JPH0810918B2 - Image display output device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for outputting a display image to an output medium, and in particular, a public image output for facilitating output creation requiring complicated work. Related to the device.

[Background of the Invention]

Image adjustment and its output will be described. Figure 2 shows
1 illustrates an overall configuration of an image analysis output method according to a conventional method. The solid line indicates the data flow, and the dotted line indicates the command flow. Hereinafter, an example in which image data is satellite observation image data, an output medium is a film, and an image output device is a film printing machine will be described. (Image data is the same for other general images, and the output medium is The same applies to hard copies). Image data is recorded in advance on the magnetic tape 10.
The first data is stored in the image data file 103 via the image data input device 102.

The operator operates the image analysis computer 105 from the console 104.
Then, the image analysis command 106 and the image display command 107 are analyzed and output while interactively exchanging the image output command with the image output computer 108. FIG. 3 shows a flow of image analysis output processing by the conventional method. The command and the contents of its processing will be described. First, the operator uses an image display command to instruct the image analysis computer to cut out an image of the target satellite observation area. In the image display processing, the image analysis computer cuts out the image data from the image data file and displays it on the image display device (step A).

Next, the operator uses the image analysis command to instruct the image analysis computer to perform analysis work in order to extract the target information while looking at the display result. The image analysis computer performs image analysis processing, for example, inter-image calculation, which is a general image analysis, and extracts target information. This result again,
The image is displayed on the image display device, and the operator repeats the image analysis work until the target information is extracted. The result of this analysis is stored in the image data file (steps B, C).

Next, the operator gives an image output command to the image output computer to output the image to the film so that the image of the analysis result is the same as the image displayed on the image display device and can be clearly seen. In the image output processing, the image output computer outputs the image of the analysis result from the image data file to the film which is the output medium by the image output device (film printing machine). At this time, generally, the output medium has a sensitivity characteristic, and if the film is taken as an example, it is easily exposed to a certain image data level, and is difficult to be exposed to a certain image data level. Therefore, when the operator gives an image output command, the operator considers this sensitivity characteristic and outputs the image output command to the image output device. The data of the sensitivity characteristic correction conversion table are designated at the same time (step D).

The operator views the film of the output result and checks whether the target information is the same as the displayed image and is clearly printed on the film. The data in the sensitivity characteristic correction conversion table is changed so that an image that looks the same as the display image on the image display device can be printed on the film, and the data is repeatedly output to the film until it becomes the same as the display image (steps E and F).

However, this sensitivity characteristic correction conversion table changes depending on the sensitivity characteristic of the film of the output medium, for example, color, black and white, negative film, positive film, and film manufacturer, and especially red, blue, and green for color. Different for each of the three primary colors. Moreover, since the level of the image data varies depending on the content of the target analysis information, the sensitivity characteristic correction conversion table must be changed to output the image as clearly as the display image of the image display device. The change of these sensitivity characteristic correction conversion tables must be done by the experience of the operator and the repetition of the trial output of the film, which is a very time-consuming operation.

This will be described in more detail with reference to the relationship between the display image and the film image according to the conventional method shown in FIGS.

When a person visually recognizes the image on the display device, he or she looks at the original image through the function h · c h: adjustment characteristic correction conversion function c: display device sensitivity characteristic function (fixed by the characteristic of the display device). become.

On the other hand, the image on the film is conventionally viewed through the function g.c..gamma.g: sensitivity characteristic correction conversion function .gamma.: Sensitivity characteristic of film A with respect to the same original image. That is, in the conventional device, in order to make the image on the display device the same as the image on the film, it is necessary to adjust the function g · c as shown in the graph. It is the function g that is adjustable, and c is display device specific and is fixed and therefore affects the offset. However, as described above, the function h arbitrarily changes with respect to the target image, and the function g · c also changes depending on the output film format, so that the operator can set the function g · c very much. There is a problem of suffering. (Note that there are related known examples such as JP-A-57-178285).

[Object of the Invention]

An object of the present invention is to make the above-described image adjustment result the same as the image on the display device at the time of output to the output medium, so that the sensitivity characteristic correction conversion table is complicated and requires a very time-consuming change. It is to provide a new solved image display output device.

