JPH07175934A - Fluid image processing analysis device - Google Patents

Abstract

PURPOSE:To enable the analysis of the flow of fluid which has been difficult by visual observation. CONSTITUTION:An image input means 21 inputs plural images continously photographing the flow of fluid. By using this image, a difference image preparation means 22 performs a difference processing for two images which are chronically different and prepares h difference image. A contour emphasis image preparation means 23 performs a contour emphasis processing for the image which is chronically closer to two images for which the difference image preparation means 22 performs the difference processing and prepares the contour emphasis image. A synthesizing means 24 synthesizes the difference image and the contour emphasis image and the synthesized image is outputted by an image output means 25.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluid image processing and analyzing apparatus for analyzing fluid flow such as gas flow in a gas meter.

[0002]

2. Description of the Related Art Some gas meters, such as those using a fluidic flow meter, have a great influence on the measurement accuracy depending on the mode of gas flow in the gas meter. Therefore, conventionally, there has been a demand for analyzing the gas flow in the gas meter.

FIG. 5 is an explanatory view for explaining a conventional method for observing a gas flow in a gas meter. This figure shows an example of observing a gas flow in a gas meter using a fluidic flow meter. As shown in this figure, in the conventional method, the front surface of the gas meter 50 is made of a transparent material such as acrylic so that the inside can be seen. Then, a pipe 5 is provided at the inlet and the outlet of the gas meter 50, respectively.
Connect 1, 52. A pump 53 is connected to the pipe 52. An oil mist generator 55 is connected to the middle of the pipe 51 via a pipe 54. Air 56 is supplied into the gas meter 50 through the pipe 51, and the oil mist 5 is supplied into the pipe 51 through the oil mist generator 55.
Supply 7. Then, as shown in the figure, the oil mist 57 looks like a line. Conventionally, the flow of gas in the gas meter 50 has been confirmed by photographing the flow of the oil mist 57 in the gas meter 50 with a video camera or the like and visually observing the flow.

[0004]

However, according to the conventional method as described above, when the image taken by the video camera or the like is observed on the monitor, it is only possible to confirm that the oil mist 57 is flowing. Gas meter 50
It was almost impossible to analyze the gas flow inside. Also, when the image is stopped, the oil mist 5
The flow of 7 could hardly be confirmed.

The present invention has been made in view of the above problems, and an object of the present invention is to provide an image processing / analyzing device for a fluid that enables analysis of a fluid flow that was difficult to visually observe.

[0006]

According to another aspect of the present invention, there is provided an image processing and analyzing apparatus for a fluid, comprising: an image inputting means for inputting a plurality of images of a fluid flow continuously captured; A difference image creating unit that creates a difference image by performing difference processing on two images that are temporally different, and two images that are images that are input by the image input unit and that are processed by the difference image creating unit. And a contour image created by the difference image creating means and a contour image created by the difference image creating means. And a synthesizing means for synthesizing the emphasized image.

In this fluid image processing and analyzing apparatus, a plurality of images obtained by continuously capturing the fluid flow are input by the image input means. Using this image, the differential image creating means performs differential processing on two temporally different images to create a differential image, and the contour emphasized image creating means performs differential processing on the differential image creating means 2 Edge enhancement processing is performed on an image temporally close to two images to create an edge enhanced image. Then, the difference image and the contour emphasized image are combined by the combining means.

A fluid image processing and analyzing apparatus according to a second aspect is the fluid image processing and analyzing apparatus according to the first aspect.
The difference image creating means performs enhancement processing and smoothing processing on the image after the difference processing to create a difference image, and the contour emphasized image creating means performs enhancement processing on the image after the contour emphasis processing. The outline-emphasized image is created.

[0009]

Embodiments of the present invention will now be described in detail with reference to the drawings. 1 to 4 relate to an embodiment of the present invention.

FIG. 1 is a block diagram showing a hardware configuration of a fluid image processing / analyzing apparatus (hereinafter, simply referred to as an image processing / analyzing apparatus) of the present embodiment. As shown in this figure, the image processing analysis apparatus outputs a video tape recorder (hereinafter, referred to as VTR) 11 for inputting a plurality of images obtained by continuously capturing a fluid flow, and the VTR 11. Analog / digital (hereinafter referred to as A / D) for converting an analog image signal into a digital image signal.
A converter 12, a data bus 13 connected to the A / D converter 12, a computer 14 connected to the data bus 13 and functioning as a difference image creating means, a contour emphasized image creating means and a combining means, and an image memory. 15,
A digital-to-analog (hereinafter referred to as D / A) converter 16 which is connected to the data bus 13 and converts a digital image signal after image processing into an analog image signal, and the D / A converter 16.
A VTR 17 for recording the output image signal of the A converter 16 on a video tape.

