On a generalization of the resolvent condition in the Kreiss matrix theorem

Lenferink, H. W. J.; Spijker, M. N.

doi:10.1090/s0025-5718-1991-1079025-4

Math. Comp.

1991

DOI: 10.1090/s0025-5718-1991-1079025-4

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On a generalization of the resolvent condition in the Kreiss matrix theorem

H. W. J. Lenferink¹,

M. N. Spijker²

Abstract: Abstract. This paper deals with a condition on the resolvent of s x 5 matrices A . In one of the equivalent assertions of the Kreiss matrix theorem, the spectral norm of the resolvent of A at £ must satisfy an inequality for all f lying outside the unit disk in C. We consider a generalization in which domains different from the unit disk and more general norms are allowed.Under this generalized resolvent condition an upper bound is derived for the norms of the «th powers of sxs matrices B . Here, B depends on … Show more

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Cited by 12 publications

References 9 publications

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Functional calculus under Kreiss type conditions

Vitse

2005

Mathematische Nachrichten

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It is shown that for an algebraic Banach space operator T , the Kreiss condition, (zI − T )where deg(T ) is the degree of the minimal polynomial annihilating T . This result extends the known estimates of the powers of T for Kreiss operators on finite dimensional spaces. In the case of a general Kreiss operator, an estimate of the rational calculus is proved:Similar estimates hold for the polynomial calculus under generalized Kreiss conditions. A link is also established between the sharp constant in the first estimate and the norm of the best solution for a Nevanlinna-Pick type interpolation problem in analytic Besov classes.

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Functional calculus under Kreiss type conditions

Vitse

2005

Mathematische Nachrichten

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Stability of the method of lines

1992

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Summary. It is well known that a necessary condition for the Lax-stability of the method of lines is that the eigenvalues of the spatial discretization operator, scaled by the time step k, lie within a distance O(k) of the stability region of the time integration formula as k ~ O. In this paper we show that a necessary and sufficient condition for stability, except for an algebraic factor, is that the e-pseudo-eigenvalues of the same operator lie within a distance O(e)+O(k) of the stability region as k, e ~ O. Our results generalize those of an earlier paper by considering: (a) Runge-Kutta and other one-step formulas, (b) implicit as well as explicit linear multistep formulas, (c) weighted norms, (d) algebraic stability, (e) finite and infinite time intervals, and (f) stability regions with cusps.In summary, the theory presented in this paper amounts to a transplantation of the Kreiss matrix theorem from the unit disk (for simple power iterations) to an arbitrary stability region (for method of lines calculations). (I 991): 65 M20, 15A 18 Mathematics Subject Classification

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Error growth analysis via stability regions for discretizations of initial value problems

Spijker

Straetemans

1997

Bit Numer Math

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On a generalization of the resolvent condition in the Kreiss matrix theorem

Cited by 12 publications

References 9 publications

Functional calculus under Kreiss type conditions

Functional calculus under Kreiss type conditions

Stability of the method of lines

Error growth analysis via stability regions for discretizations of initial value problems

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