A Boundary Integral Equation Method for the Complete Electrode Model in Electrical Impedance Tomography with Tests on Experimental Data

电阻抗断层成像 电阻抗 电极 电阻率层析成像 积分方程 边界(拓扑) 断层摄影术 数学分析 数学 物理 电阻率和电导率 光学 量子力学
作者
Teemu Tyni,Adam R. Stinchcombe,Spyros Alexakis
出处
期刊:Siam Journal on Imaging Sciences [Society for Industrial and Applied Mathematics]
卷期号:17 (1): 672-705 被引量:3
标识
DOI:10.1137/23m1585696
摘要

.We develop a boundary integral equation–based numerical method to solve for the electrostatic potential in two dimensions, inside a medium with piecewise constant conductivity, where the boundary condition is given by the complete electrode model (CEM). The CEM is seen as the most accurate model of the physical setting where electrodes are placed on the surface of an electrically conductive body, currents are injected through the electrodes, and the resulting voltages are measured again on these same electrodes. The integral equation formulation is based on expressing the electrostatic potential as the solution to a finite number of Laplace equations which are coupled through boundary matching conditions. This allows us to re-express the solution in terms of single-layer potentials; the problem is thus recast as a system of integral equations on a finite number of smooth curves. We discuss an adaptive method for the solution of the resulting system of mildly singular integral equations. This forward solver is both fast and accurate. We then present a numerical inverse solver for electrical impedance tomography which uses our forward solver at its core. To demonstrate the applicability of our results we test our numerical methods on an open electrical impedance tomography data set provided by the Finnish Inverse Problems Society.Keywordsinverse conductivity problemelectrical impedance tomographycomplete electrode modelboundary integral equation methodMSC codes65N2135R30
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