KR20100059496A - Apparatus for restructing high contrast x-ray tomographic and method thereof - Google Patents

Abstract

PURPOSE: An apparatus and a method thereof are provided to restructure one tomography image about a subject by spatially combining an interpolated image with a second X-ray projection image. CONSTITUTION: An X-ray tube(210) radiates X-ray to a subject(220). A flat board detector(230) gets a first X-ray projection image passed through the entire image of the subject while being spaced with a first interval. The flat board detector gets a second X-ray projection image passed through a part of the subject while being spaced with a second interval. A video terminal(240) reconstructs one tomography image by combining the obtained first X-ray projection image with the second X-ray projection image. The visual terminal comprises an interpolator which interpolates by using spatial resolution.

Description

Apparatus for restructing high contrast X-ray tomographic and method

The present invention relates to an apparatus and method for reconstructing a high luminance tomography image.

In general, X-rays attenuate while passing through an object depending on the nature and distance of the object as it penetrates the object.It can be used for non-destructive testing to detect internal diagnosis or defects inside the body. X-ray imaging apparatuses are widely used. However, the X-ray imaging apparatus displays information about the inside of the object, but does not show a cross-sectional image of the object, and thus, X-ray tomography (CT) is used.

1 is an exemplary view for explaining the principle of operation of the X-ray tomography apparatus according to the prior art.

As shown in FIG. 1, in the X-ray tomography imaging apparatus according to the related art, the X-ray tube 110 and the flat panel detector 130 are paired with respect to the rotation axis on which the subject 120 is placed. By taking a number of X-ray projection images using absorption coefficients for each micro-angle while rotating along the angle, and reconstructing the photographed multiple X-ray projection images into tomographic images of the subject using a numerical method, Section information is restored.

This imaging technique has a problem in that it is difficult to identify when materials having similar absorption coefficients are adjacent to each other because they are reconstructed to almost similar values in the process of reconstructing a tomography image. For example, when hard tissues such as bone and soft tissues such as organs are mixed, excellent characteristics of hard tissues and soft tissues are identified, but their ability to identify normal tissues and lesions in soft tissues is poor.

In order to overcome this drawback, a phase contrast imaging technique using the diffraction characteristics of X-rays has been applied. This imaging technique also uses a conventional method to obtain an enlarged image by securing a sufficient distance between the subject and the flat panel detector. There is a problem in that a flat plate detector having a much larger area than the size of the flat plate detector is required and the manufacturing cost is increased.

The present invention is to solve the problems of the prior art as described above, by reconstructing a single tomographic image by combining the images taken of the whole or a part of the subject under different imaging techniques through a flat plate detector of the same size, The present invention provides an apparatus and method for reconstructing a high-contrast tomography image, which prevents the use of an excessively flat plate detector.

In addition, since the present invention can combine the image of the entire subject or a part of the subject under different imaging techniques through the same size of the flat plate detector by one only by the frequency component extraction and the interpolation process for the pixel size. The present invention provides an apparatus and method for reconstructing high-contrast tomography to simplify.

In addition, the present invention combines the images of all or a part of the subject to be reconstructed into a single tomography image according to different imaging techniques through a flat plate detector of the same size, to improve the quality of the tomographic image An apparatus and method for reconstructing an illuminance tomography image are provided.

To this end, an apparatus for reconstructing a high illuminance tomography image according to an aspect of the present invention includes an X-ray tube for radiating X-rays to a subject; Acquire a first X-ray projection image passing through the entire area of the subject by a first distance away from the subject, and second X passing through the partial region of the subject by a second distance from the subject; A flat panel detector for obtaining a line projection image; And an image terminal configured to combine the acquired first X-ray projection image and the second X-ray projection image and reconstruct it into a single tomography image.

The imaging terminal may include a collector configured to collect the first X-ray projection image and the second X-ray projection image; An extraction unit for extracting image information corresponding to a specific frequency component which is a frequency band of the second X-ray projection image from the first X-ray projection image; An interpolation unit which interpolates using spatial resolution so that an area of the second X-ray projection image included in the extracted image has the same size as that of the second X-ray projection image; And a reconstruction unit configured to combine the second X-ray projection image with the interpolated image and to reconstruct the tomographic image of one subject.

