6533b82efe1ef96bd129450b

RESEARCH PRODUCT

Recent progress on Frequency Difference Electrical Impedance Tomography

Jin Keun SeoBastian HarrachEung Je Woo

subject

PhysicsComputational modelNonlinear systemAcousticsBoundary (topology)Anomaly detectionBiological tissueInverse problemElectrical impedance tomographyFrequency difference

description

Although time-dierence EIT(tdEIT) has shown promise as a medical EIT imaging tech- nique such as monitoring lung function, static EIT has suered from forward computational model errors including boundary geometry and electrode positions uncertainty combined with the ill-posed and highly nonlinear nature of the corresponding inverse problem. Since 1980s, there has been great endeavor to create forward computational models with the necessary accuracy required for EIT recon- struction, but these eorts were not successful in clinical environment. This is the main reason why we consider frequency-dieren ce EIT (fdEIT) where we take advantage of frequency dependance of biological tissue by injecting currents with at least two dieren t frequencies. In this article, we review recent progress in fdEIT.

yearjournalcountryeditionlanguage
2009-01-01ESAIM: Proceedings
https://doi.org/10.1051/proc/2009011