A new iterative maximum-likelihood reconstruction algorithm for X-ray computed tomography is presented. The algorithm prevents beam hardening artifacts by incorporating a polychromatic acquisition model. The continuous spectrum of the X-ray tube is modeled as a number of discrete energies. The energy dependence of the attenuation is taken into account by decomposing the linear attenuation coefficient into a photoelectric component and a Compton scatter component. The relative weight of these components is constrained based on prior material assumptions. Excellent results are obtained for simulations and for phantom measurements. Beam-hardening artifacts are effectively eliminated. The relation with existing algorithms is discussed. The resu...
Abstract—In computed tomography (CT), the nonlinear at-tenuation characteristics of polychromatic X-...
We introduce a beam-hardening correction method for lab-based X-ray computed tomography (CT) by modi...
This paper describes a statistical iterative reconstruction method for X-ray CT based on a physical ...
In this work, a novel physics-rich beam-hardening correction algorithm was developed for X-ray Compu...
Purpose. To reduce beam hardening artifacts in CT in case of an unknown X-ray spectrum and unknown m...
Polychromatic statistical reconstruction algorithms have very high computational demands due to the ...
This paper describes a statistical image reconstruction method for X-ray computed tomography (CT) th...
A reconstruction algorithm in computerized tomography is a procedure for reconstructing the attenuat...
Statistical reconstruction for transmission tomography is emerging as potential alternative to conve...
This paper presents a new statistical reconstruction algorithm for X-ray CT. The algorithm is based ...
Beam hardening in x-ray computed tomography (CT) is inevitable because of the polychromatic x-ray sp...
This paper describes two statistical iterative reconstruction methods for X-ray CT. The rst method ...
Standard approaches to tomography reconstruction of the projection data registered with polychromati...
X-ray Computed Tomography is a non destructive technique which allows for the visualization of the i...
In computed tomography, the application of iterative reconstruction methods in practical situations ...
Abstract—In computed tomography (CT), the nonlinear at-tenuation characteristics of polychromatic X-...
We introduce a beam-hardening correction method for lab-based X-ray computed tomography (CT) by modi...
This paper describes a statistical iterative reconstruction method for X-ray CT based on a physical ...
In this work, a novel physics-rich beam-hardening correction algorithm was developed for X-ray Compu...
Purpose. To reduce beam hardening artifacts in CT in case of an unknown X-ray spectrum and unknown m...
Polychromatic statistical reconstruction algorithms have very high computational demands due to the ...
This paper describes a statistical image reconstruction method for X-ray computed tomography (CT) th...
A reconstruction algorithm in computerized tomography is a procedure for reconstructing the attenuat...
Statistical reconstruction for transmission tomography is emerging as potential alternative to conve...
This paper presents a new statistical reconstruction algorithm for X-ray CT. The algorithm is based ...
Beam hardening in x-ray computed tomography (CT) is inevitable because of the polychromatic x-ray sp...
This paper describes two statistical iterative reconstruction methods for X-ray CT. The rst method ...
Standard approaches to tomography reconstruction of the projection data registered with polychromati...
X-ray Computed Tomography is a non destructive technique which allows for the visualization of the i...
In computed tomography, the application of iterative reconstruction methods in practical situations ...
Abstract—In computed tomography (CT), the nonlinear at-tenuation characteristics of polychromatic X-...
We introduce a beam-hardening correction method for lab-based X-ray computed tomography (CT) by modi...
This paper describes a statistical iterative reconstruction method for X-ray CT based on a physical ...