Patent Number: 
Section: claims

1. A method of radiographic imaging of an object by an apparatus having an antidiffusion grid, placed between the object and a receiver of radiographic images, wherein the grid is displaced in rectilinear translation in its plane between a starting position and an arrival position comprising the step of translating the grid according to a time displacement law, in which the displacement law is a continuous curve with a time precision of approximately xc2x110% presenting at least five separate parts, the displacement taking place at constant speed over at least two parts and at variable speed over at least one part. 2. The method according to  claim 1  in which the duration of at least one part at constant speed is readjusted in a position between the starting position and the arrival position, exclusive of limits. claim 1 3. The method according to  claim 1  in which the displacement take place at high constant speed over one part and at decreasing speed over a second part. claim 1 4. The method according to  claim 2  in which the displacement take place at high constant speed over one part and at decreasing speed over a second part. claim 2 5. The method according to  claim 1  in which the displacement takes place at low constant speed over a third part. claim 1 6. The method according to  claim 2  in which the displacement takes place at low constant speed over a third part. claim 2 7. The method according to  claim 3  in which the displacement takes place at low constant speed over a third part. claim 3 8. The method according to  claim 5  in which the duration of the third part is a decreasing function of imprecision of an imaging time prediction. claim 5 9. The method according to  claim 6  in which the duration of the third part is a decreasing function of imprecision of an imaging time prediction. claim 6 10. The method according to  claim 7  in which the duration of the third part is a decreasing function of imprecision of an imaging time prediction. claim 7 11. The method according to  claim 1  in which the displacement takes place at increasing speed over a fourth part. claim 1 12. The method according to  claim 11  which the modulus of acceleration is equal to that of the second part. claim 11 13. The method according to  claim 1  in which the displacement takes place at increasing speed over a fifth part. claim 1 14. The method according to  claim 1  in which the displacement takes place at high constant speed over a sixth part. claim 1 15. Method according to  claim 14  in which the duration of the sixth part is equal to the imprecision. claim 14 16. Computer program containing program code means for applying the stages of the method according to  claim 1  when the program is processed on a computer. claim 1 17. Support capable of being read by a device for reading program code which are stored therein and are suitable for application of the stages of the method according to  claim 1 . claim 1 18. Radiological imaging apparatus comprising a: radiation beam emitter;  a receiver of the beam after it has crossed an organ to be studied;  a movable grid; and  an arithmetical unit able to control the emitter, to control displacement of the grid and to process data coming from the receiver, the arithmetical unit comprising a means for displacing the grid in rectilinear translation in its plane between a starting position and an arrival position and according to a time displacement law, the displacement law being a continuous curve with a time precision of approximately xc2x110%, presenting at least five separate parts, displacement being carried out at constant speed over at least two parts and at variable speed over at least one part. 19. The method according to  claim 18  in which the duration of at least one part at constant speed is readjusted in a position between the starting position and the arrival position, exclusive of limits. claim 18