Title :
Robust linear matrix inequality-based model predictive control with recursive estimation of the uncertainty polytope
Author :
Santos Matos Cavalca, Mariana ; Kawakami Harrop Galvão, Roberto ; Yoneyama, Takashi
Author_Institution :
Dept. de Eng. Eletr., Univ. do Estado de Santa Catarina, Joinville, Brazil
Abstract :
The present work is concerned with the recursive estimation of the uncertainty polytope in a robust model predictive control (RMPC) framework. For this purpose, the unknown but bounded error method is employed to update the uncertainty polytope on the basis of sensor measurements at each sampling period. The recursive feasibility and asymptotic stability properties of the proposed approach are demonstrated as an extension of previous results concerning the RMPC formulation. For illustration, a simulated example involving an angular positioning system is presented. The results show that the proposed scheme provides a performance improvement, as indicated by the resulting cost function values.
Keywords :
asymptotic stability; linear matrix inequalities; position control; predictive control; recursive estimation; robust control; sampling methods; sensors; uncertain systems; RMPC formulation; RMPC framework; angular positioning system; asymptotic stability properties; bounded error method; cost function values; performance improvement; recursive estimation; recursive feasibility properties; robust linear matrix inequality-based model predictive control; sampling period; sensor measurements; uncertainty polytope;
Journal_Title :
Control Theory & Applications, IET
DOI :
10.1049/iet-cta.2012.0586
