JPH05103336A - Color video signal processing device and color correcting method for color video signal - Google Patents

Abstract

PURPOSE:To perform the optimum color adjustment at every picture even when such a photographing condition as illumination, etc., varies by imprinting a color chip for color adjustment on each objective picture and using the color chip for the succeeding color adjustment. CONSTITUTION:Color video signals are obtained by photographing an object 7 including a color chip 9 of a color to be used as a standard by means of a photographing means 1. The color video signals obtained by means of the means 1 are converted into digital data by means of an A/D converter 2. Then the data of the color chip 9 part are extracted based on the digitized video signals and a conversion table having a such a color correcting characteristic that the data value of the chip 9 part becomes a target value is set. Then, by converting the digitized video signals by means of a computer 3 by using the conversion table, the optimum color tone can be obtained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color video signal processing apparatus and a color correction method for a color video signal, which can be used for color adjustment of an image, and more particularly to color adjustment of a person image on an ID card.

[0002]

2. Description of the Related Art When shooting with a video camera, it is necessary to perform color adjustment in advance in order to obtain a natural color tone. Conventionally, as this type of color adjustment, there is adjustment of the white balance of the video camera. The white balance is adjusted as follows.

First, a white object (white paper or the like) is projected on the full screen by a color video camera under the same conditions as in actual shooting, and R (red), G (green), and
Check the signal level of each B (blue) color. Generally R,
Of the three color signals of G and B, the video signal of R, R, and R is applied to the video camera so that the relationship with the signal levels of the other two colors is achromatic with reference to the signal level of the G color signal. Adjust the sensitivity of B. Then, after the white balance adjustment is completed, the actual shooting is performed.

[0004]

As described above, when shooting an image with a color video camera, the actual shooting is performed after the color adjustment such as the white balance adjustment described above is performed in advance. Shooting for color adjustment,
Since it is usually done separately from the shooting of the target image, the shooting conditions such as lighting vary between shooting for color adjustment and shooting of the target image,
There is a problem that correct color adjustment may not be performed.

Therefore, the object of the present invention is to
It is an object of the present invention to provide a color video signal processing device and a color correction method for a color video signal, which are capable of optimal color adjustment for a color video signal.

[0006]

In order to achieve the above object, the present invention is as follows. That is, in a color video signal processing device for performing color correction on an input color video signal, a color chart composed of standard colors and a subject including the color chart are photographed to obtain a color video signal. Means for converting the color image signal obtained by the photographing means into digital data, and extracting the data of the color chart part from the digitalized video signal, and setting the data value of the color chart part as a target value. It comprises a means for setting a conversion table having a color correction characteristic to be converted into the above, and a processing means for data-converting all the video signals converted into digital data by using the set conversion table.

Further, as a method for achieving the above object, a step of taking an image including a color chart composed of standard colors to obtain a video signal, and the color chart part from the obtained video signal The step of extracting the signal, the step of setting a conversion table having a color correction characteristic for converting the data value of this color chart part to the target value, and the signal conversion of the video signal using the set conversion table. The step of Further, a step of arranging a color chart composed of a standard color at a position in the photographing area where image information is unnecessary and photographing the subject together with the subject, and the color chart of the color-adjusted image. And the step of erasing the part.

[0008]

In the present invention, a color chart for color adjustment using standard colors is used, and a video signal obtained by copying this into a part of the target image is obtained. Then, the video signal is converted into digital data, the data of the color chart part is extracted from the data of the video signal, and a conversion table having a color correction characteristic for converting the data value of the color chart part to a target value is set. Then, color conversion adjustment processing is performed on the data of the video signal using a conversion table, and color adjustment of the entire image is performed.

As described above, the color chart portion in the image is referred at the time of color adjustment, and the color conversion adjustment processing is performed by using the conversion table in which the color of the color chart portion is the target color. Adjust the overall color. Since the color conversion adjustment processing can be performed according to the output device such as printing or monitor display, the color image obtained from each output device becomes a color image having an appropriate hue.

