Statistical image reconstruction methods based on maximum a posteriori (MAP) principle have been developed for emission tomography. The prior distribution of the unknown image plays an important role in MAP reconstruction. The most commonly used prior are Gaussian priors, whose logarithm has a quadratic form. Gaussian priors are relatively easy to analyze. It has been shown that the effect of a Gaussian prior can be approximated by linear filtering a maximum likelihood (ML) reconstruction. As a result, sharp edges in reconstructed images are not preserved. To preserve sharp transitions, non-Gaussian priors have been proposed. However, their effect on clinical tasks is less obvious. In this paper, we compare MAP reconstruction with Gaussian ...
In emission tomography, image reconstruction and therefore also tracer development and diagnosis may...
Graduation date: 2011Medical imaging technologies play a vital role in early diagnosis of disease by...
[[abstract]]©2002 MC NTHU - Quantitative positron emission tomography (PET) using statistical techni...
Statistical image reconstruction methods based on maximum a posteriori (MAP) principle have been dev...
Detecting cancerous lesion is an important task in positron emission tomography (PET). Bayesian meth...
Maximum a-posteriori (MAP) estimation has the advantage of incorporating prior knowledge in the imag...
Statistical methods for approaching image reconstruction and restoration problems have generated muc...
We compare the image quality of SPECT reconstruction with and without an anatomical prior. Area unde...
With increasing availability of multimodality imaging systems, high-resolution anatomical images can...
The development and tests of an iterative reconstruction algorithm for emission tomography based on ...
[[abstract]]MRI Based Bayesian Image Reconstruction Methods for positron emission tomography reconst...
In emission tomography, image reconstruction and therefore also tracer development and diagnosis may...
Detecting cancerous lesions is a major clinical application in emission tomography. In previous work...
[[abstract]]MRI Based Bayesian Image Reconstruction Methods for positron emission tomography reconst...
[[abstract]]A maximum a posteriori algorithm, which incorporates correlated magnetic resonance image...
In emission tomography, image reconstruction and therefore also tracer development and diagnosis may...
Graduation date: 2011Medical imaging technologies play a vital role in early diagnosis of disease by...
[[abstract]]©2002 MC NTHU - Quantitative positron emission tomography (PET) using statistical techni...
Statistical image reconstruction methods based on maximum a posteriori (MAP) principle have been dev...
Detecting cancerous lesion is an important task in positron emission tomography (PET). Bayesian meth...
Maximum a-posteriori (MAP) estimation has the advantage of incorporating prior knowledge in the imag...
Statistical methods for approaching image reconstruction and restoration problems have generated muc...
We compare the image quality of SPECT reconstruction with and without an anatomical prior. Area unde...
With increasing availability of multimodality imaging systems, high-resolution anatomical images can...
The development and tests of an iterative reconstruction algorithm for emission tomography based on ...
[[abstract]]MRI Based Bayesian Image Reconstruction Methods for positron emission tomography reconst...
In emission tomography, image reconstruction and therefore also tracer development and diagnosis may...
Detecting cancerous lesions is a major clinical application in emission tomography. In previous work...
[[abstract]]MRI Based Bayesian Image Reconstruction Methods for positron emission tomography reconst...
[[abstract]]A maximum a posteriori algorithm, which incorporates correlated magnetic resonance image...
In emission tomography, image reconstruction and therefore also tracer development and diagnosis may...
Graduation date: 2011Medical imaging technologies play a vital role in early diagnosis of disease by...
[[abstract]]©2002 MC NTHU - Quantitative positron emission tomography (PET) using statistical techni...