Tomography with generation of radon data on polar grid points
First Claim
1. A method of three-dimensional computerized tomography comprising the steps, not necessarily in order, of:
- (a) generating cone beam imaging energy;
(b) passing the cone beam imaging energy through an object of interest;
(c) detecting the cone beam imaging energy as attenuated by passage through the object of interest to provide cone beam data;
(d) defining polar grid points on radial lines on a plurality of coaxial planes for which Radon data is sought;
(e) defining a Radon circle on each of said plurality of planes;
(f) calculating Radon derivative data using said cone beam data at each point of intersection between the Radon circle on a particular one of said planes and said radial lines;
(g) storing Radon derivative data in a function bin corresponding to each of a plurality of derivative points on said radial lines of a particular plane;
(h) repeating steps (f) and (g) for each of said planes;
(i) repeating steps (f) to (h) for different relative positions of a source of said cone beam imaging energy and said object of interest until all relative positions for data acquisition have been utilized;
(j) upon completion of storage of Radon derivative data in function bins for the plurality of derivative points, using the values stored in the function bins to provide reconstructed image data; and
(k) displaying an image of the object of interest using said reconstructed image data.
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Abstract
Computerized tomography provides three-dimensional imaging by applying cone beam energy to an object to be imaged. The energy passes through the object and is detected. The resulting cone beam data is efficiently processed to provide Radon data on polar grid points on a series of vertical planes. The Radon data is calculated by initially defining a Radon circle on each of the coaxial vertical planes. Radon derivative data is calculated at intersection points between the Radon circle and the radial lines. The values of Radon derivative data are binned according to the nearest grid point or nearest two grid points. Values are stored in the bins for each point in a particular plane until values for all of the planes have been supplied. The values for all the points are recalculated with each of a series of source positions, corresponding to the relative positioning of the source of cone beam energy and the object being imaged. Radon derivative data for each particular derivative point within each of the vertical planes is determined by averaging the Radon derivative data supplied to the bin corresponding to the particular point. After this is done for all of the derivative points, integration is performed along the radial lines corresponding to the grid points in order to give the Radon data R at each grid point. The image is then reconstructed based upon the performance of a three-dimensional inverse Radon transform on the Radon data.
23 Citations
15 Claims
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1. A method of three-dimensional computerized tomography comprising the steps, not necessarily in order, of:
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(a) generating cone beam imaging energy; (b) passing the cone beam imaging energy through an object of interest; (c) detecting the cone beam imaging energy as attenuated by passage through the object of interest to provide cone beam data; (d) defining polar grid points on radial lines on a plurality of coaxial planes for which Radon data is sought; (e) defining a Radon circle on each of said plurality of planes; (f) calculating Radon derivative data using said cone beam data at each point of intersection between the Radon circle on a particular one of said planes and said radial lines; (g) storing Radon derivative data in a function bin corresponding to each of a plurality of derivative points on said radial lines of a particular plane; (h) repeating steps (f) and (g) for each of said planes; (i) repeating steps (f) to (h) for different relative positions of a source of said cone beam imaging energy and said object of interest until all relative positions for data acquisition have been utilized; (j) upon completion of storage of Radon derivative data in function bins for the plurality of derivative points, using the values stored in the function bins to provide reconstructed image data; and (k) displaying an image of the object of interest using said reconstructed image data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A system for three-dimensional computerized tomography comprising:
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a source for generating cone beam imaging energy passing it through an object of interest; a detector for detecting the cone beam imaging energy as attenuated by passage through the object of interest to provide cone beam data; means for defining polar grid points on radial lines on a plurality of coaxial planes for which Radon data is sought; means for defining a Radon circle on each of said plurality of planes; means for calculating Radon derivative data using said cone beam data at each point of intersection between the Radon circle and said radial lines on each of the planes for different relative source positions; means for storing the Radon derivative data in a function bin corresponding to each of a plurality of derivative points on said radial lines on said planes for different relative source positions; means for, upon completion of storage of Radon derivative data in function bins for the plurality of derivative points, using the values stored in the function bins to provide reconstructed image data; and a display connected to said means for using the values stored in the function bins for displaying an image of the object of interest using said reconstructed image data. - View Dependent Claims (14, 15)
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Specification