A plurality of images obtained by continuously photographing the flow of fluid means images obtained by continuously photographing the flow of oil mist in a gas meter by a video camera and recording it on a video tape as described with reference to FIG. Is. VT
R11 reproduces the image recorded on the video tape. A video camera is provided instead of the VTR 11, and an image taken by this video camera is directly
It may be input to the A / D converter 12. Also,
Instead of the VTR 17, a monitor or a floppy disk drive for recording image signals on a floppy disk may be provided.

FIG. 2 is a functional block diagram showing the functions of the image processing analysis apparatus of this embodiment. As shown in this figure, the image processing analysis apparatus includes an image input unit 21 for inputting a plurality of images of a fluid flow continuously captured, and two temporally different images input by the image input unit 21. A difference image creating unit 22 that creates a difference image by performing a difference process on the image and an image input by the image input unit 21, and the difference image creating unit 22 performs the difference process 2
Contour emphasis processing is performed on an image temporally close to two images to create a contour emphasis image, and a difference image created by the difference image preparation means 22 and a contour emphasis image preparation means 23. A synthesizing unit 24 for synthesizing the contour-emphasized image created by the above, and an image output unit 25 for outputting the image obtained by the synthesizing unit 24.
It has and.

The difference image creating means 22 is a difference processing means 26 for performing difference processing on two images which are temporally different.
An emphasizing means 27 for emphasizing the image after the difference processing by the difference processing means 26, and the emphasizing means 27.
Smoothing means 28 for performing a smoothing process on the image after the emphasis process by (1) to create a final difference image. The enhancement process performed by the enhancement unit 27 is a process of increasing the contrast of the image after the difference process performed by the difference processing unit 26, and is performed multiple times as necessary. The smoothing process performed by the smoothing unit 28 is performed to reduce noise, and is also performed a plurality of times as necessary.

The edge-enhanced image creating means 23 performs edge-enhancement processing on the input image and edge-enhancement processing on the image after the edge-enhancement processing by the edge-enhancement means 29 to finally perform the edge-enhancement processing. And an emphasizing means 30 for creating an edge-enhanced image. The enhancement process performed by the enhancement unit 30 is a process of increasing the contrast of the image after the contour enhancement process performed by the contour enhancement unit 29, and is performed multiple times as necessary.

The synthesizing means 24 includes the difference image created by the difference image creating means 22 and the contour emphasized image creating means 23.
The two images are combined by adding the contour-enhanced image created by.

In FIG. 2, the image input means 21 is realized by the VTR 11 and the A / D converter 12 of FIG.
The image output means 25 is the D / A converter 16 and VT of FIG.
It is realized by R17, and other means is realized by the computer 14 and the image memory 15 of FIG.
The computer 14 performs actual image processing such as difference processing while storing the image in each processing stage in the image memory 15.

Next, the operation of the image processing analysis apparatus of this embodiment will be described with reference to FIGS. FIG. 3 is a flow chart showing the operation of the image processing analysis apparatus, and FIG. 4 is an explanatory diagram showing an image at each stage of the operation shown in FIG. 3 and the density levels of part of the image.

As shown in FIG. 3, the image processing analysis device is
First, the hardware such as the image memory 15 is initialized (step S101), and then the image memory 15 is set to 256 × 256.
Pixels are set (step S102), and then the image display is set to 2
The non-interlace of 56 × 198 pixels is set (step S103).

Next, the image processing analysis apparatus uses the VTR 11 and the A / D converter 12 (image input means 21) to
The first image is input and stored in the image memory 15 (step S104). At this time, the VTR 11 freezes the image and outputs a still image. Next, the image processing analyzer passes through (discards) the input image until the second image required for the difference processing is input (step S10).
5). It should be noted that this step S105 is not necessary when performing difference processing using two consecutive images. next,
The image processing analysis device inputs the second image required for the difference processing and stores it in the image memory 15 (step S10).
6). At this time, the VTR 11 also freezes the image and outputs the still image. In FIG. 4, (a) shows the first image and (b) shows the second image.

Next, the image processing analysis device creates a difference image by the difference image creating means 22 (step S10).
7). That is, the difference processing unit 26 performs difference processing on the first image and the second image, and the emphasis unit 27 performs emphasis processing on the image after the difference processing. On the other hand, the smoothing means 28 performs a smoothing process to create a final difference image. In FIG. 4, (c) is the image after difference processing, (d)
Is the density on the line A-A 'in the image of (c), (e) is the image after the emphasis processing, and (f) is A- in the image of (e).
Density on line A ', (g) is image after smoothing process, (h)
Indicates the densities on the line AA ′ in the image (g).

