IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0176322
(2005-07-08)
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등록번호 |
US-7639857
(2010-01-07)
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우선권정보 |
JP-2004-208881(2004-07-15) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Fitzpatrick, Cella, Harper & Scinto
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인용정보 |
피인용 횟수 :
2 인용 특허 :
5 |
초록
▼
Radiation image data obtained by an imaging unit in a radiation irradiation state is stored. Reference image data obtained by the imaging unit in a radiation non-irradiation state is stored. Reduced radiation image data and reduced reference image data as reduced image data of the radiation image da
Radiation image data obtained by an imaging unit in a radiation irradiation state is stored. Reference image data obtained by the imaging unit in a radiation non-irradiation state is stored. Reduced radiation image data and reduced reference image data as reduced image data of the radiation image data and the reference image data are generated. Offset correction processing is executed between the radiation image data and the reference image data. After output of the reduced radiation image data and the reduced reference image data to the external device is ended, offset-corrected radiation image data is output to an external device.
대표청구항
▼
What is claimed is: 1. An imaging apparatus which outputs, to an external device, image data obtained by an imaging unit to radiograph a subject by using radiation, comprising: first storage means for storing radiation image data obtained by the imaging unit in a radiation irradiation state; second
What is claimed is: 1. An imaging apparatus which outputs, to an external device, image data obtained by an imaging unit to radiograph a subject by using radiation, comprising: first storage means for storing radiation image data obtained by the imaging unit in a radiation irradiation state; second storage means for storing reference image data obtained by the imaging unit in a radiation non-irradiation state; reduction means for generating reduced radiation image data and reduced reference image data as reduced image data of the radiation image data and the reference image data; execution means for executing offset correction processing between the radiation image data and the reference image data; and output means for, after output of the reduced radiation image data and the reduced reference image data to the external device is ended, outputting offset-corrected radiation image data obtained by said execution means to the external device, wherein said reduction means generates the reduced image data by extracting, from all pixels obtained by the imaging unit, at least one of pixel groups located on two pairs of diagonals of an n×n pixel (where n is a natural number) square region of the imaging unit, and wherein the value n is determined on the basis of at least one of necessary size and image quality of the reduced image data, a time allowable for output to the external device, a pixel pitch of the imaging unit, and a grid pitch of an X-ray antiscatter grid. 2. The apparatus according to claim 1, wherein said reduction means generates one pixel of the reduced image data by executing a filter operation for the extracted pixels. 3. The apparatus according to claim 2, wherein, in the filter operation, the value n is an even number, and a weight is an even function. 4. The apparatus according to claim 1, wherein said output means first outputs the reduced radiation image data to the external device at once, then outputs the reduced reference image data to the external device at once, and finally outputs the offset-corrected radiation image data obtained by said execution means to the external device. 5. The apparatus according to claim 1, wherein said output means first divides the reduced radiation image data into a predetermined division unit and sequentially outputs the data to the external device, then divides the reduced reference image data into a predetermined division unit and sequentially outputs the data to the external device, and finally outputs the offset-corrected radiation image data obtained by said execution means to the external device. 6. The apparatus according to claim 1, wherein said second storage means stores the reference image data obtained by the imaging unit in the radiation non-irradiation state after the radiation image data obtained by the imaging unit in the radiation irradiation state is stored in said first storage means. 7. The apparatus according to claim 1, wherein said reduction means first generates the reduced radiation image data substantially simultaneously with storage of the radiation image data in said first storage means, said output means outputs the reduced radiation image data to the external device, said reduction means then generates the reduced reference image data substantially simultaneously with storage of the reference image data in said second storage means, and said output means then outputs the reduced reference image data to the external device and finally outputs the offset-corrected radiation image data to the external device. 