Abstract
Various approaches to the mixed H 2 /H ∞ control problem are proposed in the literature. The solution is often obtained by means of classical techniques (i.e. solving a Riccati problem) or by means of convex optimization procedures. With the aim to synthesize a fixed-structure controller for an uncertain plant, a global optimization approach to a single-input singleoutput (SISO) H 2 /H ∞ problem is proposed. In particular, robust stability is guaranteed and a nominal quadratic cost index is minimized by solving an equivalent nonconvex semi-infinite optimization problem. The resulting design method that relies on a recently devised genetic/interval algorithm is tested by designirzg low-order controllers for two example plants.
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