Title :
Disturbance attenuation for constrained discrete-time systems via receding horizon controls
Author_Institution :
DI, Ecole Normale Superieure, Paris, France
Abstract :
In this paper, we propose new receding horizon H∞ control (RHHC) schemes for linear input-constrained discrete time-invariant systems with disturbances. The proposed control schemes are based on the dynamic game problem of a finite-horizon cost function with a fixed finite terminal weighting matrix and a one-horizon cost function with time-varying finite terminal weighting matrices, respectively. We show that the resulting RHHCs guarantee closed-loop stability in the absence of disturbances and H∞ norm bound for 2-norm bounded disturbances. We also show that the proposed schemes can easily be implemented via linear matrix inequality (LMI) optimization. We illustrate the effectiveness of the proposed schemes through simulations.
Keywords :
H∞ control; T invariance; closed loop systems; discrete time systems; game theory; infinite horizon; linear matrix inequalities; stability; time-varying systems; LMI; bounded disturbances; closed loop stability; constrained discrete time systems; disturbance attenuation; dynamic game problem; finite horizon cost function; fixed finite terminal weighting matrix; linear input constrained discrete time invariant systems; linear matrix inequality optimization; receding horizon H∞ control; Algorithm design and analysis; Attenuation; Control systems; Cost function; Linear matrix inequalities; Sampling methods; Stability;
Conference_Titel :
Decision and Control, 2003. Proceedings. 42nd IEEE Conference on
Print_ISBN :
0-7803-7924-1
DOI :
10.1109/CDC.2003.1272687
