Helmut Brass scite author profile

Summary. In this paper we study the remainder of interpolatory quadrature formulae. For this purpose we develop a simple but quite general comparison technique for linear functionals. Applied to quadrature formulae it allows to eliminate one of the nodes and to estimate the remainder of the old formula in terms of the new one. By repeated application we may compare with quadrature formulae having only a few nodes left or even no nodes at all. With the help of this method we obtain asymptotically best possible error bounds for the Clenshaw-Curtis quadrature and other Pdlya type formulae.Our comparison technique can also be applied to the problem of definiteness, i.e. the question whether the remainder R[f] of a formula of order m can be represented as c .fc,"!(~). By successive elimination of nodes we obtain a sequence of sufficient criteria for definiteness including all the criteria known to us as special cases. Finally we ask for good and worst quadrature formulae within certain classes. We shall see that amongst all quadrature formulae with positive coefficients and fixed order m the Gauss type formulae are worst. Interpreted in terms of Peano kernels our theorem yields results on monosplines which may be of interest in themselves.

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Gaussian quadrature

Brass¹,

Petras²

2011

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Umkehrsätze beim Trapezvedahren

Brass¹

1978

Aeq. Math.

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A remark on best L1-approximation by polynomials

Brass

1988

Journal of Approximation Theory

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On the Application of the Peano Representation of Linear Functionals in Numerical Analysis

Brass

Förster

1998

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Eine Restdarstellung bei Gregoryschen Quadraturverfahren ungerader Ordnung

Brass

1974

Z Angew Math Mech

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Bounds for Peano kernels

Brass

1993

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Helmut Brass

Quadrature Theory

Error estimates for interpolatory quadrature formulae

Gaussian quadrature

Umkehrsätze beim Trapezvedahren

A remark on best L1-approximation by polynomials

On the Application of the Peano Representation of Linear Functionals in Numerical Analysis

Eine Restdarstellung bei Gregoryschen Quadraturverfahren ungerader Ordnung

Bounds for Peano kernels

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