Title :
Tightness Conditions for Semidefinite Relaxations of Forms Minimization
Author_Institution :
Dept. of Electr. & Electron. Eng., Univ. of Hong Kong, Hong Kong
Abstract :
The Gram matrix allows to compute a lower bound of the minimum of a form via an LMI (linear matrix inequality) optimization by exploiting SOS (sum of squares) relaxations. This paper introduces and characterizes the Gram-tight forms, i.e. forms whose minimum coincides with this lower bound. In particular, it is shown that one can establish that a form is Gram-tight just by checking whether the dimension of the null space of the matrix returned by the LMI solver belongs to a certain range. This fact is not only theoretically interesting but has also useful applications as shown by examples with uncertain systems and nonlinear systems.
Keywords :
linear matrix inequalities; optimisation; relaxation; Gram matrix; Gram-tight forms; LMI; forms minimization; linear matrix inequality; nonlinear systems; semidefinite relaxations; sum of squares relaxations; uncertain systems; Control systems; Design optimization; Linear matrix inequalities; Nonlinear systems; Null space; Polynomials; Robust stability; Symmetric matrices; Uncertain systems; Vectors; Gram matrix; LMI; SOS; homogeneous form;
Journal_Title :
Circuits and Systems II: Express Briefs, IEEE Transactions on
DOI :
10.1109/TCSII.2008.2008072
