Computed tomography apparatus and control method for the same

What is claimed is: 1. A Computed Tomography (CT) apparatus for performing a CT scan on an object, comprising: a scanner configured to perform a scout scan on the object; storage configured to store patients' image data and a dose of radiation corresponding to each of the patients' image data; a processor configured to acquire image data for a shape of the object based on a scout scan image acquired by the scout scan, to compare the acquired image data to the image data stored in storage, and to select at least one image data having greater similarity than predetermined similarity to the acquired image data from among the image data stored in storage and calculate a dose of radiation to which the object is expected to be exposed, based on the dose of radiation corresponding to the selected at least one image data stored in the storage, and to perform a CT scan on the object based on the calculated dose of radiation, wherein the processor is further configured to acquire image data obtained by performing the CT scan on the object, and detect a dose of radiation to which the object is exposed, based on the image data obtained by performing the CT scan on the object, and the storage is further configured to update the patients' image data and the dose of radiation corresponding to each of the patients' image data by storing the detected dose of radiation to which the object is exposed and the image data obtained by performing the CT scan on the object. 2. The CT apparatus according to claim 1 , wherein the scanner performs a scout scan on at least one of a top view of the object and a lateral view of the object. 3. The CT apparatus according to claim 1 , wherein the image data for the shape of the object includes at least one image data between image data for a top view of the object and image data for a lateral view of the object. 4. The CT apparatus according to claim 1 , wherein the image data for the shape of the object includes at least one image data among projection profile data of the object, bone structure image data of the object, and contour image data of the object. 5. The CT apparatus according to claim 4 , wherein the processor acquires the projection profile data of the object, based on at least one of a brightness of the scout scan image and an intensity of image signals of the scout scan image. 6. The CT apparatus according to claim 4 , wherein the processor performs image processing on the projection profile data of the object to create at least one image data between the bone structure image data of the object and the contour image data of the object. 7. The CT apparatus according to claim 4 , wherein the processor compares the projection profile data of the object to projection profile data of the image data stored in the storage. 8. The CT apparatus according to claim 4 , wherein the processor compares the bone structure image data of the object to bone structure image data of the image data stored in the storage. 9. The CT apparatus according to claim 4 , wherein the processor compares the contour image data of the object to contour image data of the image data stored in the storage. 10. The CT apparatus according to claim 1 , wherein the processor further compares the detected dose of radiation to which the object is exposed, to the dose of radiation to which the object is expected to be exposed to calculate a difference, and corrects the difference to perform a CT scan on the object. 11. A method for controlling a CT apparatus comprising a storage configured to store patients' image data and a dose of radiation corresponding to each of the patients' image data, comprising: performing a scout scan on an object; acquiring image data for a shape of the object based on a scout scan image obtained by performing the scout scan on the object; comparing the acquired image data to the image data stored in storage; selecting at least one image data having greater similarity than predetermined similarity to the acquired image data from among the image data stored in storage; calculating a dose of radiation to which the object is expected to be exposed, based on the dose of radiation corresponding to the selected at least one image data stored in the storage; performing a CT scan on the object based on the calculated dose of radiation; acquiring image data obtained by performing the CT scan on the object; detecting a dose of radiation to which the object is exposed based on the image data obtained by performing the CT scan on the object; and updating the patients' image data and the dose of radiation corresponding to each of the patients' image data by storing the detected dose of radiation to which the object is exposed and the image data obtained by performing the CT scan on the object. 12. The method according to claim 11 , wherein the performing of the scout scan on the object comprises performing a scout scan on at least one of a top view of the object and a lateral view of the object. 13. The method according to claim 11 , wherein the acquiring of the image data for the shape of the object comprises acquiring at least one data among projection profile data of the object, bone structure image data of the object, and contour image data of the object. 14. The method according to claim 13 , wherein the acquiring of the image data for the shape of the object comprises acquiring the projection profile data of the object, based on at least one of a brightness of the scout scan image and an intensity of image signals of the scout scan image. 15. The method according to claim 13 , wherein the acquiring of the image data for the shape of the object comprises performing image processing on the projection profile data of the object to create at least one data between the bone structure image data of the object and the contour image data of the object. 16. The method according to claim 13 , wherein the comparing of the acquired image data to the image data stored in storage comprises comparing the acquired projection profile data of the object to projection profile data of the image data stored in the storage. 17. The method according to claim 13 , wherein the comparing of the acquired image data to the image data stored in storage comprises comparing the acquired bone structure image data of the object to bone structure image data of the image data stored in the storage. 18. The method according to claim 13 , wherein the comparing of the acquired image data to the image data stored in storage comprises comparing the acquired contour image data of the object to contour image data of the image data stored in the storage.