Article screening system
First Claim
1. An X-ray-based imaging system providing stereoscopic three-dimensional images of objects moving from left to right in a path beneath two X-ray emitting tubes, the system including:
- left and right X-ray tubes aligned on a common line in the same plane above the path;
left and right X-ray sensors disposed below the path in alignment with the X-ray tubes to sense X-rays emitted by the tubes;
a left X-ray tube support adapted to constrain the left X-ray tube in a position a known distance from a target and at a known perspective, the perspective being an angle formed by the common line and a line to the target, permitting the left X-ray tube to emit a collimated X-ray beam at an angle which is a left viewpoint;
computing means for determining a right perspective angle, using the distance from the left X-ray tube to the target, the distance from the left X-ray tube to an imaginary point, and the distance from the imaginary point to the target, the imaginary point being a point which is within the stereoscopic range on the common line between the tubes, the determined right perspective angle being a right viewpoint from a slightly different perspective leading to a stereo pair;
a right X-ray tube support adapted to retain the right X-ray tube on the common line in its angular orientation to retain its determined right perspective angle, but spaced away from the left X-ray tube an actual distance or stereo base greater than normal stereo base to eliminate cross exposure interference while still obtaining X-ray exposures from two slightly different perspectives;
means operating the X-ray sources continuously;
a discriminator adapted to sample radiographic images sensed by the left sensor and to distinguish separate objects passing over the sensor;
a processor adapted to store separately radiographic data for each object sensed by the left sensor;
an encoder adapted to sense conveyor positions of each object, to match the stored radiographic data from the left sensor with corresponding radiographic data sensed by the right sensor, and to combine the matched left and right radiographic data to form the stereo pair for three-dimensional viewing.
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Abstract
During the last ten years patents directed to luggage scanning apparatus began to appear in the patent art. Absent from the variety of approaches in the art is stereoscopic imaging that entails exposing two or more images of the same object, each taken from a slightly different perspective. If the perspectives are too different, that is, if there is too much separation of the X-ray exposures, the image will look flat. Yet with a slight separation, a stereo separation, interference occurs. Herein a system is provided for the production of stereo pairs. One perspective, a left or a right perspective angle, is first established. Next, the other perspective angle is computed. Using these left and right perspectives the X-ray sources can then be spaced away from each other.
67 Citations
6 Claims
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1. An X-ray-based imaging system providing stereoscopic three-dimensional images of objects moving from left to right in a path beneath two X-ray emitting tubes, the system including:
- left and right X-ray tubes aligned on a common line in the same plane above the path;
left and right X-ray sensors disposed below the path in alignment with the X-ray tubes to sense X-rays emitted by the tubes;
a left X-ray tube support adapted to constrain the left X-ray tube in a position a known distance from a target and at a known perspective, the perspective being an angle formed by the common line and a line to the target, permitting the left X-ray tube to emit a collimated X-ray beam at an angle which is a left viewpoint;
computing means for determining a right perspective angle, using the distance from the left X-ray tube to the target, the distance from the left X-ray tube to an imaginary point, and the distance from the imaginary point to the target, the imaginary point being a point which is within the stereoscopic range on the common line between the tubes, the determined right perspective angle being a right viewpoint from a slightly different perspective leading to a stereo pair;
a right X-ray tube support adapted to retain the right X-ray tube on the common line in its angular orientation to retain its determined right perspective angle, but spaced away from the left X-ray tube an actual distance or stereo base greater than normal stereo base to eliminate cross exposure interference while still obtaining X-ray exposures from two slightly different perspectives;
means operating the X-ray sources continuously;
a discriminator adapted to sample radiographic images sensed by the left sensor and to distinguish separate objects passing over the sensor;
a processor adapted to store separately radiographic data for each object sensed by the left sensor;
an encoder adapted to sense conveyor positions of each object, to match the stored radiographic data from the left sensor with corresponding radiographic data sensed by the right sensor, and to combine the matched left and right radiographic data to form the stereo pair for three-dimensional viewing. - View Dependent Claims (2, 3, 4, 5, 6)
- left and right X-ray tubes aligned on a common line in the same plane above the path;
Specification