systems; linear systems; optimisation; predictive control; stability; closed-loop system; computation time; computational cost; continuous map; formal stability; input-to-state stabilization; linear systems; low-complexity model predictive controllers; optimization methods; storage space; suboptimal MPC schemes; suboptimal model predictive control; Cost function; Lyapunov methods; Robustness; State feedback; Tin; Trajectory; Vectors;
fLanguage
English
Publisher
ieee
Conference_Titel
Decision and Control and European Control Conference (CDC-ECC), 2011 50th IEEE Conference on
Conference_Location
Orlando, FL
ISSN
0743-1546
Print_ISBN
978-1-61284-800-6
Electronic_ISBN
0743-1546
Type
conf
DOI
10.1109/CDC.2011.6161091
Filename
6161091
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