Next, the image processing analysis apparatus creates an edge enhanced image by the edge enhanced image creating means 23 (step S108). That is, by the contour emphasizing means 29,
The contour enhancement processing is performed on the second image, and the enhancement processing is performed on the image after the contour enhancement processing to create a final contour enhanced image. In FIG. 4, (i) shows the image after the edge enhancement processing, (j) shows the density on the line AA ′ in the image of (i),
(K) shows the image after the emphasis process, and (l) shows the density on the line AA ′ in the image of (k). In the present embodiment, the contour enhancement processing is performed on the second image, but the image on which the contour enhancement processing is performed is an image that is temporally close to the two images on which the difference image creating unit 22 performs the difference processing. Therefore, it may be performed for the first image, or for the image between the first image and the second image.

Next, the image processing analysis device comprises the synthesizing means 24.
Then, the difference image and the edge-enhanced image are added and combined (step S109). In FIG.
(M) shows the image after composition. Next, the image processing analysis device outputs the combined image to the VTR 17 via the D / A converter 16 and records it on a video tape (step S110). In the image of the combined image, the density is represented by an absolute value.

Next, the image processing analysis device determines whether or not to end the process (step S111). If not (N), the process returns to step S104 to input the next first image and end. If yes (Y), the operation ends. In addition, for example, when creating a difference image using two images every other frame, first create a difference image using the images of the first frame and the image of the third frame, and then create the difference image of the second frame. A difference image is created using the image and the image of the fourth frame. The image of the second frame is stored in the image memory 15 while the difference image is being created using the image of the first frame and the image of the third frame.

The image processing analysis device thus repeats the processing of steps S104 to S111 to sequentially record the combined images on the video tape. Then, this image enables the analysis of the fluid flow. In the analysis, the image recorded on the video tape may be further edited frame by frame.

As described above, the image processing analysis apparatus according to the present embodiment records an image in which the difference image and the contour emphasized image are combined. An image obtained by combining the difference image and the contour emphasis image is shown in FIG.
As shown in (m) in FIG. 3, a contour 31 of fluid such as oil mist and a portion 32 showing the movement of the fluid are included.
The image clearly shows the flow of fluid. Therefore, with this image, it is possible to confirm the flow of the fluid without fail, and it is possible to confirm the fine flow of the fluid that could not be confirmed with the naked eye, and it is possible to perform a reliable and efficient analysis as compared with the case of the visual observation. . Further, it is possible to grasp the tendency of the flow of the fluid by using one still image that is a combination of the difference image and the contour-emphasized image.

The present invention can be applied not only to gas analysis but also to liquid flow analysis. Further, it can be applied not only to the inside of the gas meter but also to the analysis of the flow of fluid in various fluid passages.

[0027]

As described above, according to the fluid image processing and analyzing apparatus of the present invention, the difference image creating means uses a plurality of images obtained by continuously capturing the flow of a fluid, and the images are temporally different. The difference processing is performed on two images, a difference image is created, and the edge-enhanced image creating means performs the edge-enhancing processing on an image temporally close to the two images on which the difference image creating means performs the difference processing. Since the contour emphasized image is created and the difference image and the contour emphasized image are combined by the combining means, an image clearly showing the flow of the fluid can be obtained, and the flow of the fluid is difficult to visually observe. The effect is that analysis of can be performed.

[Brief description of drawings]

FIG. 1 is a block diagram showing a hardware configuration of an image processing analysis apparatus according to an embodiment of the present invention.

FIG. 2 is a functional block diagram showing functions of the image processing analysis device in FIG.

FIG. 3 is a flowchart showing the operation of the image processing analysis device of FIG.

FIG. 4 is an explanatory diagram showing an image and density levels of a part of the image at each stage of the operation shown in FIG.

FIG. 5 is an explanatory diagram for explaining a conventional method for observing a gas flow in a gas meter.

[Explanation of symbols]

 22 Difference Image Creating Means 23 Contour Emphasized Image Creating Means 24 Synthesizing Means 26 Difference Processing Means 27 Emphasis Means 28 Smoothing Means 29 Edge Emphasis Means 30 Emphasis Means

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display area G01N 11/02 G06T 1/00

Claims (2)

[Claims] 1. An image inputting means for inputting a plurality of images obtained by continuously photographing a flow of a fluid, and temporally different images input by the image inputting means.
A difference image creating unit that performs a difference process on two images to create a difference image; two images that are images input by the image input unit, the difference image creating unit performing a difference process and a temporal image; Contour enhancement processing for performing contour enhancement processing on an image adjacent to the contour enhancement image, and a difference image created by the difference image creation means and contour enhancement created by the contour enhancement image creation means An image processing and analyzing apparatus for fluid, comprising: a synthesizing unit for synthesizing an image. 2. The difference image creating unit creates an difference image by performing an emphasis process and a smoothing process on the image after the difference process, and the contour emphasized image creating unit creates an image after the edge emphasis process. The image processing / analyzing device for fluid according to claim 1, wherein an outline emphasis image is created by performing an emphasis process.