Method of recording and reading a radiation image of an elongate body
First Claim
1. A method of recording and reading a radiation image of an elongate body, characterised by the steps of(a) simultaneously exposing a plurality of photostimulable phosphor screens each having a size which is smaller than the size of the elongate body, to distinct parts of a radiation image of the elongate body and of a pattern of reference marks,(b) scanning each of said screens by means of stimulating radiation, detecting light emitted upon stimulation and converting said light into signal representations of images stored in said screens,(c) extracting partial signal representations from said digital signal representations, said partial signal representations each representing a part of said pattern of reference marks that was stored in a screen,(d) determining from said partial signal representations the position of the image of the part of the pattern of reference marks stored in a screen,(e) stitching the signal representations obtained in step (b) in such a way that an image of the total pattern of reference marks is reconstructed making use of the determined positions of the parts of the pattern.
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Accused Products
Abstract
A radiation image is recorded on a plurality of photostimulable phosphor screens of a size that is smaller than the size of the elongate body. The screens are exposed to a radiation image of a grid of threads of attenuating material and a radiation image of the elongate body so that each of the screens stores part of the image of the body and superimposed thereon, part of the image of the grid. The screens are read out individually. Reconstruction of the image of the elongate body is performed on the basis of the reconstructed image of the grid.
77 Citations
5 Claims
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1. A method of recording and reading a radiation image of an elongate body, characterised by the steps of
(a) simultaneously exposing a plurality of photostimulable phosphor screens each having a size which is smaller than the size of the elongate body, to distinct parts of a radiation image of the elongate body and of a pattern of reference marks, (b) scanning each of said screens by means of stimulating radiation, detecting light emitted upon stimulation and converting said light into signal representations of images stored in said screens, (c) extracting partial signal representations from said digital signal representations, said partial signal representations each representing a part of said pattern of reference marks that was stored in a screen, (d) determining from said partial signal representations the position of the image of the part of the pattern of reference marks stored in a screen, (e) stitching the signal representations obtained in step (b) in such a way that an image of the total pattern of reference marks is reconstructed making use of the determined positions of the parts of the pattern.
Specification