Visual presentation of information derived from a 3D image system
First Claim
1. A method of creating a 3D X-ray dataset, in which successive depth plane information is obtained from a stereoscopic pair of X-ray images by successively subtracting the image information of one of the pair from the other of the pair when the pair is superimposed at one relative lateral superimposition so giving first depth plane information, moving the pair relative to one another by an amount equal to the minimum detectable parallax in a display for the images, again subtracting the image information of one of the pair from the other of the pair at said later superimposition so giving second depth plane information, and further subtracting the first depth plane information from the second depth plane information to provide the unique depth plane information at said one relative lateral superimposition, effecting said movement and subtractions as necessary to provide unique depth plane information for as many planes as required, said second depth plane information being used as said first depth plane information in a subsequent step and new second depth plane information being obtainable after said movement of the pair relative one another by an amount equal to the minimum detectable parallax in a display for the images.
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Abstract
A method of creating a 2½D solid model picture in which a stereoscopic image is identified as a series of depth slices and the resulting slice data is built up to a 2½D model using appropriate computer software. The method compares a stereoscopic pair at a relative lateral position and identifies those points of coincidence so as to create a slice through the picture at a depth corresponding to that particular relative lateral position. The pair is then moved laterally relative to each one another by an amount equal to the minimum detectable parallax and the comparison is repeated as often as is required to identify points of coincidence at all parallax depths or slices of the stereoscopic picture. The 2½D solid model image is then built by using the obtained slice data.
38 Citations
13 Claims
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1. A method of creating a 3D X-ray dataset, in which successive depth plane information is obtained from a stereoscopic pair of X-ray images by successively subtracting the image information of one of the pair from the other of the pair when the pair is superimposed at one relative lateral superimposition so giving first depth plane information, moving the pair relative to one another by an amount equal to the minimum detectable parallax in a display for the images, again subtracting the image information of one of the pair from the other of the pair at said later superimposition so giving second depth plane information, and further subtracting the first depth plane information from the second depth plane information to provide the unique depth plane information at said one relative lateral superimposition, effecting said movement and subtractions as necessary to provide unique depth plane information for as many planes as required, said second depth plane information being used as said first depth plane information in a subsequent step and new second depth plane information being obtainable after said movement of the pair relative one another by an amount equal to the minimum detectable parallax in a display for the images.
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2. A method of creating a 2½
- D solid model picture for viewing, comprising identifying a series of depth slices in a stereoscopic X-ray image;
deriving data for each depth slice, the combined data from the depth slices defining depth slice data; and
transforming the depth slice data into a 2½
D model picture using computer software;
wherein the stereoscopic image is formed by a stereoscopic pair of images and the depth slices are identified by comparing said paired images at different relative positions. - View Dependent Claims (3)
- D solid model picture for viewing, comprising identifying a series of depth slices in a stereoscopic X-ray image;
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4. A method of creating a 2½
- D solid model representation for viewing in which a stereoscopic image derived from a stereoscopic pair of X-ray images is resolved into a series of depth slices by selecting for each depth slice conjugate points of the pair at that depth, and the resulting depth slice data is used to build up a 2½
D model representation using software which transforms the data in which the stereoscopic pair are multiplexed alternately on a plane at one relative lateral position and points which appear to be solid, static and non-flickering are selected to represent the depth slice, and the pair are then moved laterally relative to one another by an amount equal to the minimum detectable parallax in the pair to obtain a further depth slice.
- D solid model representation for viewing in which a stereoscopic image derived from a stereoscopic pair of X-ray images is resolved into a series of depth slices by selecting for each depth slice conjugate points of the pair at that depth, and the resulting depth slice data is used to build up a 2½
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5. A method of creating a 2½
- D solid model representation for viewing in which a stereoscopic image derived from a stereoscopic pair of X-ray images is resolved into a series of depth slices by selecting for each depth slice conjugate points of the pair at that depth, and the resulting depth slice data is used to build up a 2½
D model representation using software which transforms the data in which the stereoscopic pair are of different colours, are multiplexed alternately on a plane at one relative lateral position and points identified as the colour which is characteristic of the superimposed coloured images are selected to represent the depth slice, and the pair are then moved laterally relative to one another by an amount equal to the minimum detectable parallax in the pair to obtain a further depth slice.
