Computing the action of the matrix generating function of Bernoulli polynomials on a vector with an application to non-local boundary value problems

LIDIA ACETO; luca gemignani

doi:10.1007/s10444-025-10231-1

Computing the action of the matrix generating function of Bernoulli polynomials on a vector with an application to non-local boundary value problems

LIDIA ACETO
, luca gemignani

Dipartimento di Scienze e Innovazione Tecnologica

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

This paper deals with efficient numerical methods for computing the action of the matrix generating function of Bernoulli polynomials, say q(τ, A), on a vector when A is a large and sparse matrix. This problem occurs when solving some non-local boundary value problems. Methods based on the Fourier expansion of q(τ, w) have already been addressed in the scientific literature. The contribution of this paper is twofold. First, we place these methods in the classical framework of Krylov-Lanczos (polynomial-rational) techniques for accelerating Fourier series. This allows us to apply the convergence results developed in this context to our function. Second, we design a new acceleration scheme. Some numerical results are presented to show the effectiveness of the proposed algorithms.

Lingua originale	Inglese
Numero di pagine	23
Rivista	Advances in Computational Mathematics
Volume	51
Numero di pubblicazione	2
DOI	https://doi.org/10.1007/s10444-025-10231-1
Stato di pubblicazione	Pubblicato - 2025

Keywords

Rational approximation of Fourier series · Convergence acceleration · Matrix functions · Non-local boundary value problems

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10.1007/s10444-025-10231-1

https://hdl.handle.net/11579/207882

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abstract = "This paper deals with efficient numerical methods for computing the action of the matrix generating function of Bernoulli polynomials, say q(τ, A), on a vector when A is a large and sparse matrix. This problem occurs when solving some non-local boundary value problems. Methods based on the Fourier expansion of q(τ, w) have already been addressed in the scientific literature. The contribution of this paper is twofold. First, we place these methods in the classical framework of Krylov-Lanczos (polynomial-rational) techniques for accelerating Fourier series. This allows us to apply the convergence results developed in this context to our function. Second, we design a new acceleration scheme. Some numerical results are presented to show the effectiveness of the proposed algorithms.",

keywords = "Rational approximation of Fourier series · Convergence acceleration · Matrix functions · Non-local boundary value problems, Rational approximation of Fourier series · Convergence acceleration · Matrix functions · Non-local boundary value problems",

author = "LIDIA ACETO and luca gemignani",

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AU - gemignani, luca

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N2 - This paper deals with efficient numerical methods for computing the action of the matrix generating function of Bernoulli polynomials, say q(τ, A), on a vector when A is a large and sparse matrix. This problem occurs when solving some non-local boundary value problems. Methods based on the Fourier expansion of q(τ, w) have already been addressed in the scientific literature. The contribution of this paper is twofold. First, we place these methods in the classical framework of Krylov-Lanczos (polynomial-rational) techniques for accelerating Fourier series. This allows us to apply the convergence results developed in this context to our function. Second, we design a new acceleration scheme. Some numerical results are presented to show the effectiveness of the proposed algorithms.

AB - This paper deals with efficient numerical methods for computing the action of the matrix generating function of Bernoulli polynomials, say q(τ, A), on a vector when A is a large and sparse matrix. This problem occurs when solving some non-local boundary value problems. Methods based on the Fourier expansion of q(τ, w) have already been addressed in the scientific literature. The contribution of this paper is twofold. First, we place these methods in the classical framework of Krylov-Lanczos (polynomial-rational) techniques for accelerating Fourier series. This allows us to apply the convergence results developed in this context to our function. Second, we design a new acceleration scheme. Some numerical results are presented to show the effectiveness of the proposed algorithms.

KW - Rational approximation of Fourier series · Convergence acceleration · Matrix functions · Non-local boundary value problems

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JO - Advances in Computational Mathematics

JF - Advances in Computational Mathematics

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Computing the action of the matrix generating function of Bernoulli polynomials on a vector with an application to non-local boundary value problems

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