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Perturbation analysis of a matrix differential equation ˙x=ABx

  • M. Isabel García-Planas [1] ; Tetiana Klymchuk
    1. [1] Universitat Politècnica de Catalunya

      Universitat Politècnica de Catalunya

      Barcelona, España

  • Localización: Applied Mathematics and Nonlinear Sciences, ISSN-e 2444-8656, Vol. 3, Nº. 1, 2018, págs. 97-104
  • Idioma: inglés
  • DOI: 10.21042/amns.2018.1.00007
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  • Resumen
    • Two complex matrix pairs (A,B) and (A′,B′) are contragrediently equivalent if there are nonsingular S and R such that (A′,B′)=(S−1AR,R−1BS). M.I. García-Planas and V.V. Sergeichuk (1999) constructed a miniversal deformation of a canonical pair (A,B) for contragredient equivalence; that is, a simple normal form to which all matrix pairs (A+˜A,B+˜B) close to (A,B) can be reduced by contragredient equivalence transformations that smoothly depend on the entries of ˜A and ˜B. Each perturbation (˜A,˜B) of (A,B) defines the first order induced perturbation A˜B+˜AB of the matrix AB, which is the first order summand in the product (A+˜A)(B+˜B)=AB+A˜B+˜AB+˜A˜B. We find all canonical matrix pairs (A,B), for which the first order induced perturbations A˜B+˜AB are nonzero for all nonzero perturbations in the normal form of García-Planas and Sergeichuk. This problem arises in the theory of matrix differential equations ˙x=Cx, whose product of two matrices: C=AB; using the substitution x=Sy, one can reduce C by similarity transformations S−1CS and (A,B) by contragredient equivalence transformations (S−1AR,R−1BS).


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