A 3D Finite-Difference BiCG Iterative Solver with the Fourier-Jacobi Preconditioner for the Anisotropic EIT/EEG Forward Problem

A 3D Finite-Difference BiCG Iterative Solver with the Fourier-Jacobi Preconditioner for the Anisotropic EIT/EEG Forward Problem

The Electrical Impedance Tomography (EIT) and electroencephalography (EEG) forward problems in anisotropic inhomogeneous media like the human head belongs to the class of the three-dimensional boundary value problems for elliptic equations with mixed derivatives. We introduce and explore the perform...

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Main Authors: Sergei Turovets, Vasily Volkov, Aleksej Zherdetsky, Alena Prakonina, Allen D. Malony
Format: Article
Language:English
Published: Hindawi Limited 2014-01-01
Series:Computational and Mathematical Methods in Medicine
Online Access:http://dx.doi.org/10.1155/2014/426902
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spelling doaj-c4c15fe958124af188c5fe69096630832020-11-24T23:30:49ZengHindawi LimitedComputational and Mathematical Methods in Medicine1748-670X1748-67182014-01-01201410.1155/2014/426902426902A 3D Finite-Difference BiCG Iterative Solver with the Fourier-Jacobi Preconditioner for the Anisotropic EIT/EEG Forward ProblemSergei Turovets0Vasily Volkov1Aleksej Zherdetsky2Alena Prakonina3Allen D. Malony4Electrical Geodesics, Inc., Eugene, OR 97403, USADepartment of Mathematics and Mechanics, Belarusian State University, 220050 Minsk, BelarusDepartment of Mathematics and Mechanics, Belarusian State University, 220050 Minsk, BelarusDepartment of Mathematics and Mechanics, Belarusian State University, 220050 Minsk, BelarusDepartment of Computer and Information Science, 1202 University of Oregon, Eugene, OR 97403, USAThe Electrical Impedance Tomography (EIT) and electroencephalography (EEG) forward problems in anisotropic inhomogeneous media like the human head belongs to the class of the three-dimensional boundary value problems for elliptic equations with mixed derivatives. We introduce and explore the performance of several new promising numerical techniques, which seem to be more suitable for solving these problems. The proposed numerical schemes combine the fictitious domain approach together with the finite-difference method and the optimally preconditioned Conjugate Gradient- (CG-) type iterative method for treatment of the discrete model. The numerical scheme includes the standard operations of summation and multiplication of sparse matrices and vector, as well as FFT, making it easy to implement and eligible for the effective parallel implementation. Some typical use cases for the EIT/EEG problems are considered demonstrating high efficiency of the proposed numerical technique.http://dx.doi.org/10.1155/2014/426902
collection DOAJ
language English
format Article
sources DOAJ
author Sergei Turovets
Vasily Volkov
Aleksej Zherdetsky
Alena Prakonina
Allen D. Malony
spellingShingle Sergei Turovets
Vasily Volkov
Aleksej Zherdetsky
Alena Prakonina
Allen D. Malony
A 3D Finite-Difference BiCG Iterative Solver with the Fourier-Jacobi Preconditioner for the Anisotropic EIT/EEG Forward Problem
Computational and Mathematical Methods in Medicine
author_facet Sergei Turovets
Vasily Volkov
Aleksej Zherdetsky
Alena Prakonina
Allen D. Malony
author_sort Sergei Turovets
title A 3D Finite-Difference BiCG Iterative Solver with the Fourier-Jacobi Preconditioner for the Anisotropic EIT/EEG Forward Problem
title_short A 3D Finite-Difference BiCG Iterative Solver with the Fourier-Jacobi Preconditioner for the Anisotropic EIT/EEG Forward Problem
title_full A 3D Finite-Difference BiCG Iterative Solver with the Fourier-Jacobi Preconditioner for the Anisotropic EIT/EEG Forward Problem
title_fullStr A 3D Finite-Difference BiCG Iterative Solver with the Fourier-Jacobi Preconditioner for the Anisotropic EIT/EEG Forward Problem
title_full_unstemmed A 3D Finite-Difference BiCG Iterative Solver with the Fourier-Jacobi Preconditioner for the Anisotropic EIT/EEG Forward Problem
title_sort 3d finite-difference bicg iterative solver with the fourier-jacobi preconditioner for the anisotropic eit/eeg forward problem
publisher Hindawi Limited
series Computational and Mathematical Methods in Medicine
issn 1748-670X
1748-6718
publishDate 2014-01-01
description The Electrical Impedance Tomography (EIT) and electroencephalography (EEG) forward problems in anisotropic inhomogeneous media like the human head belongs to the class of the three-dimensional boundary value problems for elliptic equations with mixed derivatives. We introduce and explore the performance of several new promising numerical techniques, which seem to be more suitable for solving these problems. The proposed numerical schemes combine the fictitious domain approach together with the finite-difference method and the optimally preconditioned Conjugate Gradient- (CG-) type iterative method for treatment of the discrete model. The numerical scheme includes the standard operations of summation and multiplication of sparse matrices and vector, as well as FFT, making it easy to implement and eligible for the effective parallel implementation. Some typical use cases for the EIT/EEG problems are considered demonstrating high efficiency of the proposed numerical technique.
url http://dx.doi.org/10.1155/2014/426902
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