Title :
Inner Approximations for Polynomial Matrix Inequalities and Robust Stability Regions
Author :
Henrion, Didier ; Lasserre, Jean-Bernard
fDate :
6/1/2012 12:00:00 AM
Abstract :
Following a polynomial approach, many robust fixed-order controller design problems can be formulated as optimization problems whose set of feasible solutions is modeled by parametrized polynomial matrix inequalities (PMIs). These feasibility sets are typically nonconvex. Given a parametrized PMI set, we provide a hierarchy of linear matrix inequality (LMI) problems whose optimal solutions generate inner approximations modeled by a single polynomial superlevel set. Those inner approximations converge in a well-defined analytic sense to the nonconvex original feasible set, with asymptotically vanishing conservatism. One may also impose the hierarchy of inner approximations to be nested or convex. In the latter case, they do not converge any more to the feasible set, but they can be used in a convex optimization framework at the price of some conservatism. Finally, we show that the specific geometry of nonconvex polynomial stability regions can be exploited to improve convergence of the hierarchy of inner approximations.
Keywords :
control system synthesis; convex programming; geometry; linear matrix inequalities; polynomial approximation; robust control; LMI; asymptotically vanishing conservatism; convex optimization framework; linear matrix inequality problems; nonconvex polynomial stability region geometry; optimization problems; parametrized PMI set; polynomial matrix inequalities inner approximation; polynomial superlevel set; robust fixed-order controller design problems; robust stability regions; Approximation methods; Linear matrix inequalities; Numerical stability; Optimization; Polynomials; Stability criteria; Symmetric matrices; Linear matrix inequality (LMI); moments; polynomial matrix inequality; positive polynomials; robust fixed-order controller design; robust optimization;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2011.2178717
