Title :
Receding horizon tracking control for constrained linear continuous time-varying systems
Author_Institution :
Ecole Normale Superieure, Paris, France
Abstract :
A receding horizon tracking control (RHTC) scheme for input and tracking-error constrained linear continuous time-varying systems is proposed. The control scheme is based on the minimisation of a finite horizon cost function with finite terminal weighting matrices. The proposed RHTC scheme is discussed in terms of the asymptotic property, feasibility and closed-loop stability. The implementation of the proposed RHTC scheme via linear matrix inequality optimisation is also discussed. Through simulation examples it is shown that the resulting RHTC can be an appropriate tracking controller for constrained linear continuous time-varying systems
Keywords :
closed loop systems <constrained lin. continuous time-varying systs., receding horizon tracking control>; continuous time systems <constrained lin. continuous time-varying systs., receding horizon tracking control>; linear matrix inequalities <constrained lin. continuous time-varying systs., receding horizon tracking control>; linear systems <constrained lin. continuous time-varying systs., receding horizon tracking control>; optimal control <constrained lin. continuous time-varying systs., receding horizon tracking control>; time-varying systems <constrained lin. continuous time-varying systs., receding horizon tracking control>; asymptotic property; closed-loop stability; constrained linear continuous time-varying systems; feasibility; finite horizon cost function; finite terminal weighting matrices; input constrained systems; linear matrix inequality optimisation; receding horizon tracking control; tracking-error constrained systems;
Journal_Title :
Control Theory and Applications, IEE Proceedings -
DOI :
10.1049/ip-cta:20030711
