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Literature DB >> 20057005

2D D-bar reconstructions of human chest and tank data using an improved approximation to the scattering transform.

Abstract

The D-bar method for electrical impedance tomography requires the computation of an intermediate function known as the scattering transform from the measured data. An approximation to the scattering transform utilizing the standard Green's function for the Laplacian was introduced for the 2D D-bar method in Mueller and Siltanen (2003 SIAM J. Sci. Comp. 24 1232-66) and tested on simple numerically simulated conductivity distributions. In this work, the approximation is implemented for experimental data for the first time. It is tested on both tank and human chest data, and the results demonstrate decreased blurring toward the boundary in the images than in images computed with the t(exp) approximation to the scattering transform.

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Year: 2010 PMID： 20057005 DOI： 10.1088/0967-3334/31/2/008

Source DB: PubMed Journal: Physiol Meas ISSN： 0967-3334 Impact factor: 2.833

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Cited

7 in total

1. Calderón's method on an elliptical domain.

Authors: P A Muller; D Isaacson; J C Newell; G J Saulnier
Journal: Physiol Meas Date: 2013-05-29 Impact factor: 2.833

2. A Real-time D-bar Algorithm for 2-D Electrical Impedance Tomography Data.

Authors: Melody Dodd; Jennifer L Mueller
Journal: Inverse Probl Imaging (Springfield) Date: 2014-11-01 Impact factor: 1.639

3. 3D ELECTRICAL IMPEDANCE TOMOGRAPHY RECONSTRUCTIONS FROM SIMULATED ELECTRODE DATA USING DIRECT INVERSION t^exp AND CALDERÓN METHODS.

Authors: S J Hamilton; D Isaacson; V Kolehmainen; P A Muller; J Toivanen; P F Bray
Journal: Inverse Probl Imaging (Springfield) Date: 2021-05-01 Impact factor: 1.639

2D D-bar reconstructions of human chest and tank data using an improved approximation to the scattering transform.

1. Calderón's method on an elliptical domain.

2. A Real-time D-bar Algorithm for 2-D Electrical Impedance Tomography Data.

3. 3D ELECTRICAL IMPEDANCE TOMOGRAPHY RECONSTRUCTIONS FROM SIMULATED ELECTRODE DATA USING DIRECT INVERSION t^exp AND CALDERÓN METHODS.

4. Direct 2-D reconstructions of conductivity and permittivity from EIT data on a human chest.

5. A direct D-bar reconstruction algorithm for recovering a complex conductivity in 2-D.

6. Precise two-dimensional D-bar reconstructions of human chest and phantom tank via sinc-convolution algorithm.

7. Accurate D-bar Reconstructions of Conductivity Images Based on a Method of Moment with Sinc Basis.