Title :
Adaptive constrained control subject to both input-amplitude and input-velocity constraints
Author :
Moussas, Charalambos ; Bitsoris, Georges
Author_Institution :
JRC, Safety Technol. Inst., Ispra, Italy
Abstract :
An adaptive constrained one-step-ahead controller is presented, which is appropriate for the case where the input steady-state value u r, corresponding to a desirable set-point yr, is known a priori. Specifically, it is the deterministic version of the generalized minimum variance controller, designed in such a way as to handle two kinds of constraints, namely, |ur(k)|⩽c and |u r(k)-u(k-1)|⩽w. It is shown that for a stable, discrete-time, either minimum or nonminimum phase system, this can be achieved by making a suitable online choice of the quantities l and Q(q -1). Apart from the well-known RLS and projection algorithms, any other recursive parameter estimation scheme can be applied, as far as it shares some of the basic properties of the above algorithms. The performance of the proposed controller is demonstrated by means of simulation
Keywords :
adaptive control; discrete time systems; recursive estimation; stability; RLS algorithm; adaptive constrained control; adaptive constrained one-step-ahead controller; generalized minimum variance controller; input-amplitude constraints; input-velocity constraints; minimum-phase system; nonminimum-phase system; projection algorithm; recursive least-squares algorithm; recursive parameter estimation scheme; stable discrete-time system; Adaptive control; Chemical industry; Control systems; Laboratories; Parameter estimation; Polynomials; Programmable control; Projection algorithms; Resonance light scattering; Steady-state;
Conference_Titel :
Systems, Man and Cybernetics, 1993. 'Systems Engineering in the Service of Humans', Conference Proceedings., International Conference on
Conference_Location :
Le Touquet
Print_ISBN :
0-7803-0911-1
DOI :
10.1109/ICSMC.1993.390780
