Title :
A robust image reconstruction algorithm and its parallel implementation in electrical impedance tomography
Author :
Woo, Eung Je ; Hua, Ping ; Webster, John G. ; Tompkins, Willis J.
Author_Institution :
Dept. of Biomed. Eng., Kon Kuk Univ., Choongbuk, South Korea
fDate :
6/1/1993 12:00:00 AM
Abstract :
An efficient and robust image reconstruction algorithm for static impedance imaging using Hachtel´s augmented matrix method was developed. This improved Newton-Raphson method produced more accurate images by reducing the undesirable effects of the ill-conditioned Hessian matrix. It is demonstrated that the electrical impedance tomography (EIT) system could produce two-dimensional static images from a physical phantom with 7% spatial resolution at the center and 5% at the periphery. Static EIT image reconstruction requires a large amount of computation. In order to overcome the limitations on reducing the computation time by algorithmic approaches, the improved Newton-Raphson algorithm was implemented on a parallel computer system. It is shown that the parallel computation could reduce the computation time from hours to minutes
Keywords :
computerised tomography; electric impedance imaging; image reconstruction; parallel algorithms; 2D static images; Hachtel´s augmented matrix method; computation time reduction; electrical impedance tomography; ill-conditioned Hessian matrix; improved Newton-Raphson method; medical diagnostic imaging; parallel implementation; physical phantom; robust image reconstruction algorithm; spatial resolution; Biomedical measurements; Computer errors; Concurrent computing; Conductivity; Image reconstruction; Impedance; Reconstruction algorithms; Robustness; Tomography; Voltage;
Journal_Title :
Medical Imaging, IEEE Transactions on
