Title :
Iterative reconstruction methods using regularization and optimal current patterns in electrical impedance tomography
Author :
Hua, Ping ; Woo, Eung Je ; Webster, John G. ; Tompkins, Willis J.
Author_Institution :
Siemens Gammasonics Inc., Hoffman Estates, IL, USA
fDate :
12/1/1991 12:00:00 AM
Abstract :
An iterative reconstruction method which minimizes the effects of ill-conditioning is discussed. Based on the modified Newton-Raphson algorithm, a regularization method which integrates prior information into the image reconstruction was developed. This improves the conditioning of the information matrix in the modified Newton-Raphson algorithm. Optimal current patterns were used to obtain voltages with maximal signal-to-noise ratio (SNR). A complete finite element model (FEM) was used for both the internal and the boundary electric fields. Reconstructed images from phantom data show that the use of regularization optimal current patterns, and a complete FEM model improves image accuracy. The authors also investigated factors affecting the image quality of the iterative algorithm such as the initial guess, image iteration, and optimal current updating
Keywords :
electric impedance imaging; iterative methods; boundary electric field; complete finite element model; electrical impedance tomography; ill-conditioning; image accuracy; image iteration; image quality; information matrix; initial guess; internal electric field; iterative algorithm; iterative reconstruction methods; maximal signal-to-noise ratio; modified Newton-Raphson algorithm; optimal current patterns; optimal current updating; phantom data; prior information; regularization method; Biomedical electrodes; Biomedical measurements; Conductivity; Current measurement; Image reconstruction; Impedance; Iterative methods; Reconstruction algorithms; Tomography; Voltage;
Journal_Title :
Medical Imaging, IEEE Transactions on
