Patent Number: 
Section: claims

1. An x-ray computed tomography system that generates an x-ray beam with an x-ray generator and detects with an x-ray detector at least one characteristic of the x-ray beam generated by the x-ray generator, after the x-ray beam has passed through an object, the system comprising:a converting unit configured to obtain analog projection data outputted by the x-ray detector and to convert the analog projection data to digital projection data; anda processing unit configured to obtain the digital projection data from the converting unit, to detect overflow digital projection data that overflows a measuring range of the computed tomography system, and to correct the overflow digital projection data of the digital projection data by using a curve fitting function. 2. The x-ray computed tomography system of claim 1, wherein the processing unit comprises:an overflow unit configured to detect the overflow digital projection data; anda correction unit configured to correct the overflow digital projection data based on the overflow digital projection data obtained from the overflow unit, non-overflow digital projection data of the digital projection data obtained from the converting unit, and the curve fitting function of the processing unit. 3. The x-ray computed tomography system of claim 2, wherein the correction unit comprises:a first fitting unit configured to perform a first curve fitting function on the non-overflow digital projection data obtained from the converting unit;a second fitting unit configured to perform a second function fitting on a combination of the non-overflow digital projection data and the overflow digital projection data obtained from the converting unit and the overflow unit, respectively; anda weighting unit configured to weight and combine an output obtained from the first fitting unit and an output obtained from the second fitting unit to output a correction of the digital projection data,wherein a weight is adaptatively calculated by simulation by the weighting unit based on prior known digital projection data of the x-ray computed tomography system or the weight is obtained from a known lookup table. 4. The x-ray computed tomography system of claim 1, further comprising:a reconstruction unit configured to reconstruct an image of the object based on the corrected digital projection data obtained from the correction unit and the non-overflow digital projection data. 5. The x-ray computed tomography system of claim 4, further comprising:a display unit configured to display the image of the object reconstructed by the reconstruction unit. 6. The x-ray computed tomography system of claim 3, wherein the correction unit further comprises:an interpolation unit configured to identify overflow points in the digital projection data obtained from the converting unit and to linearly interpolate a group of overflow points if the group has a number of overflow points smaller than a predetermined number. 7. The x-ray computed tomography system of claim 6, wherein the first and second fitting units correct only groups of overflow points that have a number of overflow points bigger than the predetermined number. 8. The x-ray computed tomography system of claim 7, wherein the predetermined number is one. 9. The x-ray computed tomography system of claim 1, wherein the x-ray detector is an array detector having a plurality of detector elements. 10. The x-ray computed tomography system of claim 6, wherein the overflow unit comprises:a mapping unit configured to create an overflow map that identifies overflow points in the digital projection data obtained from the converting unit and to provide the overflow map to the correction unit. 11. The x-ray computed tomography system of claim 10, further comprising:a prior knowledge input unit configured to input the prior known digital projection data of the x-ray computed tomography system to the weighting unit. 12. The x-ray computed tomography system of claim 11, wherein the prior known digital projection data is water calibration data obtained by irradiating water with the x-ray beam in the computed tomography system and measuring with the x-ray detector the at least one characteristic of the x-ray beam after the x-ray beam has passed through the water. 13. The x-ray computed tomography system of claim 12, further comprising:a prior knowledge correction unit configured to calculate a correction of the overflow digital projection data based on an input obtained from the prior knowledge input data unit and an input obtained from the weighting unit; anda selection unit configured to select a best correction to be applied to the digital projection data based on an output obtained from the prior knowledge correction unit and an output obtained from the weighting unit. 14. The x-ray computed tomography system of claim 13, whereinthe first curve fitting function is a spline function,the second curve fitting function is a polynomial function, andthe selection unit selects the smallest correction from the correction of weighting unit, a correction of the second fitting unit, and the correction of the prior knowledge correction unit as the best selection. 15. The x-ray computed tomography system of claim 1, wherein the processing unit comprises a selection unit configured to select a correction algorithm based on characteristics of the overflow. 16. The x-ray computed tomography system of claim 1, wherein the processing unit is configured to correct the digital projection data along a channel direction of the x-ray detector. 