A Fourth-Order Block-Grid Method for Solving Laplace's Equation on a Staircase Polygon with Boundary Functions in | Zendy

A. A. Dosiyev | Zendy; Suzan Cival Buranay | Zendy

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A Fourth-Order Block-Grid Method for Solving Laplace's Equation on a Staircase Polygon with Boundary Functions in

Author(s) -

A. A. Dosiyev,

Suzan Cival Buranay

Publication year - 2013

Publication title -

abstract and applied analysis

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.228

H-Index - 56

eISSN - 1687-0409

pISSN - 1085-3375

DOI - 10.1155/2013/864865

Subject(s) - mathematics , midpoint , polygon (computer graphics) , vertex (graph theory) , mathematical analysis , laplace's equation , grid , boundary value problem , invertible matrix , laplace transform , order (exchange) , geometry , combinatorics , pure mathematics , telecommunications , graph , frame (networking) , computer science , finance , economics

The integral representations of the solution around the vertices of the interior reentered angles (on the “singular” parts) are approximated by the composite midpoint rule when the boundary functions are from These approximations are connected with the 9-point approximation of Laplace's equation on each rectangular grid on the “nonsingular” part of the polygon by the fourth-order gluing operator. It is proved that the uniform error is of order where and is the mesh step. For the -order derivatives () of the difference between the approximate and the exact solutions, in each “ singular” part order is obtained; here is the distance from the current point to the vertex in question and is the value of the interior angle of the th vertex. Numerical results are given in the last section to support the theoretical results

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