A numerically stable, structure preserving method for computing the eigenvalues of real Hamiltonian or symplectic pencils

Benner, P., Mehrmann, V., Xu, H.

30 October 1998

A new method is presented for the numerical computation of the generalized eigen- values of real Hamiltonian or symplectic pencils and matrices. The method is strongly backward stable, i.e., it is numerically backward stable and preserves the structure (i.e., Hamiltonian or symplectic). In the case of a Hamiltonian matrix the method is closely related to the square reduced method of Van Loan, but in contrast to that method which may suffer from a loss of accuracy of order sqrt(epsilon), where epsilon is the machine precision, the new method computes the eigenvalues to full possible accuracy.

eigenvalue problem

Hamiltonian pencil matrix

symplectic pencil matrix

skew-Hamiltonian matrix

MSC 65F15

ddc:510

A numerically stable, structure preserving method for computing the eigenvalues of real Hamiltonian or symplectic pencils

Benner, P., Mehrmann, V., Xu, H.

30 October 1998

A new method is presented for the numerical computation of the generalized eigen- values of real Hamiltonian or symplectic pencils and matrices. The method is strongly backward stable, i.e., it is numerically backward stable and preserves the structure (i.e., Hamiltonian or symplectic). In the case of a Hamiltonian matrix the method is closely related to the square reduced method of Van Loan, but in contrast to that method which may suffer from a loss of accuracy of order sqrt(epsilon), where epsilon is the machine precision, the new method computes the eigenvalues to full possible accuracy.

info:eu-repo/classification/ddc/510

ddc:510

Canonical forms for Hamiltonian and symplectic matrices and pencils

Mehrmann, Volker, Xu, Hongguo

09 September 2005

We study canonical forms for Hamiltonian and symplectic matrices or pencils under equivalence transformations which keep the class invariant. In contrast to other canonical forms our forms are as close as possible to a triangular structure in the same class. We give necessary and sufficient conditions for the existence of Hamiltonian and symplectic triangular Jordan, Kronecker and Schur forms. The presented results generalize results of Lin and Ho [17] and simplify the proofs presented there.

Hamiltonian pencil (matrix)

Jordan canonical form

Kronecker canonical form

linear quadratic control

symplectic pencil (matrix)

ddc:510

Algebraische Riccati-Gleichung

Eigenwertproblem

Canonical forms for Hamiltonian and symplectic matrices and pencils

Mehrmann, Volker, Xu, Hongguo

09 September 2005

We study canonical forms for Hamiltonian and symplectic matrices or pencils under equivalence transformations which keep the class invariant. In contrast to other canonical forms our forms are as close as possible to a triangular structure in the same class. We give necessary and sufficient conditions for the existence of Hamiltonian and symplectic triangular Jordan, Kronecker and Schur forms. The presented results generalize results of Lin and Ho [17] and simplify the proofs presented there.

info:eu-repo/classification/ddc/510

ddc:510

Algebraische Riccati-Gleichung

Eigenwertproblem

Hamiltonian pencil (matrix)

Jordan canonical form

Kronecker canonical form

linear quadratic control

symplectic pencil (matrix)