This paper addresses the research of robust D-stability bounds. A matrix is D-stable when its eigenvalues lie in a speciWed region D of the complex plane. Such a property, which is easily testable for some regions, is of practical interest for linear systems analysis in terms of pole location. Ensuring the state matrix D-stability can guarantee some performances on the transient response of this system, but the matrix D-stability is not testable any longer when this matrix is subject to an additive uncertainty. A bound on the uncertainty domain can be computed. This bound is established either on the 2-norm of the uncertainty matrix in the case of an unstructured uncertainty or on the maximal perturbation in the entries of the matrix in the case of a structured uncertainty. It guarantees that the D-stability of the uncertain matrix is preserved when the nominal matrix is already D-stable. Most of the results in this area of work are relevant to connected regions. In this work, because of a linear matrix inequality approach, D is a union of possibly disjoint O-subregions.
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