Patent Number: 
Section: claims

1. A radiographic apparatus for obtaining a radiographic image, comprising:a radiation source for emitting radiation;a radiation detecting device having a plurality of detecting elements arranged two-dimensionally in rows and columns for detecting the radiation;a radiation grid with absorbing foil strips extending in a direction of the rows and arranged in a direction of the columns for removing scattered radiation;a physical quantity acquiring device for calculating predetermined physical quantities to determine pixel values of pixels arranged two-dimensionally;a physical quantity map generating device for generating a physical quantity map by mapping the predetermined physical quantities; anda physical quantity map smoothing device for smoothing the physical quantities arranged on the physical quantity map in the direction of extension of the absorbing foil strips, thereby to generate an average value map. 2. The radiographic apparatus according to claim 1, further comprising:a pixel specifying device for specifying certain pixels among pixels forming the radiographic image; andan intensity estimating device for estimating at least one of scattered radiation intensity at the certain pixels specified by the pixel specifying device, and direct radiation intensity at the certain pixels;wherein(A) a rate of change calculating device is provided as a component corresponding to the physical quantity acquiring device, for determining a rate of change for each pixel relative to an average value or a value of each pixel obtained by smoothing and interpolating calculations as a reference intensity for the pixels relating to the radiation intensity, using the radiation intensity estimated by the intensity estimating device based on actual measurement carried out in the presence of a subject;(B) a rate of change map generating device is provided as a component corresponding to the physical quantity map generating device, for generating a rate of change map by mapping the rate of change for each pixel; and(C) a rate of change map smoothing device is provided as a component corresponding to the physical quantity map smoothing device, for smoothing rates of changes arranged on the rate of change map in the direction of extension of the absorbing foil strips, thereby to generate the average value map. 3. The radiographic apparatus according to claim 2, wherein the intensity estimating device is arranged to estimate radiation intensity at the certain pixels specified by the pixel specifying device, based on the average value map, direct radiation transmittance calculated by the transmittance calculating device, and actual measurement intensity which is a radiation intensity after transmission through the scattered radiation removing device in actual measurement carried out in the presence of a different subject. 4. The radiographic apparatus according to claim 3, wherein the physical quantity map smoothing device is arranged to remove influences of statistical noise superimposed on the physical quantity map. 5. The radiographic apparatus according to claim 4, wherein spacing between the absorbing foil strips of the radiation grid adjoining in the direction of the columns is synchronized with an integral multiple of spacing between the detecting elements of the radiation detecting device adjoining in the direction of the columns. 6. The radiographic apparatus according to claim 4, further comprising a C-arm for supporting the radiation source and the radiation detecting device. 7. The radiographic apparatus according to claim 3, wherein spacing between the absorbing foil strips of the radiation grid adjoining in the direction of the columns is synchronized with an integral multiple of spacing between the detecting elements of the radiation detecting device adjoining in the direction of the columns. 8. The radiographic apparatus according to claim 3, further comprising a C-arm for supporting the radiation source and the radiation detecting device. 9. The radiographic apparatus according to claim 2, wherein the physical quantity map smoothing device is arranged to remove influences of statistical noise superimposed on the physical quantity map. 10. The radiographic apparatus according to claim 9, wherein spacing between the absorbing foil strips of the radiation grid adjoining in the direction of the columns is synchronized with an integral multiple of spacing between the detecting elements of the radiation detecting device adjoining in the direction of the columns. 11. The radiographic apparatus according to claim 9, further comprising a C-arm for supporting the radiation source and the radiation detecting device. 12. The radiographic apparatus according to claim 2, wherein spacing between the absorbing foil strips of the radiation grid adjoining in the direction of the columns is synchronized with an integral multiple of spacing between the detecting elements of the radiation detecting device adjoining in the direction of the columns. 13. The radiographic apparatus according to claim 12, further comprising a C-arm for supporting the radiation source and the radiation detecting device. 14. The radiographic apparatus according to claim 2, further comprising a C-arm for supporting the radiation source and the radiation detecting device. 15. The radiographic apparatus according to claim 1, wherein the physical quantity map smoothing device is arranged to remove influences of statistical noise superimposed on the physical quantity map. 16. The radiographic apparatus according to claim 15, wherein spacing between the absorbing foil strips of the radiation grid adjoining in the direction of the columns is synchronized with an integral multiple of spacing between the detecting elements of the radiation detecting device adjoining in the direction of the columns. 17. The radiographic apparatus according to claim 15, further comprising a C-arm for supporting the radiation source and the radiation detecting device. 18. The radiographic apparatus according to claim 1, wherein spacing between the absorbing foil strips of the radiation grid adjoining in the direction of the columns is synchronized with an integral multiple of spacing between the detecting elements of the radiation detecting device adjoining in the direction of the columns. 19. The radiographic apparatus according to claim 18, further comprising a C-arm for supporting the radiation source and the radiation detecting device. 20. The radiographic apparatus according to claim 1, further comprising a C-arm for supporting the radiation source and the radiation detecting device.