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RESEARCH PRODUCT
Justification of point electrode models in electrical impedance tomography
Martin HankeBastian HarrachNuutti Hyvönensubject
ta113Work (thermodynamics)Mathematical optimizationta112Applied MathematicsMathematical analysista111Zero (linguistics)Interpretation (model theory)Physics::Plasma PhysicsModeling and SimulationElectrodePoint (geometry)Limit (mathematics)Electrical impedanceElectrical impedance tomographyta512Mathematicsdescription
The most accurate model for real-life electrical impedance tomography is the complete electrode model, which takes into account electrode shapes and (usually unknown) contact impedances at electrode-object interfaces. When the electrodes are small, however, it is tempting to formally replace them by point sources. This simplifies the model considerably and completely eliminates the effect of contact impedance. In this work we rigorously justify such a point electrode model for the important case of having difference measurements ("relative data") as data for the reconstruction problem. We do this by deriving the asymptotic limit of the complete model for vanishing electrode size. This is supplemented by an analogous result for the case that the distance between two adjacent electrodes also tends to zero, thus providing a physical interpretation and justification of the so-called backscattering data introduced by two of the authors.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2011-06-01 | MATHEMATICAL MODELS AND METHODS IN APPLIED SCIENCES |