[Outline of Invention]

The present invention provides an image display device capable of image quality adjustment by image quality adjustment input, means for storing original image data (A) to be displayed on the image display device, and hard copy output based on the original image data. An image display output device having an image output device for performing the first conversion of the stored original image data (A) by an adjustment characteristic correction conversion function (h) used for image quality adjustment of the image display device. Image conversion means, normalized image storage means for storing the image data (B) converted by the first image conversion means, output sensitivity characteristic correction conversion function (γ- ¹ ) and display device sensitivity characteristic function ( c) means for storing a plurality of functions (γ- ¹ c) multiplied by each other, means for receiving an input for selecting one of the plurality of functions (γ- ¹ c), A standardized image storage means A second image conversion means for converting the stored image data (B) by a function (γ- ¹ c) obtained by multiplying the selected output sensitivity characteristic correction conversion function and the display device sensitivity characteristic function. The image output device inputs the image data converted by the second image conversion means and outputs a hard copy.

Example of Invention

An embodiment of the present invention will be described below. FIG. 5 (A),
(B) shows the relationship between the display image and the film image.

The display image is viewed by the function h · c with respect to the original image. Here, the original image is fed back with the function h and stored as a normalized image in the image data file.

The film image is to be viewed as a function γ ⁻¹ · c · γ γ ⁻¹ : output sensitivity characteristic correction conversion function of the film A with respect to the normalized image. As is apparent from the graph, the input image data of the image output device is fed back by the function h, so that the function γ ⁻¹ · c is not affected even if the function h changes. If the function γ ^-1 · c is prepared in advance for the case of film format, just by selecting γ ^-1 corresponding to the film format, the same film image as the display screen is always output when the film is output. It will be possible to output without adjustment on the computer side.

Next, FIG. 1 shows an overall configuration of an image display / output device capable of easily outputting the image of the above adjustment result.
FIG. 7 shows the flow of image analysis output processing using this, and FIG. 7 shows an example of image analysis output processing.

The image display apparatus shown in FIG. 1 is composed of an adjustment characteristic correction conversion table and a feed back device which converts the original image itself using this table and outputs a normalized image. or,
The image output computer has an output sensitivity characteristic correction conversion table.

The processing flow of FIG. 6 and the processing example of FIG. 7 will be described. An example of processing is a case where the identification name and identification number of an object written on the object on the carrier are used as the original image. The original image is already stored in the image data film as black and white image data by the camera.

Further, as an output result, an example for the purpose of outputting only the identification number written on the object to the film will be described.

In FIG. 1, the operator transfers the original image from the console to the image memory of the image display device in the image display storage process. At this time, since the standard value is set in the adjustment characteristic correction conversion table, the original image is displayed on the screen of the display device. When the image data of FIG. 7 is displayed,
The image memory of the image display device has an object identification name AB of gray level 50 and an object identification number 12 of gray level 100. Standard values are set in the adjustment characteristic correction conversion table,
The original image in the image memory is the adjustment characteristic correction degree function: h,
It is displayed on the screen of the display device through the display device sensitivity characteristic function: c of the display device (FIG. 6, step 10).

In Fig. 1, the operator must obtain the desired information.
While performing image analysis processing and displaying the image of the analysis result,
This process is repeated (steps 20 and 30 in FIG. 6).

When the target information is extracted, the operator in FIG.
Next, the contents of the adjustment characteristic correction conversion table are changed so that the target information is displayed clearly. This method, for example,
There is a method in which the position of the cursor on the display screen is moved by a track ball and the adjustment characteristic correction conversion function is set from the coordinate position of the cursor. Now, assuming that the coordinate position of the cursor is (x ₁ , y ₁ ), the adjustment characteristic correction conversion function: h is, for example, And you can change the contents of the table. The operator can easily change the contents of the adjustment characteristic correction conversion table interactively by moving the track ball and moving the cursor while looking at the display image on the image display device. When the target information is clearly displayed, the content of the adjustment characteristic correction conversion table is set to maximize the resolution of the target image data level.

