화학공학소재연구정보센터
IEEE Transactions on Automatic Control, Vol.45, No.10, 1828-1838, 2000
A framework for robustness analysis of constrained finite receding horizon control
A framework for robustness analysis of input-constrained finite receding horizon control is presented. Under the assumption of quadratic upper bounds on the finite horizon costs, we derive sufficient conditions for robust stability of the standard discrete-time Linear-quadratic receding horizon control formulation. This is achieved by recasting conditions for nominal and robust stability as an implication between quadratic forms, lending itself to S-procedure tools which are used to convert robustness questions to tractable convex conditions. Robustness with respect to plant/model mismatch as well as for state measurement error is shown to reduce to the feasibility of linear matrix inequalities, Simple examples demonstrate the approach.