17. A method for correcting an image of an object placed in an x-ray computed tomography system that generates an x-ray beam with an x-ray generator and detects with an x-ray detector at least one characteristic of the x-ray beam generated by the x-ray generator, after the x-ray beam has passed through the object, the method comprising:converting analog projection data outputted by the x-ray detector to digital projection data with a converting unit connected to the x-ray detector;detecting overflow digital projection data that overflows a measuring range of the computed tomography system with an overflow detecting unit connected to the converting unit; andcorrecting the overflow digital projection data with a correction unit connected to the overflow detecting unit by using a curve fitting function to produce a corrected image. 18. The method of claim 17, wherein the correcting comprises:correcting the overflow digital projection data with the correction unit based on the overflow digital projection data obtained from the overflow detecting unit, non-overflow digital projection data of the digital projection data obtained from the converting unit, and the curve fitting function. 19. The method of claim 18, wherein the correcting further comprises:performing a first curve fitting function with a first fitting unit on the non-overflow digital projection data obtained from the converting unit;performing a second curve fitting function with a second fitting unit on a combination of the non-overflow digital projection data obtained from the converting unit and the overflow digital projection data obtained from the overflow detecting unit; andweighting and combining an output obtained from the first fitting unit and an output obtained from the second fitting unit with a weighting unit to output a correction of the digital projection data,wherein a weight is adaptatively calculated by simulation by the weighting unit based on prior known digital projection data of the x-ray computed tomography system or the weight is obtained from a known lookup table. 20. The method of claim 17, further comprising:reconstructing the image of the object with a reconstruction unit, based on the corrected digital projection data and non-overflow digital projection data obtained from the correction unit and the converting unit, respectively. 21. The method of claim 20, further comprising:displaying the image of the object reconstructed by the reconstruction unit on a display unit. 22. The method of claim 19, wherein the correcting further comprises:identifying overflow points in the digital projection data obtained from the converting unit with a linear interpolation unit; andlinearly interpolating a group of overflow points identified by the linear interpolation unit if the group has a number of overflow points smaller than a predetermined number. 23. The method of claim 22, wherein the first and second fitting units correct only groups of overflow points that have a number of overflow points bigger than the predetermined number. 24. The method of claim 23, wherein the predetermined number is one. 25. The method of claim 17, wherein the x-ray detector is an array detector having a plurality of detector elements. 26. The method of claim 22, further comprising:creating an overflow map that identifies overflow points in the digital projection data obtained from the converting unit with an overflow map unit; andproviding the overflow map to the correction unit. 27. The method of claim 26, further comprising:inputting prior known digital projection data of the x-ray computed tomography system into a prior knowledge input unit; andproviding the prior known digital projection data to the weighting unit. 28. The method of claim 27, wherein the prior known digital projection data is water calibration data obtained by irradiating water with the x-ray beam in the computed tomography system and measuring with the x-ray detector the at least one characteristic of the x-ray beam, after the x-ray beam has passed through the water. 29. The method of claim 28, further comprising:calculating a correction of the overflow digital projection data with a prior knowledge correction unit based on an output obtained from the prior knowledge input data unit and an output obtained from the weighting unit; andselecting a best correction to be applied to the digital projection data based on an output obtained from the correction unit and an output obtained from the prior knowledge correction unit by using a selection unit that communicates to the correction unit and the prior knowledge correction unit. 30. The method of claim 29, whereinthe first curve fitting function is a spline function,the second curve fitting function is a polynomial function, andthe selection unit selects the smallest correction from the correction of the weighting unit, a correction of the second fitting unit, and the correction of the prior knowledge correction unit as the best selection. 31. The method of claim 17, wherein the correcting comprises:selecting a correction method based on characteristics of the overflow with a selection unit connected to the correction unit. 32. The method of claim 17, wherein the correcting comprises:correcting the digital projection data along a channel direction of the x-ray detector. 