论文信息 - A propagation-backpropagation method for ultrasound tomography

A propagation-backpropagation method for ultrasound tomography

Ultrasound tomography is modelled by the inverse problem of a 2D Helmholtz equation at fixed frequency with plane-wave irradiation. It is assumed that the field is measured outside the support of the unknown potential f for finitely many incident waves. Starting out from an initial guess f0 for f we propagate the measured field through the object f0 to yield a computed held whose difference to the measurements is in turn backpropagated. The backpropagated field is used to update f0. The propagation as well as the backpropagation are done by a finite difference marching scheme. The whole process is carried out in a single-step fashion, i.e. the updating is done immediately after backpropagating a single wave. It is very similar to the well known ART method in X-ray tomography, with the projection and backprojection step replaced by propagation and backpropagation.

F. Natterer | F. Wübbeling

[1] Gabor T. Herman,et al. Image reconstruction from projections : the fundamentals of computerized tomography , 1980 .

[2] A. Devaney. A filtered backpropagation algorithm for diffraction tomography. , 1982, Ultrasonic imaging.

[3] M J Berggren,et al. Nonperturbative diffraction tomography via Gauss-Newton iteration applied to the scattering integral equation. , 1992, Ultrasonic imaging.

[4] P. M. Berg,et al. A modified gradient method for two-dimensional problems in tomography , 1992 .

[5] Stable marching schemes based on elliptic models of wave propagation , 1993 .

[6] A finite difference method for the inverse scattering problem at fixed frequency , 1993 .

[7] Michael V. Klibanov,et al. Regularized Quasi-Newton method for inverse scattering problems , 1993 .

[8] Peter Monk,et al. A modified dual space method for solving the electromagnetic inverse scattering problem for an infinite cylinder , 1994 .

[9] A. Nachman,et al. Global uniqueness for a two-dimensional inverse boundary value problem , 1996 .