Abstract Background Standard cone-beam computed tomography (CBCT) involves the acquisition of at least 360 projections rotating through 360 degrees. Nevertheless, there are cases in which only a few projections can be taken in a limited angular span, such as during surgery, where rotation of the source-detector pair is limited to less than 180 degrees. Reconstruction of limited data with the conventional method proposed by Feldkamp, Davis and Kress (FDK) results in severe artifacts. Iterative methods may compensate for the lack of data by including additional prior information, although they imply a high computational burden and memory consumption. Results We present an accelerated implementation of an iterative method for CBCT following th...
Projection and back-projection are the most computationally intensive parts in Computed Tomography (...
Currently, 3D cone-beam CT image reconstruction speed is still a severe limitation for clinical appl...
In X-ray computed tomography (CT) imaging, projections taken by a scanner are used to reconstruct th...
Background: Standard cone-beam computed tomography (CBCT) involves the acquisition of at least 360 p...
Abstract Background For cone-b...
Abstract Background With the introduction of Flat Panel Detector technology, cone-beam CT (CBCT) has...
Iterative image reconstruction (IIR) with sparsity-exploiting methods, such as total variation (TV) ...
Currently, 3D cone-beam CT image reconstruction speed is still a severe limitation for clinical appl...
Fast 3D cone-beam CT reconstruction is required by many application fields like medical CT imaging o...
Cone-Beam Computed Tomography (CBCT) is an imaging method that reconstructs a 3D representation of t...
Abstract—Filtered back-projection algorithms are widely used for the reconstruction of volumetric da...
For many years the FDK algorithm has been the standard algorithm for the reconstruction of projectio...
Iterative tomographic reconstruction gets more and more into the focus of interest for x-ray compute...
The imXgam group of CPPM has developed the XPAD3 hybrid pixel X-ray detector with 560x960 pixels (13...
Abstract: In CBCT, image reconstruction is difficult to meet the requirements of the user real-time ...
Projection and back-projection are the most computationally intensive parts in Computed Tomography (...
Currently, 3D cone-beam CT image reconstruction speed is still a severe limitation for clinical appl...
In X-ray computed tomography (CT) imaging, projections taken by a scanner are used to reconstruct th...
Background: Standard cone-beam computed tomography (CBCT) involves the acquisition of at least 360 p...
Abstract Background For cone-b...
Abstract Background With the introduction of Flat Panel Detector technology, cone-beam CT (CBCT) has...
Iterative image reconstruction (IIR) with sparsity-exploiting methods, such as total variation (TV) ...
Currently, 3D cone-beam CT image reconstruction speed is still a severe limitation for clinical appl...
Fast 3D cone-beam CT reconstruction is required by many application fields like medical CT imaging o...
Cone-Beam Computed Tomography (CBCT) is an imaging method that reconstructs a 3D representation of t...
Abstract—Filtered back-projection algorithms are widely used for the reconstruction of volumetric da...
For many years the FDK algorithm has been the standard algorithm for the reconstruction of projectio...
Iterative tomographic reconstruction gets more and more into the focus of interest for x-ray compute...
The imXgam group of CPPM has developed the XPAD3 hybrid pixel X-ray detector with 560x960 pixels (13...
Abstract: In CBCT, image reconstruction is difficult to meet the requirements of the user real-time ...
Projection and back-projection are the most computationally intensive parts in Computed Tomography (...
Currently, 3D cone-beam CT image reconstruction speed is still a severe limitation for clinical appl...
In X-ray computed tomography (CT) imaging, projections taken by a scanner are used to reconstruct th...