التفاصيل البيبلوغرافية
| العنوان: |
RADIATION IMAGING APPARATUS AND METHOD OF CONTROLLING THE SAME |
| Document Number: |
20090046911 |
| تاريخ النشر: |
February 19, 2009 |
| Appl. No: |
12/180843 |
| Application Filed: |
July 28, 2008 |
| مستخلص: |
A radiation imaging apparatus detects the density distribution of an image formed by a radiopaque dye from each of two images obtained by radiation imaging. The apparatus predicts the moving speed of the image formed by the radiopaque dye based on the moving amount of the detected density distribution and the interval between the radiographing times of the two images, and determines the next timing of radiation imaging based on the predicted moving speed and the detected density distribution. A radiation imaging apparatus detects the density distribution of a radiopaque dye in an image obtained by X-ray radiation imaging and predicts the moving speed of the radiopaque dye based on the change amount of the density distribution. The radiation imaging apparatus determines the X-ray irradiation timing based on the predicted radiopaque dye moving speed, the detected radiopaque dye density distribution, and a predetermined radiopaque dye density. |
| Inventors: |
INOUE, CHIZURU (Tokyo, JP); Yoshida, Takashi (Yokosuka-shi, JP) |
| Assignees: |
CANON KABUSHIKI KAISHA (Tokyo, JP) |
| Claim: |
1. A radiation imaging apparatus comprising: a detection unit adapted to detect a density distribution of an image formed by a radiopaque dye from an image obtained by radiation imaging; a prediction unit adapted to calculate a moving speed of the image formed by the radiopaque dye on the basis of a moving amount of the density distribution detected by said detection unit in two images obtained by radiation imaging and an interval between radiographing times of the two images; and a determination unit adapted to determine a next timing of radiation imaging on the basis of the moving speed calculated by said prediction unit and the density distribution detected by said detection unit. |
| Claim: |
2. The apparatus according to claim 1, wherein said prediction unit calculates, as a moving amount of the density distribution, a moving amount of a position with a highest density in the density distribution detected by said detection unit in the two images. |
| Claim: |
3. The apparatus according to claim 1, wherein said determination unit determines the next timing of radiation imaging to joint portions having not less than a predetermined radiopaque dye density in the density distribution when the density distribution detected by said detection unit moves at the moving speed calculated by said prediction unit. |
| Claim: |
4. The apparatus according to claim 1, wherein said determination unit determines the next timing of radiation imaging to, at a connection portion between the density distribution of an image obtained by latest radiation imaging and the density distribution of an image after movement, make a sum of the density distributions equal a predetermined radiopaque dye density when the density distribution detected by said detection unit moves at the moving speed calculated by said prediction unit. |
| Claim: |
5. A method of controlling a radiation imaging apparatus, comprising: a detection step of detecting a density distribution of an image formed by a radiopaque dye from an image obtained by radiation imaging; a prediction step of calculating a moving speed of the image formed by the radiopaque dye on the basis of a moving amount of the density distribution detected in the detection step in two images obtained by radiation imaging and an interval between radiographing times of the two images; and a determination step of determining a next timing of radiation imaging on the basis of the moving speed calculated in the prediction step and the density distribution detected in the detection step. |
| Claim: |
6. The method according to claim 5, wherein in the prediction step, a moving amount of a position with a highest density in the density distribution detected in the detection step in the two images is calculated as a moving amount of the density distribution. |
| Claim: |
7. The method according to claim 5, wherein in the determination step, the next timing of radiation imaging is determined to joint portions having not less than a predetermined radiopaque dye density in the density distribution when the density distribution detected in the detection step moves at the moving speed calculated in the prediction step. |
| Claim: |
8. The method according to claim 5, wherein in the determination step, the next timing of radiation imaging is determined to, at a connection portion between the density distribution of an image obtained by latest radiation imaging and the density distribution of an image after movement, make a sum of the density distributions equal a predetermined radiopaque dye density when the density distribution detected in the detection step moves at the moving speed calculated in the prediction step. |
| Claim: |
9. A computer-readable storage medium storing a computer program which causes a computer to control a radiation imaging apparatus, the computer program causing the computer to execute: a detection step of detecting a density distribution of an image formed by a radiopaque dye from an image obtained by radiation imaging; a prediction step of calculating a moving speed of the image formed by the radiopaque dye on the basis of a moving amount of the density distribution detected in the detection step in two images obtained by radiation imaging and an interval between radiographing times of the two images; and a determination step of determining a next timing of radiation imaging on the basis of the moving speed calculated in the prediction step and the density distribution detected in the detection step. |
| Current U.S. Class: |
382/130 |
| Current International Class: |
06 |
| رقم الانضمام: |
edspap.20090046911 |
| قاعدة البيانات: |
USPTO Patent Applications |