Further, a video including a color chart using a standard color is photographed, a signal of a color chart area is extracted from a video signal obtained thereby, and a signal value of this color chart part is a target value. A conversion table having a conversion characteristic is set, and the image signal is converted using the conversion table to perform color correction. After color correction processing, the color chart portion is erased. As described above, after the color conversion adjustment process is completed, the color chart portion is erased from the image, so that an unnecessary portion can be deleted from the image output from the output device. In addition, by erasing the color chart on a portion such as a background portion where image information is unnecessary, the erasing process can be facilitated.

Therefore, according to the present invention, since the color chart and the target image are photographed under the same conditions, the adverse effect on the color adjustment due to the variation of the photographing conditions is eliminated, and the color table is converted into the desired hue. By performing the adjustment process for each color, a color image having an appropriate hue can be obtained.

[0012]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. Here, an embodiment in which the present invention is applied to an ID card issuing system will be described.

FIG. 1 is a diagram showing an outline of an ID card issuing system. In the figure, 1 is a color video camera,
Reference numeral 2 is an A / D converter which receives a video signal containing the color signal components of three colors of R, G, B output from the video camera 1 and converts it into a digital signal. 3 is a computer, 4 is a frame memory, 5 is a monitor, 6 is a printer,
Reference numeral 7 is a subject, 8 is a back screen, and 9 is a color chart.

The frame memory 4 is a memory for storing image data in frame units, stores a digital signal (image data of a video signal) from the A / D converter 2, and has been processed by the computer 3. It stores image data.

The computer 3 has a frame memory 4
This data is subjected to necessary correction processing based on the data obtained through, and in the case of an ID card, I
In addition to addition of data required as a D card, deletion of unnecessary information, editing processing such as layout, display control for the monitor 5 and print control for the printer 6 can be performed.

The computer 3 has a look-up table which is a reference table in which a correction value for converting an actually obtained color signal value into a target color signal value is determined for each color signal. By converting the data in the up table, the necessary correction for each color component can be performed on the video signal data. The monitor 5 displays the video signal data of the frame unit stored in the frame memory 4 as an image, and the printer 6 displays the color correction processed image or the edited image of the frame unit stored in the frame memory 4. The data is printed on a recording sheet or the like and output.

The operation of the present system having such a configuration will be described. The video signal output of the video camera 1 is digitized via the A / D converter 2 and then input to the frame memory 4 and stored therein. The video signal data (image data) stored in the frame memory 4 is read and displayed on the screen of the monitor 5, so that it can be visually confirmed.

Further, the image data stored in the frame memory 4 is read by the computer 3, where the color adjustment according to the present invention, the editing into the ID card format, and the like are performed, and the frame memory 4 is read again. Written in
It is printed out by the full-color printer 6 connected to the frame memory 4 and made into a hard copy. The image of the printed out ID card format is
Processing such as laminating is performed to form an ID card. Next, a method of performing color adjustment according to the present invention using this system will be described.

On a part of the back screen 8 which is the background, a color chart 9 which is referred to when the color of the photographed image is adjusted is arranged, and together with the subject 7 (a person in the case of an ID card), the video camera 1 To be photographed. The color chart 9 may be a single color or a plurality of colors depending on the purpose of color adjustment.

FIG. 2 is an example of a color chart. Since the color chart 9 is used for adjusting the highlight portion and the shadow portion of the image, it includes a black display area 9a, a white display area 9b, and a flesh color display area 9c in which color reproduction is important when photographing a person.

The photographed image is as shown in FIG. As shown in the figure, the color chart 9 is imprinted on a background portion (back screen) having a relatively uniform color, and at a position that does not cover the person (subject 7). Shooting is performed by the video camera 1, and the output video signal is the A / D converter 2
Is A / D converted by and stored in the frame memory 4.

The image data of the subject stored in the frame memory 4 is read out and displayed on the screen of the monitor 5. Further, the image data in the frame memory 4 is subjected to the following color adjustment processing by the computer 3.

The computer 3 first reads out the color signals of the color chart 9 portion. Since the color chart 9 is placed on a portion of the image where the density change is relatively small at a substantially constant position, the color chart 9 can be automatically detected by the computer 3 relatively easily (for example, detected by edge extraction). Even when a plurality of colors are included in the color chart 9, if the arrangement of each color is predetermined, the color signal of each color can be automatically read.

