Mathematics – Optimization and Control
Scientific paper
2006-12-27
Mathematics
Optimization and Control
11 pages, the paper was presented at the 5th Russian-Swedish Control Conference, Lund, Sweden, 29-30 August 2006
Scientific paper
The paper considers a linear matrix inequality (LMI) that depends on a parameter varying in a compact topological space. It turns out that if a strict LMI continuously depends on a parameter and is feasible for any value of that parameter, then it has a solution which continuously depends on the parameter. The result holds true for LMIs that arise in S-procedure and Yakubovich lemma. It is shown that the LMI which is polynomially dependent on a vector of parameters can be reduced to a parameter-independent LMI of a higher dimension. The result is based on the recent generalization of Yakubovich lemma proposed by Iwasaki and Hara and another generalization formulated in this paper. The problem of positivity verification for a non-SOS polynomial of two variables is considered as an example. To illustrate control applications, a method of parameter-dependent Lyapunov function construction is proposed for nonlinear systems with parametric uncertainty.
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