In this case, the first X-ray projection image is an image obtained by photographing the subject using an absorption coefficient characteristic of an object, and the second X-ray projection image is photographed by using the diffraction characteristic of X-rays. Each image may mean. The first distance may be a distance at which the entire area of the subject may be photographed, the second distance may be a distance at which a portion of the subject may be photographed, and the first distance may be smaller than the second distance.

In addition, the apparatus for reconstructing the high illuminance tomography image according to the present invention comprises: a first moving means for the X-ray tube and the plate detector to rotate the subject in accordance with a constant rotation trajectory on a rotation axis; And second moving means for moving the plate detector to adjust the distance between the object and the plate detector without changing the distance between the X-ray tube and the object.

According to an aspect of the present invention, there is provided a method for reconstructing a high illuminance tomography image, comprising: acquiring a first X-ray projection image passing through an entire area of the subject by a first distance from the subject; Acquiring a second X-ray projection image passing through a portion of the subject by a second distance from the subject; And combining the acquired first X-ray projection image and the second X-ray projection image and reconstructing the image into a tomography image.

The reconstructing into one tomography image may include extracting image information corresponding to a specific frequency component which is a frequency band of the second X-ray projection image from the first X-ray projection image; Interpolating using spatial resolution such that an area of the second X-ray projection image included in the extracted image has the same size as that of the second X-ray projection image; And combining the second X-ray projection image with the interpolated image and reconstructing the tomographic image of one subject.

In this case, the first X-ray projection image is an image obtained by photographing the subject using an absorption coefficient characteristic of an object, and the second X-ray projection image is photographed by using the diffraction characteristic of X-rays. Each image may mean. The first distance may be a distance at which the entire area of the subject may be photographed, the second distance may be a distance at which a portion of the subject may be photographed, and the first distance may be smaller than the second distance.

Hereinafter, an apparatus and method for reconstructing a high illuminance tomography image according to an embodiment of the present invention will be described in detail with reference to FIGS. 2 to 5. That is, the present invention intends to reconstruct a single tomography image by combining images captured by all or a part of an object under different imaging techniques through a flat plate detector having the same size.

2 is an exemplary view for explaining the principle of operation of the X-ray tomography apparatus according to an embodiment of the present invention.

As shown in FIG. 2, the X-ray tomography imaging apparatus according to the present invention includes an X-ray tube 210, a subject 220, a flat panel detector 230, an image terminal 240, and the like. Can be. That is, the X-ray tube 210 and the flat panel detector 230 are paired with respect to the rotation axis on which the subject 220 is placed to take a plurality of X-ray projection images while rotating along the rotation trajectory. X-rays may be generated in the X-ray tube 210 at a distance between the subject and the SOD to obtain a plurality of X-ray projection images in the flat panel detector 230.

In particular, the X-ray tomography imaging apparatus according to the present invention acquires a plurality of first X-ray projection images while rotating along the rotation trajectory at the distance of ODD1, which is capable of photographing the entire area of the subject 220, A plurality of second X-ray projection images may be acquired while rotating along a rotation trajectory at a distance of ODD2 that allows photographing of a portion of the subject 220.

At this time, the first X-ray projection image is an image taken by using the absorption coefficient characteristics of the object that X-rays pass through the object, and the second X-ray projection image is X-ray diffraction (X-ray diffraction) Phase contrast using a characteristic may also mean an image photographed according to a photographing technique. In particular, phase contrast imaging is a technique that can obtain a clearer image through a diffraction pattern considering the X-ray diffracted in the object. In order to use this characteristic, a sufficient distance between the subject and the flat panel detector is used. Should be maintained.

Here, the flat panel detector for capturing the second X-ray projection image is the same as the flat panel detector for capturing the first X-ray projection image, and may be moved to vary only a distance from the subject. This is because the flat panel detector for capturing the X-ray projection image of the entire image of the subject according to the conventional phase contrast imaging method has to grow in proportion to the distance to the subject. This is to take an X-ray projection image.

At this time, although the X-ray tomography apparatus according to the present invention is not shown, the X-ray tube and the flat plate detector, the first moving means and the X-ray tube and blood to rotate the subject in accordance with a certain rotation trajectory on the axis of rotation A second moving means for moving the flat panel detector between the distance of the ODD1 and the distance of the ODD2 may be further provided to adjust the distance between the object and the flat plate detector without changing the distance between the samples.

