JPH1164248A - Device and method for identifying content - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable the identification of contents in a container, bag, apparatus, etc., by superimposing a neutron radioscopic image on an x-ray radioscopic image and displaying it. SOLUTION: An object to be inspected (container, bag, etc.), is mounted on a supporting and rotating platform 2, and the supporting and rotating platform 2 is rotated and moved by a motor 3. A neutron source 5 is arranged in the proximity of the object to be inspected 1, and a neutron image intensifier 6 is arranged at a location facing the neutron source 5 to measure a neutron radioscopic image signal. In addition, an X-ray generating device 7 is arranged in the proximity of the object to be inspected, and an x-ray image intensifier 8 is arranged at a location facing the X-ray generating device 7 to measure an X-ray radioscopic image signal. The signals from the image intensifiers 6 and 7 are sent to an image processing device 11, and the processed signals are stored in a storage device 12. A computational device 13 receives the input of data stored in the storage device 12, superimposes a neutron radioscopic image on an X-ray radioscopic image and displays it on a monitor 14. By this. it is possible to make the most of the characteristics of X-rays and neutrons.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for identifying contents present in a container, a bag or an apparatus.

[0002]

BACKGROUND OF THE INVENTION It is known to use x-ray radiography to confirm the presence of certain substances. It is also known to use neutron radiography for the identification of certain substances. And both existed as original technologies. Further, neutron spectroscopy is also known, and neutron radiography and neutron spectroscopy exist as independent technologies.

The inventors of the present invention have previously filed a patent application for a method for evaluating the state of deposition in a pipe or the like and an apparatus for evaluating the same (Japanese Patent Application No. 9-40333). The contents are X
"Radiation transmission information of area and gray value per unit pixel" regarding the inside of the pipe etc. obtained by irradiating radiation such as lines
The method for evaluating the state of accumulation in a pipe or the like is characterized by performing an image analysis using the method and evaluating the accumulation state of a deposit remaining in a solid or liquid state inside the pipe or the like.

[0004]

When the contents inside a container, a bag or a device are to be identified without opening, X
In general, an X-ray fluoroscopic image is created using X-ray radiography, and identification is determined based on the X-ray fluoroscopic image. Since X-rays are easily absorbed by relatively high-density substances such as iron and lead due to their properties, it is difficult to obtain an image of a low-density substance inside the outer shell if such a substance exists in the outer shell. was there.

Since neutrons are naturally absorbed by relatively low-density substances such as water and paraffin, and hardly absorbed by relatively high-density substances such as iron and lead, high-density substances are contained in the outer shell. Even if present, it is possible to identify low-density substances in it.

[0006] The present invention seeks to identify a substance present in the outer shell in a state in which the relationship with the outer shell is known by making use of the characteristics of both, and to identify the contents more accurately. It is an object of the present invention to provide a method and an apparatus for identifying contents which can be performed.

Further, the present invention analyzes gamma rays generated by irradiating a neutron beam to a substance as a content, and combines the neutron spectroscopy method for identifying the substance with the content, thereby simplifying the method to more accurately identify the substance. To make it possible.

[0008]

SUMMARY OF THE INVENTION The present invention combines an X-ray fluoroscopic or CT (Computed Tomography) image and a neutron fluoroscopic image and displays them to identify the contents. The present invention further displays a target object by using a neutron fluoroscopic image and a gamma ray obtained by irradiating a neutron beam, and identifies the contents.

More specifically, the present invention solves the above-mentioned technical problems by the following identification method / identification apparatus.

That is, the present invention is an apparatus for identifying contents by using a fluoroscopic image signal of the contents present inside a container, a bag, or an apparatus, and irradiating the contents with X-rays. A means for obtaining a fluoroscopic image signal, a means for irradiating the same content with a neutron beam to obtain a neutron fluoroscopic image signal, a means for displaying an X-ray fluoroscopic or CT image based on the X-ray fluoroscopic image signal, and a neutron fluoroscopic image signal Neutron fluoroscopy or CT
Means for displaying an image, and said fluoroscopy or CT
Means for combining and displaying the neutron fluoroscopy or CT image in an image and displaying the content.

Further, the present invention is an apparatus for identifying contents using a fluoroscopic image signal of the contents present inside a container, a bag or a device, and irradiating the contents with a neutron beam to produce neutrons. Provided is a content identifying apparatus including a means for forming a fluoroscopic or CT image, and a means for identifying an individual specific gamma ray of a content from a gamma ray obtained by irradiating a neutron beam and displaying an object.

