Claudia N. L. Herrera scite author profile

A direct reconstruction algorithm for complex conductivities in W2,∞ (Ω), where Ω is a bounded, simply connected Lipschitz domain in ℝ2, is presented. The framework is based on the uniqueness proof by Francini [Inverse Problems 20 2000], but equations relating the Dirichlet-to-Neumann to the scattering transform and the exponentially growing solutions are not present in that work, and are derived here. The algorithm constitutes the first D-bar method for the reconstruction of conductivities and permittivities in two dimensions. Reconstructions of numerically simulated chest phantoms with discontinuities at the organ boundaries are included.

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Direct 2-D Reconstructions of Conductivity and Permittivity From EIT Data on a Human Chest

Herrera

Vallejo

Mueller

et al. 2015

IEEE Trans. Med. Imaging

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A novel direct D-bar reconstruction algorithm is presented for reconstructing a complex conductivity distribution from 2-D EIT data. The method is applied to simulated data and archival human chest data. Permittivity reconstructions with the aforementioned method and conductivity reconstructions with the D-bar method based on [22] depicting ventilation and perfusion in the human chest are presented. This constitutes the first fully nonlinear D-bar reconstructions of human chest data and the first D-bar permittivity reconstructions of experimental data. The results of the human chest data reconstructions are compared on a circular domain versus a chest-shaped domain.

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Claudia N. L. Herrera

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

Direct 2-D Reconstructions of Conductivity and Permittivity From EIT Data on a Human Chest

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