Non-linear electrical tomography imaging can be performed efficiently if certain optimisations are applied to the computational reconstruction process. We present a 3D non-linear reconstruction algorithm based on a regularized conjugate gradient solver and discuss the optimisations which we incorporated to allow for an efficient and accurate reconstruction. In particular, the application of image smoothness constraints or other regularization techniques and auto-adaptive mesh refinement are highly relevant. We demonstrate the results of applying this algorithm to the reconstruction of a simulated material distribution in a cubic volume
We propose a scaled gradient projection algorithm for the reconstruction of 3D X-ray tomographic ima...
Electrical impedance tomography (EIT) is the problem of determining the electrical conductivity dist...
This thesis is concerned with Electrical Impedance Tomogaphy (EIT), a medical imaging technique in w...
Non-linear electrical tomography imaging can be performed efficiently if certain optimisations are a...
Non-linear electrical impedance tomography reconstruction algorithms usually employ the Newton–Raphs...
Electrical Impedance Tomography can provide images with well-defined characteristics using a fully n...
Electrical Tomography can produce accurate results only if the underlying 2D or 3D volume discretiza...
Fully non-linear reconstruction in Electrical Tomography produces images with well-defined character...
We demonstrate the application of several optimisation techniques to a 2D Electrical Impedance Tomog...
In non-linear electrical impedance tomography the goodness of fit of the trial images is assessed by...
This thesis addresses the computational reconstruction of images using Electrical Impedance Tomograp...
The convergence of non-linear reconstruction algorithms for Electrical Impedance Tomography (EIT) de...
Electrical impedance tomography (EIT) is a fast and cost-effective technique to provide a tomographi...
The inverse electrical impedance tomography (EIT) problem involves collecting electrical measurement...
This thesis presents and analyzes several novel algorithms and techniques that efficiently produce h...
We propose a scaled gradient projection algorithm for the reconstruction of 3D X-ray tomographic ima...
Electrical impedance tomography (EIT) is the problem of determining the electrical conductivity dist...
This thesis is concerned with Electrical Impedance Tomogaphy (EIT), a medical imaging technique in w...
Non-linear electrical tomography imaging can be performed efficiently if certain optimisations are a...
Non-linear electrical impedance tomography reconstruction algorithms usually employ the Newton–Raphs...
Electrical Impedance Tomography can provide images with well-defined characteristics using a fully n...
Electrical Tomography can produce accurate results only if the underlying 2D or 3D volume discretiza...
Fully non-linear reconstruction in Electrical Tomography produces images with well-defined character...
We demonstrate the application of several optimisation techniques to a 2D Electrical Impedance Tomog...
In non-linear electrical impedance tomography the goodness of fit of the trial images is assessed by...
This thesis addresses the computational reconstruction of images using Electrical Impedance Tomograp...
The convergence of non-linear reconstruction algorithms for Electrical Impedance Tomography (EIT) de...
Electrical impedance tomography (EIT) is a fast and cost-effective technique to provide a tomographi...
The inverse electrical impedance tomography (EIT) problem involves collecting electrical measurement...
This thesis presents and analyzes several novel algorithms and techniques that efficiently produce h...
We propose a scaled gradient projection algorithm for the reconstruction of 3D X-ray tomographic ima...
Electrical impedance tomography (EIT) is the problem of determining the electrical conductivity dist...
This thesis is concerned with Electrical Impedance Tomogaphy (EIT), a medical imaging technique in w...