Patent Number: 
Section: claims

1. A method for reconstructing an x-ray image comprising: generating x-ray beams emanating from an array of x-ray source points, said x-ray beams passing through an object to be imaged;  detecting said x-rays beams with an array of detectors;  generating intensity values corresponding to detection of said x-rays beams at said array of detectors; and  reconstructing an image along a focal plane, said image containing an array of image elements, each of said array of image elements resulting directly by summing one or more of said intensity values, said focal plane located between said array of x-ray source points and said array of detectors. 2. The method of  claim 1  in which the distance from said array of x-ray source points to said focal plane is expressed by:  claim 1 where xcex d  represents a detector pitch of said array of detectors, xcex s  represents a source pitch of said array of x-ray source points, Z d  represents the distance from said array of x-ray source points and said array of detectors, m represents a distance number for said array of detectors, n represents a distance number for said array of x-ray source points, and m*xcex d  and n*xcex s  represent baseline lengths of similar triangles. 3. The method of  claim 2  in which m and n are natural numbers. claim 2 4. The method of  claim 3  in which m and n have a common factor. claim 3 5. The method of  claim 2  in which an image pitch of image pixels at said focal plane is expressed as:  claim 2 . 6. The method of  claim 1  in which intensity data for multiple focal planes are reconstructed around a region of interest. claim 1 7. The method of  claim 6  in which intensity data of said multiple focal planes are combined. claim 6 8. The method of  claim 7  in which high spatial frequency components of said intensity data are combined. claim 7 9. The method of  claim 1  in which: claim 1 said array of x-ray source points is a two-dimensional array of SOURCE x  by SOURCE y  on a source plane, each of said array of x-ray source points is represented as SOURCE (k,l);  said array of detection is a two-dimensional array of DET x by DET y  detectors on a detector plane, each of said array of detectors is represented as DET (i,j);  INTENSITY (i,j,k,e) represents an intensity of x-ray illumination detected at detector DET(i,j) from source point SOURCE(k,l); and  said image is reconstructed by summing each value of INTENSITY (i,j,k,l), into appropriate image pixels forming a two-dimensional array of image pixels, IMAGE m,n (i*n+k*m,j*n+1*m). 10. The method of  claim 9  wherein said two-dimensional array of image pixels are reconstructed on a uniform pixel pitch, xcex fp , on said focal plane. claim 9 11. The method of  claim 10  further comprising: claim 10 generating multiple focal planes each of said multiple focal planes having a unique pixel pitch. 12. The method of  claim 9  wherein said source plane, said detector plane and said focal planes are substantially parallel. claim 9 13. The method of  claim 1  wherein said array of x-ray source points sources is rectangular. claim 1 14. The method of  claim 1  wherein said array of detectors is a pseudo-circular array. claim 1