For example, in the case of the color chart 9 as shown in FIG. 2, first, the contour is detected and the range in the X and Y axis directions is obtained.
It suffices to obtain coordinates when the range is divided into four, and read data from the vicinity of the center of each color display area 9a, 9b, 9c as shown in FIG. Next, the color of the entire image is adjusted based on the color signal data read from the color chart portion. An example of the color adjusting method will be described below.

The color can be represented by the intensity of the signal value of the three colors of red (R), green (G) and blue (B). Here, red,
The colors when the signal intensities of green and blue are R, G, and B respectively are represented as (R, G, B).

The color conversion is performed by converting the color signal of the image for each color of R, G and B with a look-up table (hereinafter referred to as LUT). The LUT is a reference table in which a correction value for converting an actually obtained color signal value into a target color signal value is defined for each color signal, and is held by the computer 3. "When adjusting color centering on skin color:"

First, the color signal value extracted from the skin color display area 9c of the color chart 9 and the color signal value of the target skin color obtained experimentally or empirically are prepared. The latter is a color signal value obtained experimentally or empirically so that each color of the color chart 9 is printed in an ideal color. Generally, the color signal value of the skin color extracted from the color chart 9 is different for each image. This is because the conditions such as lighting at the time of shooting are slightly different for each image.

The LUT is set with a characteristic of converting the color signal value extracted from the flesh color display area 9c of the color chart 9 into the target flesh color signal value. For example, image A
The color signal value of the skin color sampled from the color chart part of is (r1, g1, b1), and the one from image B is (r2, g2, b2)

If so, the computer 3 selects the optimum LUT for each image based on this color signal value and the color signal value of the target flesh color when performing the color correction processing. Then, the LUT for the image A is optimally one having the characteristics as shown in FIG.
If T has the optimum characteristics as shown in FIG. 6, the optimum LUT is used for data conversion. Here, R0, G0, and B0 are color signal values of R, G, and B colors required to obtain a target skin color,
As a result of using the LUT having the characteristics required to obtain such color signal values, the inputs r1, g1, b1 or the input r
It is possible to perform conversion such that the converted output becomes R0, G0, and B0 for 2, g2, and b2. In this way, the LUT capable of giving the optimum conversion characteristic for each image is set, and the optimum LUT is selected and used. These LUTs
The color adjustment is completed by converting the color signals of all pixels on the image with respect to the input values for each color of R, G, and B by using.

The target color signal value of the skin color also differs depending on the purpose of using the image. For example, an appropriate color signal value is different between when an image is viewed on a monitor screen such as a cathode ray tube and when a hard copy is viewed by a printer. Then, when viewed on the screen of the monitor 5, the proper color signal value of the skin color is (R1, G1, B1), and when the hard copy is performed, the proper color signal value of the skin color is (R2, G2, B2).

Then, the optimum LUT for display on the screen of the monitor 5 is the input color signal value r as shown in FIG.
The converted color signal values are R1, G for 0, g0, b0.
As shown in FIG. 8, the optimum LUT for hard copy has a characteristic that the converted color signal value is R for the input color signal values r0, g0, b0.
2, G2, B2.

Here, r0, g0, and b0 are color signal values obtained from the color chart part of the photographed image, and the colors sampled from the color chart part of the photographed image including the color chart 9 added in the method of the present invention. It is a signal value. Thus, LUTs having different characteristics are required for the same image depending on the purpose. “When adjusting colors by referring to multiple colors:”

Color adjustment with reference to a plurality of colors in the color chart 9 is performed as follows. For example, assume that the color chart 9 has three colors, black, flesh color, and white. The color signal value sampled from the black display area in the color chart 9 on the image is (r1, g1, b1), and similarly, the color signal value sampled from the skin color display area is (r2, g2, b2). Similarly, the color signal value sampled from the white display area is (r3, g3, b3), and the target black color signal is (R1, G1, B1). The target skin color signal value. Is (R2, G2, B2) The target white color signal value is (R3, G3, B3)

, The optimum LUT for display on the screen of the monitor 5 is the value r of the black input color signal as shown in FIG.
1, g1, b1 have converted color signal values R1, G
1, B1, and the input color signal values r2, g corresponding to the skin color
2 and b2 have converted color signal values R2, G2, B
2 and the values r3, g3, b3 of the input color signal corresponding to white
On the other hand, it suffices to create and use those having characteristics such that the converted color signal values become R3, G3 and B3.

