Patent Number: 
Section: claims

1. A grid foil shadow removing method for a radiographic apparatus for obtaining fluoroscopic images and having a synchronous grid with grid foil strips arranged at regular intervals so that grid foil shadows fall on middles of pixels which detect radiation, the method comprising:an extracting step including a grouping step for dividing pixels forming a fluoroscopic image into groups each having a predetermined number of pixels within each row in a direction of row, a most influenced pixel selecting step for selecting a pixel most influenced by one of the grid foil shadows in each group as most influenced pixel, a voting step for casting, with the most influenced pixel in each group serving as a reference, a predetermined number of votes for other pixels spaced apart forward and backward in the direction of row, and an electing step for electing a pixel given a maximum number of votes within each group as an uninfluenced pixel which is free from influences of a foil shadow of the grid;an approximate fluoroscopic image calculating step for obtaining an approximate fluoroscopic image by carrying out an interpolation process based on detection signal values of the uninfluenced pixels;a grid foil shadow image calculating step for obtaining a grid foil shadow image based on a difference between the fluoroscopic image and the approximate fluoroscopic image;a foil shadow standard image calculating step for obtaining a foil shadow standard image by averaging the grid foil shadow image in a longitudinal direction of the grid foil shadows; anda foil shadow removing step for removing the grid foil shadows from the fluoroscopic image based on a difference between the fluoroscopic image and the foil shadow standard image, thereby to obtain a foil shadow removed image. 2. The method according to claim 1, wherein:when the predetermined number of pixels constituting each group is four, and the predetermined number of votes is 1;the voting step casts 1 vote for each of a pixel located next but one forward and a pixel located next but one backward in the direction of row; andthe electing step elects a pixel having obtained 2 votes as the uninfluenced pixel;the voting step and the electing step having, interposed therebetween adjusting steps including:a first adjusting step for adjusting the number of votes obtained to 2 for a pixel whose number of votes obtained is 1 when pixels located next but three to such pixel forward and backward in the direction of row have 2 votes, respectively;a second adjusting step for adjusting the number of votes obtained to 0 for a pixel whose number of votes obtained is 1 when a pixel located next to such pixel in the direction of row has 2 votes;a third adjusting step for comparing detection signal values of a pixel whose number of votes obtained is 1 and an adjoining pixel, adjusting the number of votes from 1 to 2 for the pixel having the larger detection signal value, and adjusting the number of votes to 0 for the pixel having the smaller detection signal value; anda fourth adjusting step for adjusting the number of votes obtained from 1 to 0 for a pixel whose number of votes obtained is 1 when one of pixels located next but one to such pixel forward and backward in the direction of row has 2 votes. 3. The method according to claim 2, further comprising a fifth adjusting step executed, when there remains a pixel whose number of votes obtained is 1 after the fourth adjusting step, for adjusting the number of votes obtained by such pixel to 2. 4. The method according to claim 2, comprising a forcible changing step executed after the extracting step, when a predetermined range includes an uninfluenced pixel skipping four pixels, and an uninfluenced pixel skipping two pixels, for forcibly changing the uninfluenced pixels so that each have three pixels at both sides. 5. The method according to claim 3, comprising a forcible changing step executed after the extracting step, when a predetermined range includes an uninfluenced pixel skipping four pixels, and an uninfluenced pixel skipping two pixels, for forcibly changing the uninfluenced pixels so that each have three pixels at both sides. 6. The method according to claim 1, wherein the most influenced pixel selecting step is executed for selecting a pixel having a minimum detection signal value as the most influenced pixel. 7. The method according to claim 2, wherein the most influenced pixel selecting step is executed for selecting a pixel having a minimum detection signal value as the most influenced pixel. 8. The method according to claim 3, wherein the most influenced pixel selecting step is executed for selecting a pixel having a minimum detection signal value as the most influenced pixel. 9. The method according to claim 4, wherein the most influenced pixel selecting step is executed for selecting a pixel having a minimum detection signal value as the most influenced pixel. 10. The method according to claim 5, wherein the most influenced pixel selecting step is executed for selecting a pixel having a minimum detection signal value as the most influenced pixel. 