Patent Number: 
Section: claims

1. A method for generating a scatter image of an object at a projection angle in an imaging system, the method comprising:a. acquiring a non-grid image of the object using a radiation source and a detector;b. positioning a scatter rejecting aperture plate between the object and the detector at a first position, wherein the scatter rejecting aperture plate comprises a plurality of apertures, said plurality of apertures being positioned on a grid;c. acquiring a first grid image of the object with the scatter rejecting aperture plate disposed between the object and the detector at the first position;d. moving the scatter rejecting aperture plate to a second position between the object and the detector;e. acquiring a second grid image of the object with the scatter rejecting aperture plate disposed between the object and the detector at the second position;f. generating a scatter image of the object based on the non-grid image, the first grid image, and the second grid image; andg. storing the scatter image of the object. 2. The method of claim 1, further comprising moving the scatter rejecting aperture plate to at least a third position between the object and the detector; acquiring at least a third grid image of the object with the scatter rejecting aperture plate disposed between the object and the detector at the third position; and generating the scatter image of the object based on the non-grid image, the first grid image, the second grid image, and the at least third grid image. 3. The method of claim 1, wherein moving the scatter rejecting aperture plate comprises moving the scatter rejecting aperture plate uni-directionally. 4. The method of claim 3, wherein moving the scatter rejecting aperture plate uni-directionally comprises moving the scatter rejecting aperture plate at least one of horizontally and vertically. 5. The method of claim 1, wherein moving the scatter rejecting aperture plate comprises moving the scatter rejecting aperture plate bi-directionally. 6. The method of claim 5, wherein moving the scatter rejecting aperture plate bi-directionally comprises moving the scatter rejecting aperture plate horizontally and vertically. 7. The method of claim 1, wherein moving the scatter rejecting aperture plate comprises rotating the scatter rejecting aperture plate. 8. The method of claim 1, wherein a three-dimensional image of the object is generated based on the scatter image and wherein resolution of the three-dimensional image of the object is dependent on a plurality of scatter rejecting aperture plate positions. 9. The method of claim 8, wherein increasing the number of scatter rejecting aperture plate positions increases the resolution of the three-dimensional image of the object. 10. The method of claim 1, further comprising automatically moving the scatter rejecting aperture plate between positions. 11. The method of claim 1, wherein the scatter rejecting aperture plate has a shape selected from the group comprising hexagonal, rectangular, and circular. 12. A method for generating a three-dimensional image of an object, the method comprising:a. acquiring a plurality of projection images of the object using a source and a detector oriented at a plurality of projection angles relative to the object; said plurality of projection angles being realized by relatively rotating the object and the radiation source in a common plane of rotation;b. acquiring a scatter image at each of the plurality of projection angles, wherein acquiring each scatter image comprisesi. acquiring a non-grid image of the object using a radiation source and a detector,ii. positioning a scatter rejecting aperture plate between the object and the detector at a first position, wherein the scatter rejecting aperture plate comprises a plurality of apertures, said plurality of apertures being positioned on a grid,iii. acquiring a first grid image of the object with the scatter rejecting aperture plate disposed between the object and the detector at the first position,iv. repositioning the scatter rejecting aperture plate to a second position between the object and the detector,v. acquiring a second grid image of the object with the scatter rejecting aperture plate disposed between the object and the detector at the second position, andvi. generating a scatter image of the object based on the non-grid image, the first grid image, and the second grid image;c. generating a plurality of scatter free projection images by correcting the plurality of projection images based on respective ones of a plurality of stored scatter images by subtracting the scatter images from the respective projection images in a single process step; andd. reconstructing a three-dimensional image of the object based on the scatter free projection images. 13. The method of claim 12, wherein repositioning the scatter rejecting aperture plate comprises moving the scatter rejecting aperture plate from a first position to at least a second position between the object and the detector. 14. The method of claim 13, wherein moving the scatter rejecting aperture plate comprises one selected from the group comprising moving the scatter rejecting aperture plate uni-directionally, moving the scatter rejecting aperture plate bi-directionally, and rotating the scatter rejecting aperture plate. 15. The method of claim 12, wherein repositioning the scatter rejecting aperture plate comprises moving the sample from a first position to at least a second position in front of the scatter rejecting aperture plate. 16. The method of claim 15, wherein moving the sample comprises one selected from the group comprising moving the sample uni-directionally, moving the sample bi-directionally, and rotating the sample. 17. A volumetric CT system for imaging an object configured to generate a scatter free image of an object for use in generating a three-dimensional image of the object, the system comprising:a. a source and a detector configured to move with respect to the object, the detector configured to acquire a plurality of images of the object;b. an aperture plate configured to be positioned at a plurality of positions between the object and the detector, the aperture plate comprising a plurality of apertures, said apertures being positioned on a grid; andc. a processor configured to acquire a non-grid image of the object without the aperture plate and a grid image of the object with the aperture plate at each of the plurality of positions between the object and the detector and generate the scatter image of the object based on the non-grid images and the grid images acquired at each of the plurality of positions. 18. The system of claim 17, wherein resolution of the three-dimensional image of the object is dependent on a number of positions of the aperture plate at each projection angle and wherein the resolution of the three-dimensional image of the object increases as the number of positions of the aperture plate at each projection angle increases. 19. The system of claim 17, wherein repositioning the aperture plate comprises one selected from the group comprising moving the aperture plate from a first position to at least a second position between the object and the detector and moving the sample from a first position to at least a second position in front of the aperture plate. 20. The system of claim 19, wherein moving the aperture plate or the sample comprises one selected from the group comprising moving the aperture plate or the sample uni-directionally, moving the aperture plate or the sample bi-directionally, and rotating the aperture plate or the sample.