The imaging terminal 240 may reconstruct the acquired first X-ray projection image and the second X-ray projection image into a single tomography image. One tomography image may be reconstructed by combining a second X-ray projection image, which is a partial image of.

In particular, in obtaining the first X-ray projection image and the second X-ray projection image, the projection image is taken by moving the flat panel detector without moving the subject, so that the X-ray paths passing through the subject coincide. can do. This allows combining the first X-ray projection image and the second X-ray projection image by extracting frequency components and interpolating pixel sizes without complicated calculations.

As described above, the present invention combines images captured by all or part of the subject under different imaging techniques using the same sized flat panel detector to reconstruct one tomography image, thereby avoiding the use of an excessively sized flatbed detector. In addition, manufacturing costs can be reduced.

In addition, since the present invention can combine the image of the entire subject or a part of the subject under different imaging techniques through the same size of the flat plate detector by one only by the frequency component extraction and the interpolation process for the pixel size. It can also be simplified.

3 is an exemplary view showing a method for reconstructing a high illuminance tomography image according to an embodiment of the present invention.

As shown in FIG. 3, the X-ray tomography imaging apparatus according to the present invention passes through the entire region of the subject while rotating along a rotational track about a rotation axis on which the subject is placed a first distance apart from the subject. A plurality of first X-ray projection images may be obtained (S310). Here, the first distance may mean a distance at which the entire area of the subject can be photographed.

Then, the flat panel detector is moved to rotate a plurality of X-ray projection images by photographing some images of the subject while rotating along a trajectory around a rotation axis on which the subject is placed a second distance away from the subject. Can be obtained (S320). Here, the second distance means a distance at which a portion of the subject can be photographed, and may be larger than the first distance.

The X-ray tomography apparatus may reconstruct the acquired first X-ray projection image and the second X-ray projection image into a single tomography image. One tomography image may be reconstructed by combining a second X-ray projection image that is a partial image of the subject. The principle of reconstructing one tomography image will be described with reference to FIG. 4.

4 is an exemplary diagram for explaining a principle of reconstructing a tomography image in relation to step S330 or lower of FIG. 3.

As shown in FIG. 4, the X-ray tomography apparatus according to the present invention has a specific frequency that is a frequency band of the second X-ray projection image from the first X-ray projection image (a) photographed at a first distance. An image corresponding to the component may be extracted (S330). In particular, the present invention can use this by calculating a correlation of the same region of the first X-ray projection image and the second X-ray projection image and determining a specific frequency component according to the calculated result. .

The interpolated image (b) may be obtained by interpolating using spatial resolution so that the region of the second X-ray projection image included in the extracted image has the same size as that of the second X-ray projection image. There is (S340).

As a result, the X-ray tomography imaging apparatus according to the present invention reconstructs one tomography image (D) of the subject by spatially coupling the second X-ray projection image (c) to the interpolated image (S350). It may be (S360). As described above, by spatially combining the first X-ray projection image of the entire image of the subject with the second X-ray projection image of the partial image of the subject, a large area flat panel detector is photographed at a second distance ODD2. The same image as that obtained can be obtained.

As described above, the present invention can improve the quality of a tomography image by reconstructing a single tomography image by combining images captured by all or a part of an object through different imaging techniques through a flat plate detector having the same size.

5 is a diagram illustrating a detailed configuration of the video terminal 240 shown in FIG.

As shown in FIG. 5, the image terminal 240 for reconstructing a tomography image according to the present invention includes a collector 510, an extractor 520, an interpolator 530, a reconstructor 540, and the like. Can be configured.

The collection unit 510 may collect the first X-ray projection image and the second X-ray projection image, respectively, from the flat panel detector at an ODD1 or ODD2 distance.

The extractor 520 extracts an image corresponding to a specific frequency component that is a frequency band of the second X-ray projection image from the first X-ray projection image, and the interpolator 530 is configured to include an image included in the extracted image. The area of the 2 X-ray projection image may be interpolated using spatial resolution so that the area of the 2 X-ray projection image has the same size as that of the second X-ray projection image.

The reconstructor 540 may reconstruct one tomography image by combining the second X-ray projection image with the interpolated image.

