On an Approach to the Numerical Solution of Dirichlet Problems of Arbitrary Dimensions

B. V. Semisalov

doi:10.1134/S1995423922010062

On an Approach to the Numerical Solution of Dirichlet Problems of Arbitrary Dimensions

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Abstract

A method of the numerical solution of Dirichlet boundary value problems for nonlinear partial differential equations of the elliptic type and of arbitrary dimensions is proposed. It takes little memory and computer time for problems with smooth solutions. The method is based on modified interpolation polynomials with Chebyshev nodes to approximate the sought-for function and on a new approach to constructing and solving the linear algebraic problems corresponding to the initial differential equations. The spectra and condition numbers of the matrices formed by the algorithm are analyzed by using interval methods. Theorems on approximation and stability of the algorithm are proved in the linear case. It is shown that the algorithm provides a considerable decrease in computational costs as compared to the classical collocation and finite difference methods.

Translated title of the contribution	Об одном подходе к численному решению задач Дирихле произвольной размерности
Original language	English
Article number	6
Pages (from-to)	63-78
Number of pages	16
Journal	Numerical Analysis and Applications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1134/S1995423922010062
Publication status	Published - Jan 2022

Keywords

collocation method
decrease in computational costs
Dirichlet boundary value problem
pseudospectral method
relaxation method

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1.01 MATHEMATICS

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10.1134/S1995423922010062

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title = "On an Approach to the Numerical Solution of Dirichlet Problems of Arbitrary Dimensions",

abstract = "A method of the numerical solution of Dirichlet boundary value problems for nonlinear partial differential equations of the elliptic type and of arbitrary dimensions is proposed. It takes little memory and computer time for problems with smooth solutions. The method is based on modified interpolation polynomials with Chebyshev nodes to approximate the sought-for function and on a new approach to constructing and solving the linear algebraic problems corresponding to the initial differential equations. The spectra and condition numbers of the matrices formed by the algorithm are analyzed by using interval methods. Theorems on approximation and stability of the algorithm are proved in the linear case. It is shown that the algorithm provides a considerable decrease in computational costs as compared to the classical collocation and finite difference methods.",

keywords = "collocation method, decrease in computational costs, Dirichlet boundary value problem, pseudospectral method, relaxation method",

author = "Semisalov, {B. V.}",

note = "Funding Information: This work was supported by the Russian Science Foundation (project no. 20-71-00071). Publisher Copyright: {\textcopyright} 2022, Pleiades Publishing, Ltd.",

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AU - Semisalov, B. V.

PY - 2022/1

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N2 - A method of the numerical solution of Dirichlet boundary value problems for nonlinear partial differential equations of the elliptic type and of arbitrary dimensions is proposed. It takes little memory and computer time for problems with smooth solutions. The method is based on modified interpolation polynomials with Chebyshev nodes to approximate the sought-for function and on a new approach to constructing and solving the linear algebraic problems corresponding to the initial differential equations. The spectra and condition numbers of the matrices formed by the algorithm are analyzed by using interval methods. Theorems on approximation and stability of the algorithm are proved in the linear case. It is shown that the algorithm provides a considerable decrease in computational costs as compared to the classical collocation and finite difference methods.

AB - A method of the numerical solution of Dirichlet boundary value problems for nonlinear partial differential equations of the elliptic type and of arbitrary dimensions is proposed. It takes little memory and computer time for problems with smooth solutions. The method is based on modified interpolation polynomials with Chebyshev nodes to approximate the sought-for function and on a new approach to constructing and solving the linear algebraic problems corresponding to the initial differential equations. The spectra and condition numbers of the matrices formed by the algorithm are analyzed by using interval methods. Theorems on approximation and stability of the algorithm are proved in the linear case. It is shown that the algorithm provides a considerable decrease in computational costs as compared to the classical collocation and finite difference methods.

KW - collocation method

KW - decrease in computational costs

KW - Dirichlet boundary value problem

KW - pseudospectral method

KW - relaxation method

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JO - Numerical Analysis and Applications

JF - Numerical Analysis and Applications

SN - 1995-4239

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ER -

On an Approach to the Numerical Solution of Dirichlet Problems of Arbitrary Dimensions

Abstract

Keywords

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