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A survey on integral equations for bioelectric modeling

Guillermo Nuñez Ponasso

2024Physics in Medicine and Biology12 citationsDOIOpen Access PDF

Abstract

Abstract Bioelectric modeling problems, such as electroencephalography, magnetoencephalography, transcranial electrical stimulation, deep brain stimulation, and transcranial magnetic stimulation, among others, can be approached through the formulation and resolution of integral equations of the boundary element method (BEM). Recently, it has been realized that the charge-based formulation of the BEM is naturally well-suited for the application of the fast multipole method (FMM). The FMM is a powerful algorithm for the computation of many-body interactions and is widely applied in electromagnetic modeling problems. With the introduction of BEM-FMM in the context of bioelectromagnetism, the BEM can now compete with the finite element method (FEM) in a number of application cases. This survey has two goals: first, to give a modern account of the main BEM formulations in the literature and their integration with FMM, directed to general researchers involved in development of BEM software for bioelectromagnetic applications. Second, to survey different techniques and available software, and to contrast different BEM and FEM approaches. As a new contribution, we showcase that the charge-based formulation is dual to the more common surface potential formulation.

Topics & Concepts

Boundary element methodFast multipole methodContext (archaeology)Finite element methodComputationMultipole expansionComputer scienceSoftwareIntegral equationPhysicsCalculus (dental)AlgorithmMathematicsMathematical analysisMedicineThermodynamicsBiologyPaleontologyDentistryQuantum mechanicsProgramming languageDNA and Nucleic Acid ChemistryWireless Power Transfer SystemsRNA Interference and Gene Delivery
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