After changing the adjustment characteristic correction conversion table of FIG.
This is the information for the purpose. In order to clearly display the object identification number of the light and shade level 100 and not to display the object identification name of the light and shade level 50 which is unnecessary information, the adjustment characteristic correction conversion function: h
At the original image level 100, set so that it changes sharply. If this h is passed, the object identification name of the gray level 50 is 0 as the image display device output level, the object identification number of the gray level 100 is 200, and only the object identification number is displayed on the screen of the display device. Clearly displayed (Fig. 6 Steps 40, 5
0).

The operator in FIG. 1 turns on the input switch of the feed back device from the console in order to output a film having the same color tone as the displayed image. The original image in the image memory is converted by the adjustment characteristic correction conversion table set by this, and the image memory is rewritten to the normalized image by the feed back device.

When storing the feedback and normalized images shown in Fig. 7, the original image data in the image memory is passed through the adjustment characteristic correction conversion function: h, and the image is fed back to the image memory by the feedback back device. Only the number is rewritten as light and shade level 200 (Fig. 6, step 60).

The operator of FIG. 1 transfers the normalized image in the image memory of the image display device to the image data file by the image display storing process from the console.

At the time of storing the feedback image and the normalized image in FIG. 7, the normalized image in the image memory is stored in the image data file (FIG. 6, step 70).

The operator of FIG. 1 selects a table corresponding to the format of the output film from the console from the output sensitivity characteristic correction conversion table registered in advance (step 100 of FIG. 6).

In the image output processing of FIG. 1, the normalized image in the image data file is output to the film by using the output sensitivity characteristic correction conversion table corresponding to the film characteristic selected by the operator.

At the time of film output in FIG. 7, the image normalized by the adjustment characteristic correction conversion function: h is output to the film through the output sensitivity characteristic correction function: γ ^-1 · c, the sensitivity characteristic of the film A: γ. It At this time, the image data on the film is equal to a function of ^{h · γ -1 · c · γ} = h · c and passing Tsutano, the display screen on the same tone of the image of the image display device can be outputted to the film become.

Here, the adjustment characteristic correction conversion function: h is a function that arbitrarily changes depending on the purpose. For example, in the example of FIG. 7, the purpose is to output only the object identification name clearly. On the other hand, the film sensitivity characteristic: γ, its inverse function, the output sensitivity characteristic correction function: γ ^-1 , and the display device sensitivity characteristic function: c are constant functions (FIG. 6, step 200).

As described above, it is possible to easily output to the film in the same color tone as the display image.

〔The invention's effect〕

According to the present invention, it is possible to output the same output medium image as the display image by simple adjustment, and there is an effect of improving efficiency.

[Brief description of drawings]

FIG. 2 shows the overall configuration of the conventional image analysis output method. FIG. 3 shows the flow of image analysis and output processing according to the conventional method. 4 (A) and (B)
It shows a relationship between a display image and a film image according to a conventional method. FIGS. 5A and 5B show the relationship between the display image and the film image when the present image output method is used. FIG. 1 is an overall configuration of an image display output device showing an embodiment of the present invention. FIG. 6 shows the flow of image analysis output processing using this method. FIGS. 7A and 7B show an example of image analysis output processing using this method. 106 …… Image analysis command, 107 …… Image display command.

Claims (1)

[Claims] 1. An image display device capable of image quality adjustment by image quality adjustment input, means for storing original image data (A) to be displayed on the image display device, and a hard copy based on the original image data. An image display output device having an image output device for outputting, wherein the stored original image data (A) is converted by an adjustment characteristic correction conversion function (h) used for image quality adjustment of the image display device. No. 1 image conversion unit, a normalized image storage unit for storing the image data (B) converted by the first image conversion unit, an output sensitivity characteristic correction conversion function (γ- ¹ ) and a display device sensitivity characteristic function. Means for storing a plurality of functions (γ- ¹ c) multiplied by (c), means for receiving an input for selecting one of the plurality of functions (γ- ¹ c), The normalized image storage hand Stored in the image data (B)
And a second image conversion unit for converting the selected output sensitivity characteristic correction conversion function and a display device sensitivity characteristic function by a function (γ- ¹ c). An image display output device, which inputs image data converted by a second image conversion means and outputs a hard copy.