A Parallel Implementation of the Katsevich Algorithm for 3-D CT Image Reconstruction

In traditional 3-D CT reconstruction methods, for the projection procedure is low-pass smoothing, the high-frequency characters are difficult to obtain after the projection data are reconstructed. In addition the design and implementation of three-dimensional filter are relatively harder. A new 3D i

The problem of accurate image reconstruction from projections has repeatedly arisen over the last decades in a large number of scientific, medical and technical fields. Reconstruction algorithms use data from electron microscopes to reconstruct molecular structures or X-ray projection data to comput

Positron emission tomography (PET) is a diagnostic technique that involves the reconstruction and quantiÿcation of the distribution of radioactivity within a body. Analytical reconstructions are relatively quick but statistical models yield possibly better reconstructions at the price of long comput

## Objective: We would like to improve the image reconstructions for both signal-to-noise ratio (snr) and spatial resolution characteristics for the small animal positron emission tomograph yap-pet, built at the department of physics of ferrara university. the three-dimensional (3d) filtered backpr