- D solid model representation for viewing in which a stereoscopic image derived from a stereoscopic pair of X-ray images is resolved into a series of depth slices by selecting for each depth slice conjugate points of the pair at that depth, and the resulting depth slice data is used to build up a 2½
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6. A method of creating a 2½
- D solid model representation for viewing in which a stereoscopic image derived from a stereoscopic pair of X-ray images is resolved into a series of depth slices by selecting for each depth slice conjugate points of the pair at that depth, and the resulting depth slice data is used to build up a 2½
D model representation using software which transforms the data in which the stereoscopic pair are compared by subtracting the image information of one of the pair from the other, at one relative lateral position to give first depth plane information, moving the pair laterally relative to one another by the amount equal to the minimum detectable parallax and again subtracting the image information of one of the pair from the other to give second depth plane information, and further subtracting the first depth plane information from the second depth plane information.
- D solid model representation for viewing in which a stereoscopic image derived from a stereoscopic pair of X-ray images is resolved into a series of depth slices by selecting for each depth slice conjugate points of the pair at that depth, and the resulting depth slice data is used to build up a 2½
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7. A method of creating a 3D data set, comprising:
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a) comparing a stereoscopic pair of X-ray images at one relative lateral position of the pair and identifying points of coincidence to represent a slice through the picture at a depth corresponding to that particular relative lateral position, b) moving the pair laterally relative to one another by an amount equal to the minimum detectable parallax in the stereoscopic pair and repeating step a, and c) repeating step b as often as required to identify points of coincidence at all parallax depths or slices of the stereoscopic picture. - View Dependent Claims (8, 9, 10, 11)
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12. A method of creating a 2½
- D solid model representation of an object for viewing, the method comprising;
a) providing a stereoscopic x-ray system;
b) operating the stereoscopic x-ray system to generate a left two dimensional x-ray perspective of the object;
c) operating the stereoscopic x-ray system to generate a right two dimensional x-ray perspective of the object, the left and right perspectives together defining a stereoscopic pair of x-ray images;
d) obtaining successive depth plane information from said stereoscopic pair of x-ray images by;
i) successively subtracting the image information of one of the pair from the other of the pair when the pair is superimposed at one relative lateral superimposition so giving first depth plane information;
ii) moving the pair relative to one another by an amount equal to the minimum detectable parallax in a display for the images, and again subtracting the image information of one of the pair from the other of the pair at said later superimposition so giving second depth plane information; and
iii) further subtracting the first depth plane information from the second depth plane information to provide the unique depth plane information at said one relative lateral superimposition;
c) effecting said movement and subtractions as necessary to provide unique depth plane information for as many planes as required, said second depth plane information being used as said first depth plane information in a subsequent step and new second depth plane information being obtainable after said movement of the pair relative one another by an amount equal to the minimum detectable parallax in a display for the images; and
d) thereafter building up the 2½
D solid model picture by using the depth plane information obtained.
- D solid model representation of an object for viewing, the method comprising;
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13. A method of creating a 2½
- D solid model representation of an object, the method comprising the steps of;
a) providing a stereoscopic X-ray system;
b) operating the stereoscopic X-ray system to generate left and right two dimensional X-ray perspectives of the object, the left and right X-ray perspectives together defining a stereoscopic pair of X-ray images;
c) comparing the left and right X-ray perspectives and identifying points of coincidence to represent a slice through the object at a depth corresponding to that particular relative lateral position;
d) moving the pair laterally relative to one another by an amount equal to the minimum detectable parallax in the stereoscopic pair and repeating step c;
e) repeating step d as often as required to identify sufficient points of coincidence at all parallax depths of the stereoscopic picture; and
f) building up the 2½
D solid model image by using the slice data so obtained.
- D solid model representation of an object, the method comprising the steps of;
Specification