8. A control method of an imaging apparatus which outputs, to an external device, image data obtained by an imaging unit to radiograph a subject by using radiation, comprising: a first storage step of storing radiation image data obtained by the imaging unit in a radiation irradiation state in a first storage unit; a second storage step of storing reference image data obtained by the imaging unit in a radiation non-irradiation state in a second storage unit; a reduction step of generating reduced radiation image data and reduced reference image data as reduced image data of the radiation image data and the reference image data; an execution step of executing offset correction processing between the radiation image data and the reference image data; and an output step of, after output of the reduced radiation image data and the reduced reference image data to the external device is ended, outputting offset-corrected radiation image data obtained in the execution step to the external device, wherein said reduction step includes generating the reduced image data by extracting, from all pixels obtained by the imaging unit, at least one of pixel groups located on two pairs of diagonals of an n×n pixel (where n is a natural number) square region of the imaging unit, and wherein the value n is determined on the basis of at least one of necessary size and image quality of the reduced image data, a time allowable for output to the external device, a pixel pitch of the imaging unit, and a grid pitch of an X-ray antiscatter grid. 9. A computer-readable storage medium storing, in executable form, a program which implements control of an imaging apparatus which outputs, to an external device, image data obtained by an imaging unit to radiograph a subject by using radiation, comprising: a program code for a first storage step of storing radiation image data obtained by the imaging unit in a radiation irradiation state in a first storage unit; a program code for a second storage step of storing reference image data obtained by the imaging unit in a radiation non-irradiation state in a second storage unit; a program code for a reduction step of generating reduced radiation image data and reduced reference image data as reduced image data of the radiation image data and the reference image data; a program code for an execution step of executing offset correction processing between the radiation image data and the reference image data; and a program code for an output step of, after output of the reduced radiation image data and the reduced reference image data to the external device is ended, outputting offset-corrected radiation image data obtained in the execution step to the external device, wherein the reduction step includes generating the reduced image data by extracting, from all pixels obtained by the imaging unit, at least one of pixel groups located on two pairs of diagonals of an n×n pixel (where n is a natural number) square region of the imaging unit, and wherein the value n is determined on the basis of at least one of necessary size and image quality of the reduced image data, a time allowable for output to the external device, a pixel pitch of the imaging unit, and a grid pitch of an X-ray antiscatter grid. 10. An imaging apparatus which outputs, to an external device, image data obtained by an imaging unit to radiograph a subject via a radiation antiscatter grid, comprising: first storage means for storing radiation image data obtained by the imaging unit in a radiation irradiation state; second storage means for storing reference image data obtained by the imaging unit in a radiation non-irradiation state; reduction means for generating reduced radiation image data and reduced reference image data as reduced image data of the radiation image data and the reference image data by a reduction method based on reduction ratio of the reduced image with respect to the entire image, pixel pitch of the imaging unit, and the grid pitch of the radiation antiscatter grid; execution means for executing offset correction processing between the radiation image data and the reference image data; and output means for, after output of the reduced radiation image data and the reduced reference image data to the external device is ended, outputting offset corrected radiation image data obtained by said execution means to the external device. 11. A control method of an imaging apparatus which outputs, to an external device, image data obtained by an imaging unit to radiograph a subject via a radiation antiscatter grid, comprising: a first storage step of storing radiation image data obtained by the imaging unit in a radiation irradiation state in a first storage unit; a second storage step of storing reference image data obtained by the imaging unit in a radiation non-irradiation state in a second storage unit; a reduction step of generating reduced radiation image data and reduced reference image data as reduced image data of the radiation image data and the reference image data by a reduction method based on reduction ratio of the reduced image with respect to the entire image, pixel pitch of the imaging unit, and the grid pitch of the radiation antiscatter grid; an execution step of executing offset correction processing between the radiation image data and the reference image data; and an output step of, after output of the reduced radiation image data and the reduced reference image data to the external device is ended, outputting offset corrected radiation image data obtained in the execution step to the external device. 12. A computer-readable storage medium storing, in executable form, a program that causes a computer to control of an imaging apparatus which outputs, to an external device, image data obtained by an imaging unit to radiograph a subject via a radiation antiscatter grid, comprising: a program code for a first storage step of storing radiation image data obtained by the imaging unit in a radiation irradiation state in a first storage unit; a program code for a second storage step of storing reference image data obtained by the imaging unit in a radiation non-irradiation state in a second storage unit; a program code for a reduction step of generating reduced radiation image data and reduced reference image data as reduced image data of the radiation image data and the reference image data by a reduction method based on reduction ratio of the reduced image with respect to the entire image, pixel pitch of the imaging unit, and the grid pitch of the radiation antiscatter grid; a program code for an execution step of executing offset correction processing between the radiation image data and the reference image data; and a program code for an output step of, after output of the reduced radiation image data and the reduced reference image data to the external device is ended, outputting offset corrected radiation image data obtained in the execution step to the external device.
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