Further, the present invention is an apparatus for identifying contents by using a fluoroscopic image signal of the contents present inside a container, a bag or an apparatus, and irradiating the contents with X-rays. A means for obtaining a fluoroscopic image signal, a means for irradiating neutrons to the same content to obtain a neutron fluoroscopic image signal, a means for displaying an X-ray fluoroscopic or CT image by the X-ray fluoroscopic image signal, and a means for obtaining a neutron fluoroscopic image signal Means for displaying a neutron fluoroscopy or CT image, means for synthesizing and displaying the neutron fluoroscopy or CT image in the X-ray fluoroscopy or CT image, and a gamma ray obtained by irradiating the neutron beam. Means for identifying an individual specific gamma ray and displaying an object is provided.

Further, the present invention is a method for identifying contents by using a fluoroscopic image signal of the contents present inside a container, a bag, or an apparatus, and irradiating the contents with X-rays. Obtaining a fluoroscopic image signal, irradiating the same content with a neutron beam to obtain a neutron fluoroscopic image signal, displaying an X-ray fluoroscopic or CT image by an X-ray fluoroscopic image signal at a set position,
Displaying a neutron fluoroscopic or CT image by the neutron fluoroscopic image signal at the aforementioned position;
A content identification method for identifying a content by synthesizing the neutron fluoroscopy or CT image into a T image is provided.

Further, the present invention is a method for identifying contents by using a fluoroscopic image signal of the contents present inside a container, a bag or a device, and irradiating the contents with a neutron beam to produce neutrons. Provided is a content identification method for forming a fluoroscopic or CT image, identifying individual specific gamma rays of the content from gamma rays obtained when neutron rays are irradiated, and displaying an object.

Further, the present invention is a method for identifying contents by using a fluoroscopic image signal of the contents present inside a container, a bag or an apparatus, and irradiating the contents with X-rays. Obtaining a fluoroscopic image signal, irradiating the same content with a neutron beam to obtain a neutron fluoroscopic image signal, displaying an X-ray fluoroscopic or CT image by an X-ray fluoroscopic image signal at a set position,
The neutron fluoroscopic or CT image is displayed by the neutron fluoroscopic image signal at the aforementioned position, the neutron fluoroscopic or CT image is synthesized and displayed in the X-ray fluoroscopic or CT image, and the neutron radiation is obtained. The present invention provides a content identification method for identifying a content by identifying an individual specific gamma ray of the content from the obtained gamma rays and displaying an object.

Further, the present invention is a method for identifying contents using a fluoroscopic image signal of the contents present inside a structure such as a container, a bag or a device having a high density such as iron. Displaying structures such as iron by X-ray fluoroscopy or CT images,
A content identification method in which low-density content on the inside is displayed and synthesized in a neutron fluoroscopy or CT image in the X-ray fluoroscopy or CT image, thereby continuously identifying the content. provide.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment according to the present invention will be described below with reference to the drawings.

In FIG. 1, an inspection object (container, bag, etc.) 1
Is mounted on the inspection object supporting rotary table 2. The support turntable 2 is rotated and moved by the inspection object support turntable moving motor 3. As shown in the figure, these devices are disposed in the inspection object rotating / moving device housing 4.

A neutron source 5 is arranged near the inspection object 1. A neutron image intensifier 6 is provided to face the neutron source 5, and a neutron fluoroscopic image signal is measured. An X-ray generator 7 is further provided near the object 1 to be inspected. An X-ray image intensifier 8 is arranged to face the X-ray generator 7, and an X-ray fluoroscopic image signal is measured.

A γ-ray detector 9 is further provided near the inspection object 1. When a test object is irradiated with neutrons, gamma rays are generated. This γ-ray is detected by the γ-ray detector 9,
The detection signal is output to the multi-channel analyzer 10 and used for identifying contents.

The neutron source 5 is mounted on a support 20 and the X-ray generator 7 is mounted on a support 20 '.

The signals from the neutron image intensifier 6 and the X-ray image intensifier 8 are sent to the image processing device 11 via the switch 17, and the processed signal is recorded in the recording device 12. Arithmetic unit (CP
U) 13 inputs data stored in the recording device 12 and, if necessary, a signal from the multi-channel analyzer 10, displays an image on the monitor 14, and outputs a control signal to the rotation / movement control device 15 of the inspection object. I do. As a result, the moving motor 3 in the inspection object rotating / moving device housing 4 operates.

As the X-ray detector, an imaging plate, a sensor utilizing an X-ray phosphor, an X-ray film, and the like can be used in addition to the image intensifier. The same applies to the neutron detector.

The X-ray generator control device 16 controls the X-ray generator 7.

