Computer tomography (CT) techniques are the most widely applicable noninvasive methods for obtaining two- and three-dimensional insights into biological objects, They comprise CT for medical applications, as well as electron tomography used for investigating macromolecular and cellular specimens. Recent advances in the recording schemes improve the speed and resolution frontiers and provide new insights into structural organizations of different objects. However, many data sets suffer from a poor signal-to-noise ratio, which severely hinders the application of methods for automated data analysis, such as feature extraction, segmentation, and visualization. We propose the multidimensional implementation of two powerful signal reconstruction ...
In many medical imaging modalities, image reconstruction is a key component. Radon Transform is most...
International audienceIn tomography an image is reconstructed from its projections from different di...
We present an approach for significantly improving the quantitative analysis of motion in noisy fluo...
Computer tomography (CT) techniques are the most widely applicable noninvasive methods for obtaining...
Electron tomography is a powerful technique capable of giving unique insights into the three-dimensi...
Electron tomography is a powerful technique capable of giving unique insights into the three-dimensi...
This work deals with noise removal by the use of an edge preserving method called Perona–Malik diffu...
Fluorescence diffuse optical tomography (fDOT) provides 3D images of fluorescence distributions in b...
Abstract: We present a new approach to improving images in diffusion tomography, involving construct...
Electron tomography produces highly magnified 3D image volumes useful for investigating the structur...
The established methods for today's clinical applications include the use of the diffusion Magnetic ...
In tomographic reconstruction, the inversion of the Radon transform in the presence of noise is nume...
International audienceIn tomography, an image is reconstructed from its projections from different d...
Computed tomography (CT) has a trend towards higher resolution and higher noise. This development ha...
In this paper, we present a wavelet - based approach to solve the non-linear perturbation equation e...
In many medical imaging modalities, image reconstruction is a key component. Radon Transform is most...
International audienceIn tomography an image is reconstructed from its projections from different di...
We present an approach for significantly improving the quantitative analysis of motion in noisy fluo...
Computer tomography (CT) techniques are the most widely applicable noninvasive methods for obtaining...
Electron tomography is a powerful technique capable of giving unique insights into the three-dimensi...
Electron tomography is a powerful technique capable of giving unique insights into the three-dimensi...
This work deals with noise removal by the use of an edge preserving method called Perona–Malik diffu...
Fluorescence diffuse optical tomography (fDOT) provides 3D images of fluorescence distributions in b...
Abstract: We present a new approach to improving images in diffusion tomography, involving construct...
Electron tomography produces highly magnified 3D image volumes useful for investigating the structur...
The established methods for today's clinical applications include the use of the diffusion Magnetic ...
In tomographic reconstruction, the inversion of the Radon transform in the presence of noise is nume...
International audienceIn tomography, an image is reconstructed from its projections from different d...
Computed tomography (CT) has a trend towards higher resolution and higher noise. This development ha...
In this paper, we present a wavelet - based approach to solve the non-linear perturbation equation e...
In many medical imaging modalities, image reconstruction is a key component. Radon Transform is most...
International audienceIn tomography an image is reconstructed from its projections from different di...
We present an approach for significantly improving the quantitative analysis of motion in noisy fluo...