A. G. Sifalakis scite author profile

A new approach for analyzing boundary value problems for linear and for integrable nonlinear PDEs was introduced in Fokas [A unified transform method for solving linear and certain nonlinear PDEs, Proc. Roy. Soc. London Ser. A 53 (1997) 1411-1443]. For linear elliptic PDEs, an important aspect of this approach is the characterization of a generalized Dirichlet to Neumann map: given the derivative of the solution along a direction of an arbitrary angle to the boundary, the derivative of the solution perpendicularly to this direction is computed without solving on the interior of the domain. This is based on the analysis of the so-called global relation, an equation which couples known and unknown components of the derivative on the boundary and which is valid for all values of a complex parameter k. A collocation-type numerical method for solving the global relation for the Laplace equation in an arbitrary bounded convex polygon was introduced in Fulton et al. [An analytical method for linear elliptic PDEs and its numerical implementation, J. Comput. Appl. Math. 167 (2004) 465-483]. Here, by choosing a different set of the "collocation points" (values for k), we present a significant improvement of the results in Fulton et al. [An analytical method for linear elliptic PDEs and its numerical implementation, J. Comput. Appl. Math. 167 (2004) 465-483].The new collocation points lead to wellconditioned collocation methods. Their combination with sine basis functions leads to a collocation matrix whose diagonal blocks are point diagonal matrices yielding efficient implementation of iterative methods; numerical experimentation suggests quadratic convergence. The choice of Chebyshev basis functions leads to higher order convergence, which for regular polygons appear to be exponential.

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Fokas method for a multi-domain linear reaction-diffusion equation with discontinuous diffusivity

Asvestas¹,

Sifalakis²,

Papadopoulou³

et al. 2014

J. Phys.: Conf. Ser.

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Fokas transform method for a brain tumor invasion model with heterogeneous diffusion in 1 + 1 dimensions

Mantzavinos

Papadomanolaki

Saridakis

et al. 2016

Applied Numerical Mathematics

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Efficient numerical solution of the generalized Dirichlet–Neumann map for linear elliptic PDEs in regular polygon domains

Saridakis

Sifalakis

Papadopoulou

2012

Journal of Computational and Applied Mathematics

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Direct and iterative solution of the generalized Dirichlet–Neumann map for elliptic PDEs on square domains

Sifalakis

Fulton

Papadopoulou

et al. 2009

Journal of Computational and Applied Mathematics

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MSC: 35J25 65N35 64N99 65F05 65F10 Keywords: Elliptic PDEs Dirichlet-Neumann map Global relation Collocation Iterative methods Jacobi Gauss-Seidel GMRES Bi-CGSTAB a b s t r a c tIn this work we derive the structural properties of the Collocation coefficient matrix associated with the Dirichlet-Neumann map for Laplace's equation on a square domain. The analysis is independent of the choice of basis functions and includes the case involving the same type of boundary conditions on all sides, as well as the case where different boundary conditions are used on each side of the square domain. Taking advantage of said properties, we present efficient implementations of direct factorization and iterative methods, including classical SOR-type and Krylov subspace (Bi-CGSTAB and GMRES) methods appropriately preconditioned, for both Sine and Chebyshev basis functions. Numerical experimentation, to verify our results, is also included.

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A. G. Sifalakis

The generalized Dirichlet–Neumann map for linear elliptic PDEs and its numerical implementation

Fokas method for a multi-domain linear reaction-diffusion equation with discontinuous diffusivity

Fokas transform method for a brain tumor invasion model with heterogeneous diffusion in 1 + 1 dimensions

Efficient numerical solution of the generalized Dirichlet–Neumann map for linear elliptic PDEs in regular polygon domains

Direct and iterative solution of the generalized Dirichlet–Neumann map for elliptic PDEs on square domains

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