11. A radiographic apparatus for obtaining radiographs, comprising:a radiation emitting device for emitting radiation to a patient;a radiation detector having pixels arranged in a two-dimensional array for detecting radiation transmitted through the patient;a synchronous grid with foil strips arranged at regular intervals so that grid foil shadows fall on middles of the pixels of the radiation detector;an extracting unit including a grouping unit for dividing pixels forming a fluoroscopic image into groups each having a predetermined number of pixels within each row in a direction of row, a most influenced pixel selecting unit for selecting a pixel most influenced by one of the grid foil shadows in each group as most influenced pixel, a voting unit for casting, with the most influenced pixel in each group serving as a reference, a predetermined number of votes for other pixels spaced apart forward and backward in the direction of row, and an electing unit for electing a pixel given a maximum number of votes within each group as an uninfluenced pixel which is free from influences of a foil shadow of the grid;an approximate fluoroscopic image calculating unit for obtaining an approximate fluoroscopic image by carrying out an interpolation process based on detection signal values of the uninfluenced pixels;a grid foil shadow image calculating unit for obtaining a grid foil shadow image based on a difference between the fluoroscopic image and the approximate fluoroscopic image;a foil shadow standard image calculating unit for obtaining a foil shadow standard image by averaging the grid foil shadow image in a longitudinal direction of the grid foil shadows; anda foil shadow removing unit for removing the grid foil shadows from the fluoroscopic image based on a difference between the fluoroscopic image and the foil shadow standard image, thereby to obtain a foil shadow removed image. 12. The apparatus according to claim 11, wherein:when the predetermined number of pixels constituting each group is four, and the predetermined number of votes is 1;the voting unit casts 1 vote for each of a pixel located next but one forward and a pixel located next but one backward in the direction of row; andthe electing unit elects a pixel having obtained 2 votes as the uninfluenced pixel;the voting unit and the electing unit having, interposed therebetween, an adjusting unit including:a first adjusting unit for adjusting the number of votes obtained from 1 to 2 for a pixel whose number of votes obtained is 1 when pixels located next but three to such pixel forward and backward in the direction of row have 2 votes, respectively;a second adjusting unit for adjusting the number of votes obtained to 0 for a pixel whose number of votes obtained is 1 when a pixel located next to such pixel in the direction of row has 2 votes;a third adjusting unit for comparing detection signal values of a pixel whose number of votes obtained is 1 and an adjoining pixel, adjusting the number of votes from 1 to 2 for the pixel having the larger detection signal value, and adjusting the number of votes from 1 to 0 for the pixel having the smaller detection signal value; anda fourth adjusting unit for adjusting the number of votes obtained from 1 to 0 for a pixel whose number of votes obtained is 1 when one of pixels located next but one to such pixel forward and backward in the direction of row has 2 votes. 13. The apparatus according to claim 12, wherein the adjusting unit further includes a fifth adjusting unit arranged, when there remains a pixel whose number of votes obtained is 1 after the adjustment by the fourth adjusting unit, to adjust the number of votes obtained by such pixel to 2. 14. The apparatus according to claim 12, further comprising a forcible changing unit arranged, after the process by the extracting unit, when a predetermined range includes an uninfluenced pixel skipping four pixels, and an uninfluenced pixel skipping two pixels, to forcibly change the uninfluenced pixels so that each have three pixels at both sides. 15. The apparatus according to claim 13, comprising a forcible changing unit arranged, after the process by the extracting unit, when a predetermined range includes an uninfluenced pixel skipping four pixels, and an uninfluenced pixel skipping two pixels, to forcibly change the uninfluenced pixels so that each have three pixels at both sides. 16. The apparatus according to claim 11, wherein the most influenced pixel selecting unit is arranged to select a pixel having a minimum detection signal value as the most influenced pixel. 17. The apparatus according to claim 12, wherein the most influenced pixel selecting unit is arranged to select a pixel having a minimum detection signal value as the most influenced pixel. 18. The apparatus according to claim 13, wherein the most influenced pixel selecting unit is arranged to select a pixel having a minimum detection signal value as the most influenced pixel. 19. The apparatus according to claim 14, wherein the most influenced pixel selecting unit is arranged to select a pixel having a minimum detection signal value as the most influenced pixel. 20. The apparatus according to claim 15, wherein the most influenced pixel selecting unit is arranged to select a pixel having a minimum detection signal value as the most influenced pixel.