33. A computer readable medium for correcting an image of an object placed in an x-ray computed tomography system that generates an x-ray beam with an x-ray generator and detects with an x-ray detector at least one characteristic of the x-ray beam generated by the x-ray generator, after the x-ray beam has passed through the object, the computer readable medium storing instructions for execution on a computer system, which when executed by the computer cause the computer to execute a process comprising:converting analog projection data outputted by the x-ray detector to digital projection data with a converting unit connected to the x-ray detector;detecting overflow digital projection data that overflows a measuring range of the computed tomography system with an overflow detecting unit connected to the converting unit; andcorrecting the overflow digital projection data with a correction unit connected to the overflow detecting unit by using a curve fitting function to produce the corrected image. 34. The computer readable medium according to claim 33, wherein the correcting comprises:correcting the overflow digital projection data with the correction unit based on the overflow digital projection data obtained from the overflow detecting unit, non-overflow digital projection data of the digital projection data obtained from the converting unit, and the curve fitting function. 35. The computer readable medium according to claim 34, wherein the correcting further comprises:performing a first curve fitting function with a first fitting unit on the non-overflow digital projection data obtained from the converting unit;performing a second curve fitting function with a second fitting unit on a combination of the non-overflow digital projection data obtained from the converting unit and the overflow digital projection data obtained from the overflow detecting unit; andweighting and combining an output obtained from the first fitting unit and an output obtained from the second fitting unit with a weighting unit to output a correction of the digital projection data,wherein a weight is adaptatively calculated by simulation by the weighting unit based on prior known digital projection data of the x-ray computed tomography system or the weight is obtained from a known lookup table. 36. The computer readable medium according to claim 33, further comprising:reconstructing the image of the object with a reconstruction unit, based on the corrected digital projection data and non-overflow digital projection data obtained obtained from the correction unit and the converting unit, respectively. 37. The computer readable medium according to claim 33, further comprising:displaying the image of the object reconstructed by the reconstruction unit on a display unit. 38. The computer readable medium according to claim 35, wherein the correcting further comprises:identifying overflow points in the digital projection data obtained from the converting unit with a linear interpolation unit; andlinearly interpolating a group of overflow points identified by the linear interpolation unit if the group has a number of overflow points smaller than a predetermined number. 39. The computer program product according to claim 38, wherein the first and second fitting units correct only groups of overflow points that have a number of overflow points bigger than the predetermined number. 40. The method of claim 39, wherein the predetermined number is one. 41. The computer readable medium according to claim 33, wherein the x-ray detector is an array detector having a plurality of detector elements. 42. The computer readable medium according to claim 38, further comprising:creating an overflow map that identifies overflow points in the digital projection data with an overflow map unit; andproviding the overflow map to the correction unit. 43. The computer readable medium according to claim 42, further comprising:inputting prior known digital projection data of the x-ray computed tomography system into a prior knowledge input unit; andproviding the prior known digital projection data to the weighting unit. 44. The computer readable medium according to claim 43, wherein the prior known digital projection data is water calibration data obtained by irradiating water with the x-ray beam in the computed tomography system and measuring with the x-ray detector the at least one characteristic of the x-ray beam, after the x-ray beam has passed through the water. 45. The computer readable medium according to claim 44, further comprising:calculating a correction of the overflow digital projection data with a prior knowledge correction unit based on an output obtained from the prior knowledge input data unit and an output obtained from the weighting unit; andselecting a best correction to be applied to the digital projection data based on an output obtained from the correction unit and an output obtained from the prior knowledge correction unit by using a selection unit that communicates to the correction unit and the prior knowledge correction unit. 46. The computer readable medium according to claim 45, whereinthe first curve fitting function is a spline function,the second curve fitting function is a polynomial function, andthe selection unit selects the smallest correction from the correction of the weighting unit, a correction of the second fitting unit, and the correction of the prior knowledge correction unit as the best selection. 47. The computer readable medium according to claim 33, wherein the correcting comprises:selecting a correction method based on characteristics of the overflow with a selection unit connected to the correction unit. 48. The computer readable medium according to claim 33, wherein the correcting comprises:correcting the digital projection data along a channel direction of the x-ray detector.