A neutron shielding plate 18 is provided to isolate the neutron source 5 and the X-ray generator 7, and a shielding plate is provided to separate the neutron image intensifier 6 from the X-ray image intensifier 8. 18 are provided. An X-ray / neutron ray shielding block 19 is provided to isolate the measurement side and the image processing side.

FIG. 2 shows the arrangement of the neutron source 5, neutron image intensifier 6, and γ-ray detector 9. The neutron source 5 and the neutron image intensifier 6 are arranged to face each other with the inspection object (vessel, bag, etc.) 1 interposed therebetween. The γ-ray detector 9 can be installed at any position where the γ-ray detection sensitivity is high, and is connected to the multi-channel analyzer 10 via the γ-ray detector cooler 21.

In FIG. 3, an X-ray fluoroscopic image (outer iron container or the like) 23 is displayed on the monitor screen 22 (a), and a neutron radiographic image (internal substance) 24 is displayed on the monitor screen 22. . Further, a display (a list or the like) 25 showing the contents based on the result of the γ-ray analysis is displayed on the monitor screen 22 (b). The data relating to these displays is stored in the storage device and displayed on the monitor screen 22 as a composite image of the X-ray fluoroscopic image and the neutron fluoroscopic image. The display 25 indicating the contents is also performed (c).

Another embodiment will be described with reference to FIG.

Numeral 27 is a view showing the cross-sectional projection position by reducing the X-ray fluoroscopic image 23, which can obtain an X-ray CT image at a position of interest using a bar cursor 33 which can be moved up and down arbitrarily. FIG. 28 shows an X-ray CT image obtained thereby (a). An X-ray CT image is obtained by calculating a cross-sectional image as an X-ray absorptivity using an equation in a computer based on, for example, fluoroscopic information obtained by rotating an object under irradiation with X-rays. It is. 29 is a diagram showing a cross-sectional projection position by reducing the neutron ray perspective image 24, and using a bar cursor 34 that can be arbitrarily moved up and down on 29, it is assumed that a neutron CT image can be obtained at a position of interest, 30 is a diagram showing a neutron beam CT image (b).
Numeral 31 is a view showing the cross-sectional projection position by reducing the synthesized perspective image 26 described above, and numeral 32 is a CT image in which 28 and 30 are synthesized and displayed (C). A feature of the CT image 32 is that a neutron CT image representing an internal substance is synthesized and displayed on an X-ray CT image representing an outer iron container or the like.
Then, the contents are displayed 25 on the same screen.

A display processing flow for display performed by the CPU 13 will be described with reference to FIG.

S0 indicates a content identification algorithm.

First, X-rays are irradiated to display an X-ray fluoroscopic image of the internal state (step S1). The displayed image is identified (step S2), and it is determined whether or not the image can be identified (step S3). If it is determined that the object cannot be identified,
Is rotated to change the irradiation position, and the process returns to step S1. If it can be identified, the measurement ends. If it is determined that further examination is necessary, a neutron beam is irradiated, and a neutron fluoroscopic image of the internal state is displayed (step S4). The gamma rays obtained at the same time are analyzed (step S5). The images are synthesized and displayed, and a list of the existing substances is displayed (step S6). Identification is performed (step S7), and it is determined whether identification is possible (step S8). If the identification is impossible, the inspection object 1 is rotated, the irradiation position is changed, and step S
Return to 1. If the identification is possible, the identification is performed and the measurement is terminated. If it is determined that the check is to be performed in more detail, the target cross section is determined (step S9). An X-ray is irradiated to obtain an X-ray CT image (step S10). Irradiate neutron beam,
A neutron CT image is obtained (Step S11). Then, the images are combined (step S12). Identification (step S1
3), end the measurement.

[0033]

As described above, according to the present invention, since a neutron fluoroscopic image can be synthesized and displayed in an X-ray fluoroscopic image, the features of X-ray diagnostics and neutron diagnostics are utilized to the maximum. Thus, the contents in the container, bag or device can be easily and accurately identified.

Further, according to the present invention, a neutron fluoroscopic image and a contents list utilizing gamma rays can be simultaneously displayed on the same screen, so that contents in a container, a bag or a device can be easily and accurately identified. Will be done. If both are used together, the contents can be identified more accurately.

[Brief description of the drawings]

FIG. 1 is a diagram showing an overall arrangement for explaining an embodiment of the present invention.

FIG. 2 is a plan view of a part of FIG.

FIG. 3 is a diagram illustrating an example of a perspective image synthesis;

FIG. 4 is a diagram showing an example of CT image synthesis.

