Dual-energy (DE) X-ray computed tomography (CT) has shown promise for material characterization and for providing quantitatively accurate CT values in a variety of applications. However, DE-CT has not been used routinely in medicine to date, primarily due to dose considerations. Most methods for DE-CT have used the filtered backprojection method for image reconstruction, leading to suboptimal noise/dose properties. This paper describes a statistical (maximum-likelihood) method for dual-energy X-ray CT that accommodates a wide variety of potential system configurations and measurement noise models. Regularized methods (such as penalized-likelihood or Bayesian estimation) are straightforward extensions. One version of the algorithm monotonica...
The most recent generation of X-ray CT systems can collect dual energy (DE) sinograms by rapidly swi...
Dual layer CT is a new medical imaging technique, working with two layers of standard scintillator d...
This paper describes a statistical iterative reconstruction method for X-ray CT based on a physical ...
The most recent generation of X-ray CT systems can collect dual energy (DE) sinograms by rapidly swi...
This paper describes a statistical image reconstruction method for X-ray computed tomography (CT) th...
ABSTRACT X-ray CT images have various applications, including CTbased attenuation correction (CTAC) ...
This paper describes two statistical iterative reconstruction methods for X-ray CT. The rst method ...
This paper describes a statistical iterative reconstruction method for X-ray CT based on a physical ...
Statistical reconstruction for transmission tomography is emerging as potential alternative to conve...
This paper summarizes considerations in developing statistical reconstruction algorithms for polyene...
International audiencePURPOSE:Dual-energy computed tomography (DECT) makes it possible to get two fr...
This paper describes a statistical image reconstruction method for x-ray CT that is based on a physi...
X-ray CT images are used routinely for attenuation correction in PET/CT systems. However, convention...
Dual-energy (DE) X-ray computed tomography (CT) has been found useful in various applications. In me...
In this study, a simple post-reconstruction dual-energy computed tomography (CT) method is proposed....
The most recent generation of X-ray CT systems can collect dual energy (DE) sinograms by rapidly swi...
Dual layer CT is a new medical imaging technique, working with two layers of standard scintillator d...
This paper describes a statistical iterative reconstruction method for X-ray CT based on a physical ...
The most recent generation of X-ray CT systems can collect dual energy (DE) sinograms by rapidly swi...
This paper describes a statistical image reconstruction method for X-ray computed tomography (CT) th...
ABSTRACT X-ray CT images have various applications, including CTbased attenuation correction (CTAC) ...
This paper describes two statistical iterative reconstruction methods for X-ray CT. The rst method ...
This paper describes a statistical iterative reconstruction method for X-ray CT based on a physical ...
Statistical reconstruction for transmission tomography is emerging as potential alternative to conve...
This paper summarizes considerations in developing statistical reconstruction algorithms for polyene...
International audiencePURPOSE:Dual-energy computed tomography (DECT) makes it possible to get two fr...
This paper describes a statistical image reconstruction method for x-ray CT that is based on a physi...
X-ray CT images are used routinely for attenuation correction in PET/CT systems. However, convention...
Dual-energy (DE) X-ray computed tomography (CT) has been found useful in various applications. In me...
In this study, a simple post-reconstruction dual-energy computed tomography (CT) method is proposed....
The most recent generation of X-ray CT systems can collect dual energy (DE) sinograms by rapidly swi...
Dual layer CT is a new medical imaging technique, working with two layers of standard scintillator d...
This paper describes a statistical iterative reconstruction method for X-ray CT based on a physical ...