Patent Number: 
Section: claims

1. An X-ray CT apparatus comprising:a scanning table configured to support a subject thereon and to move the subject within the X-ray CT apparatus;a scanning gantry comprising:an X-ray generator;an X-ray detector configured to detect X-rays generated by the X-ray generator, the X-ray detector positioned in opposition to the X-ray generator; anda rotation device configured to rotate the X-ray generator and the X-ray detector, the X-ray generator configured to expose the X-rays to the subject moved by the scanning table while the X-ray generator and the X-ray detector are rotated about the subject, the scanning gantry configured to perform a scan including detecting the X-rays transmitted through the subject at the X-ray detector to acquire X-ray projection data;a scanning condition setting device configured to set parameters for controlling a movement of the scanning table along a moving direction during the scan, the parameters including an acceleration and a deceleration of the movement of the scanning table;a predicting device configured to predict a plurality of positions of the scanning table along the moving direction for each view of the scan by calculating the plurality of positions of the scanning table using the parameters set by the scanning condition setting device; andan image reconstructing device configured to reconstruct a plurality of tomographic images within a range scanned during the acceleration and the deceleration of the movement of the scanning table along the moving direction by reconstructing the X-ray projection data, wherein the X-ray projection data is correlated to the plurality of predicted positions. 2. The X-ray CT apparatus according to claim 1, wherein the parameters comprise at least one of a scanning table acceleration, a scanning table deceleration, a scanning table constant velocity, a scanning table initial position, a scanning table stop position, a scanning table acceleration end position, and a scanning table deceleration start position. 3. The X-ray CT apparatus according to claim 1, wherein the predicting device is further configured to add the parameters to the X-ray projection data as a part of header information of the X-ray projection data. 4. The X-ray CT apparatus according to claim 1, wherein the predicting device is further configured to record the parameters to a file associated with the X-ray projection data. 5. The X-ray CT apparatus according to claim 1, wherein the scanning condition setting device is further configured to set as one of the parameters a tilt parameter for controlling a tilt angle of the scanning gantry during the scan, and wherein the predicting device is configured to calculate the plurality of positions by using the parameters and the tilt parameter. 6. The X-ray CT apparatus according to claim 1, wherein the scan is a helical shuttle scan. 7. The X-ray CT apparatus according to claim 1, wherein the image reconstructing device is configured to perform a three-dimensional image reconstruction. 8. A method for producing an X-ray CT image by reconstructing projection data, said method comprising:obtaining the projection data during a scan including an acceleration and a deceleration of a movement of a scanning table using an X-ray CT apparatus, wherein the X-ray CT apparatus comprises the scanning table configured to support a subject thereon and to move the subject within the X-ray CT apparatus, and a scanning gantry comprising an X-ray generator, an X-ray detector configured to detect X-rays generated by the X-ray generator, the X-ray detector positioned in opposition to the X-ray generator, and a rotation device configured to rotate the X-ray generator and the X-ray detector, the X-ray generator configured to expose the X-rays to the subject moved by the scanning table while the X-ray generator and the X-ray detector are rotated about the subject, the scanning gantry configured to perform the scan including detecting the X-rays transmitted through the subject at the X-ray detector to acquire the projection data;predicting a plurality of positions of the scanning table along a moving direction for each view of the scan by calculating the plurality of positions of the scanning table using parameters for controlling movement of the scanning table along the moving direction; andreconstructing a plurality of tomographic images within a range scanned during the acceleration and the deceleration of the movement of the scanning table by reconstructing the projection data, wherein the projection data are correlated to the plurality of predicted positions. 9. The method for producing X-ray CT image according to claim 8, wherein predicting a plurality of positions further comprises calculating the plurality of positions of the scanning table using parameters comprising at least one of a scanning table acceleration, a scanning table deceleration, a scanning table constant velocity, a scanning table initial position, a scanning table stop position, a scanning table acceleration end position, and a scanning table deceleration start position. 10. The method for producing X-ray CT image according to claim 8 further comprising adding the parameters to the projection data as a part of header information of the projection data. 11. The method for producing X-ray CT image according to claim 8 further comprising recording the parameters to a file associated with the projection data. 12. The method for producing X-ray CT image according to claim 8, wherein predicting a plurality of positions of the scanning table further comprises using the parameters and a tilt parameter for controlling a tilt angle of the scanning gantry during, the scan to predict the plurality of positions. 13. The method for producing X-ray CT image according to claim 8, wherein obtaining the projection data during a scan further comprises performing a helical shuttle scan. 14. The method for producing X-ray CT image according to claim 8, wherein reconstructing a plurality of tomographic images further comprises performing a three-dimensional image reconstruction.