FIG. 5 is a flowchart for explaining an embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Inspection object, 5 ... Neutron source, 6 ... Neutron image intensifier, 7 ... X-ray generator, 8 ... X-ray image intensifier, 9 ... γ-ray detector, 10 ... Multichannel analyzer, 11 ... Image processing device, 12 Recording device, 13 Computing device (CPU), 14 Monitor, 22
Monitor screen, 23: X-ray fluoroscopic image, 24: Neutron ray fluoroscopic image, 25: Contents list display, 26: Synthetic fluoroscopic image, 28
... X-ray CT image, 30 ... neutron beam CT image, 32 ... CT image synthesized and displayed

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification code FI G21K 5/02 G21K 5/02 N

Claims (7)

[Claims] An apparatus for identifying contents using a fluoroscopic image signal of the contents present inside a container, a bag, an apparatus, or the like, wherein the contents are irradiated with X-rays and X-ray fluoroscopy is performed. Means for obtaining an image signal; means for irradiating the same content with a neutron beam to obtain a neutron fluoroscopic image signal; means for displaying an X-ray fluoroscopic or CT image based on an X-ray fluoroscopic image signal; and neutrons based on a neutron fluoroscopic image signal A content identifying apparatus comprising: means for displaying a fluoroscopic or CT image; and means for synthesizing and displaying the neutron fluoroscopic or CT image in the X-ray fluoroscopic or CT image. 2. An apparatus for identifying contents by using a fluoroscopic image signal of contents existing inside a container, a bag, or an apparatus, and irradiating the contents with a neutron beam to perform neutron fluoroscopy or What is claimed is: 1. An apparatus for identifying a content, comprising: means for forming a CT image; and means for identifying an individual specific gamma ray of the content from a gamma ray obtained upon irradiation with a neutron beam and displaying an object. 3. An apparatus for identifying contents using a fluoroscopic image signal of the contents present inside a container, a bag, a device, or the like, and irradiating the contents with X-rays for X-ray fluoroscopy. A means for obtaining a CT image signal; a means for irradiating the same content with neutrons to obtain a neutron fluoroscopic or CT image signal; a means for displaying an X-ray fluoroscopic or CT image based on an X-ray fluoroscopic image signal; Means for displaying a neutron fluoroscopy or CT image by a signal; means for synthesizing and displaying the neutron fluoroscopy or CT image in the X-ray fluoroscopy or CT image; and contents from a gamma ray obtained when neutron radiation is applied Means for identifying individual gamma rays of the object and displaying the object. 4. A method for identifying contents using a fluoroscopic image signal of the contents present inside a container, a bag, a device, or the like, comprising irradiating the contents with X-rays and performing X-ray fluoroscopy. Obtaining an image signal, irradiating the same content with a neutron beam to obtain a neutron fluoroscopic image signal, displaying an X-ray fluoroscopic or CT image by an X-ray fluoroscopic image signal at a set position, and a neutron fluoroscopic image signal at the aforementioned position To display a neutron fluoroscopic or CT image, and the X-ray fluoroscopic or C
A content identifying method, wherein the content is identified by synthesizing the neutron fluoroscopy or CT image in a T image. 5. A method for identifying contents using a fluoroscopic image signal of the contents present inside a container, a bag, a device, or the like, wherein the contents are irradiated with a neutron beam to perform neutron fluoroscopy or What is claimed is: 1. A method for identifying a content, comprising: forming a CT image; identifying a specific gamma ray of the content from a gamma ray obtained when neutron radiation is applied; 6. A method for identifying a content by a fluoroscopic image of the content present inside a container, a bag, a device, or the like, wherein the content is irradiated with X-rays to obtain an X-ray fluoroscopic image signal. The same content is irradiated with a neutron beam to obtain a neutron fluoroscopic image signal, an X-ray fluoroscopic or CT image is displayed at a set position, and a neutron fluoroscopic or CT image is displayed at the aforementioned position by a neutron fluoroscopic image signal. Displaying an image, synthesizing and displaying the neutron or CT image within the X-ray or CT image, and identifying individual specific gamma rays of the contents from gamma rays obtained when neutron rays are irradiated. A content identification method, characterized by identifying a content by displaying an object. 7. A method for identifying contents by using a fluoroscopic image signal of contents existing inside a high-density structure such as a container, a bag, or an apparatus, wherein the outer structure such as iron is identified. Displaying by X-ray fluoroscopy or CT image, displaying and synthesizing the inner low-density contents by neutron fluoroscopy or CT image in the fluoroscopy or CT image,
Thus, a content identification method characterized by continuously identifying the content.