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A Numerical Technique for Linear Elliptic PDEs in Polygonal Domains

dc.creatorHashemzadeh, Parham
dc.creatorFokas, Athanassios Spyridon
dc.creatorSmitheman, SA
dc.description.abstractIntegral representations for the solution of linear elliptic partial differential equations (PDEs) can be obtained using Green's theorem. However, these representations involve both the Dirichlet and the Neumann values on the boundary, and for a well-posed boundary-value problem (BVPs) one of these functions is unknown. A new transform method for solving BVPs for linear and integrable nonlinear PDEs usually referred to as the unified transform (or the Fokas transform) was introduced by the second author in the late Nineties. For linear elliptic PDEs, this method can be considered as the analogue of Green's function approach but now it is formulated in the complex Fourier plane instead of the physical plane. It employs two global relations also formulated in the Fourier plane which couple the Dirichlet and the Neumann boundary values. These relations can be used to characterize the unknown boundary values in terms of the given boundary data, yielding an elegant approach for determining the Dirichlet to Neumann map. The numerical implementation of the unified transform can be considered as the counterpart in the Fourier plane of the well-known boundary integral method which is formulated in the physical plane. For this implementation, one must choose (i) a suitable basis for expanding the unknown functions and (ii) an appropriate set of complex values, which we refer to as collocation points, at which to evaluate the global relations. Here, by employing a variety of examples we present simple guidelines of how the above choices can be made. Furthermore, we provide concrete rules for choosing the collocation points so that the condition number of the matrix of the associated linear system remains low.
dc.publisherRoyal Society Publishing
dc.publisherProceedings of the Royal Society A
dc.rightsAttribution 2.0 UK: England & Wales
dc.subjectelliptic partial differential equation
dc.subjectHelmholtz equation
dc.subjectmodified Helmholtz equation
dc.subjectFokas transform
dc.subjectFokas method
dc.titleA Numerical Technique for Linear Elliptic PDEs in Polygonal Domains

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