The apparatus and method for reconstructing a high illuminance tomography image according to the present invention can be modified and applied in various forms within the scope of the technical idea of the present invention and are not limited to the above embodiments. In addition, the embodiments and drawings are merely for the purpose of describing the contents of the invention in detail, not intended to limit the scope of the technical idea of the invention, the present invention described above is common knowledge in the technical field to which the present invention belongs As those skilled in the art can have various substitutions, modifications, and changes without departing from the technical spirit of the present invention, it is not limited to the above embodiments and the accompanying drawings, of course, and not only the claims to be described below but also claims Judgment should be made including scope and equivalence.

1 is an exemplary view for explaining the principle of operation of the X-ray tomography apparatus according to the prior art,

2 is an exemplary view for explaining the operation principle of the X-ray tomography apparatus according to an embodiment of the present invention,

3 is an exemplary view showing a method for reconstructing a high illuminance tomography image according to an embodiment of the present invention.

FIG. 4 is an exemplary diagram for explaining a principle of reconstructing a tomography image in relation to step S330 or lower of FIG. 3.

5 is a diagram illustrating a detailed configuration of the video terminal 240 shown in FIG.

<Description of Symbols for Main Parts of Drawings>

210: X-ray tube

220: subject

230: flat panel detector

240: video terminal

510: collection unit

520: extraction unit

530: interpolator

540: reconstruction unit

Claims (9)

An X-ray tube radiating X-rays to the subject; Acquire a first X-ray projection image passing through the entire area of the subject by a first distance away from the subject, and second X passing through a partial region of the subject by a second distance from the subject A flat panel detector for obtaining a line projection image; And Image terminal for reconstructing a single tomography image by combining the obtained first X-ray projection image and the second X-ray projection image Apparatus for reconstructing high-contrast tomography comprising a. According to claim 1, The video terminal, A collector configured to collect the first X-ray projection image and the second X-ray projection image; An extraction unit for extracting an image corresponding to a specific frequency component that is a frequency band of the second X-ray projection image from the first X-ray projection image; An interpolation unit that interpolates using spatial resolution so that an area of the second X-ray projection image included in the extracted image has the same size as that of the second X-ray projection image; And Apparatus for reconstructing a high illuminance tomography image comprising a reconstructing unit for reconstructing the tomographic image of one subject by combining the second X-ray projection image with the interpolated image. The method according to claim 1 or 2, The first X-ray projection image is an image obtained by capturing the subject using an absorption coefficient characteristic of an object, and the second X-ray projection image is an image obtained by capturing the subject using an X-ray diffraction characteristic. Apparatus for reconstructing high-contrast tomography images, each meaning. The method according to claim 1 or 2, The first distance is a distance at which the entire area of the subject can be photographed, and the second distance is a distance at which a part of the subject is photographed, and the first distance is smaller than the second distance. Device for reconstructing tomography images. The method according to claim 1 or 2, First moving means for the X-ray tube and the flat plate detector to rotate the inspected object along a rotational axis along a rotational axis; And Second moving means for moving the plate detector to adjust the distance between the subject and the plate detector without changing the distance between the X-ray tube and the subject Apparatus for reconstructing high-contrast tomography image further comprising. Acquiring a first X-ray projection image passing through an entire area of the subject by a first distance from the subject; Acquiring a second X-ray projection image passing through a portion of the subject by a second distance from the subject; And Reconstructing a single tomography image by combining the obtained first and second X-ray projection images Method for reconstructing the high illuminance tomography comprising a. The method according to claim 6, Reconstructing the single tomography image, Extracting an image corresponding to a specific frequency component that is a frequency band of the second X-ray projection image from the first X-ray projection image; Interpolating using spatial resolution such that an area of the second X-ray projection image included in the extracted image has the same size as that of the second X-ray projection image; And And combining the second X-ray projection image with the interpolated image to reconstruct the tomographic image of one subject. The method according to claim 6 or 7, The first X-ray projection image is an image obtained by capturing the subject using an absorption coefficient characteristic of an object, and the second X-ray projection image is an image obtained by capturing the subject using an X-ray diffraction characteristic. Apparatus for reconstructing high-contrast tomography images, each meaning. The method according to claim 6 or 7, The first distance is a distance at which the entire area of the subject can be photographed, and the second distance is a distance at which a part of the subject is photographed, and the first distance is smaller than the second distance. Method for reconstructing tomography.

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