In this way, the optimum LUT is created by referring to the data of each display color of the color chart 9 and the created L is created.
The color adjustment is completed by converting the color signals of all the pixels on the image for each color of R, G, B using the UT.

Once the color adjustment is complete, the color chart portion in the image is no longer needed. Since the color chart 9 is in the background portion (back screen 8) having a relatively uniform color, it can be easily erased. That is, the area of the color chart 9 may be obtained by contour extraction or the like, and this area may be filled with the background color sampled from the nearby background portion.

If the color difference from the surroundings is noticeable when the area is filled with a single color, the color of the background portion surrounding the color chart 9 is maintained and the area with the color chart 9 is interpolated with the color of those background portions. It should be filled with. Such processing is performed by the computer 3. After that, the image is edited and combined with the name data and the like by the computer 3, printed by being output to the printer 6 through the frame memory 4, and processed into an ID card.

Processing such as color adjustment and erasure of the color chart portion is performed on the copy of the image data (video signal data), and the original image (original image data) is not shown with the color chart portion included. Be sure to save it on a storage medium. By doing so, when it is desired to use this original image for another purpose, it can be used after performing color adjustment suitable for the purpose.

As described above, the present system, in the color image signal processing device for performing color correction on the input color image signal, captures the subject including the color chips composed of standard colors and the color chips. A color image signal obtained by the image capturing means, and means for converting the color image signal obtained by the image capturing means into digital data. A means for setting a conversion table having a color correction characteristic for converting the data value of the vote portion to a target value, and a processing means for data-converting all the digital video signals described above using the set conversion table. It is equipped and configured.

Then, the subject is photographed by the photographing means including the color chart of the standard color to obtain a color image signal, which is given to the digital data forming means to be digitally converted, and then the conversion table setting means. When given, the conversion table setting means extracts the data of the color chart part from the video signal converted into digital data, and sets a conversion table having a color correction characteristic for converting the data value of the color chart part to a target value. .. Then, the processing means performs the color correction by outputting the digital-converted video signal by data conversion using this conversion table and outputs it.

Therefore, even if the condition when the white balance of the photographing means is adjusted is different from the condition when the actual photographing is performed, the color adjustment refers to the color chart for color adjustment in each target image. Since the data conversion for color adjustment is performed using the optimum conversion table set as above, it is possible to obtain an image or image with proper color adjustment. Therefore,
Even if the shooting conditions such as illumination change, it is possible to obtain an image with an optimum color tone that has been subjected to an optimum correction process. The present invention is not limited to the embodiments described above and shown in the drawings, but can be appropriately modified and implemented within the scope of the invention.

[0042]

As described above in detail, according to the present invention, since the color chart for color adjustment is copied in each target image and used for the subsequent color correction, the photographing conditions such as illumination vary. Even if the optimum color adjustment is possible for each image, a color image signal processing apparatus and a color image signal correction method capable of obtaining a color image subjected to optimum color correction according to an output target and the like are provided. Can be provided.

[Brief description of drawings]

FIG. 1 is a system configuration diagram showing an embodiment of the present invention.

FIG. 2 is a diagram showing a configuration example of a color chart used in the system of the present invention.

FIG. 3 is a diagram showing an example of an image used in the present invention.

FIG. 4 is a diagram showing a configuration example of a color chart used in the system of the present invention.

FIG. 5 is a diagram showing an example of a look-up table used in the present invention.

FIG. 6 is a diagram showing an example of a look-up table used in the present invention.

FIG. 7 is a diagram showing an example of a look-up table used in the present invention.

FIG. 8 is a diagram showing an example of a look-up table used in the present invention.

FIG. 9 is a diagram showing an example of a look-up table used in the present invention.

[Explanation of symbols]

1 ... Video camera, 2 ... A / D converter, 3 ... Computer, 4 ... Frame memory, 5 ... Monitor, 6 ... Printer, 7 ... Subject, 8 ... Back screen, 9 ... Color chart.

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[Procedure amendment]

[Submission date] November 29, 1991

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0028

[Correction method] Change

[Correction content]

The LUT is set with a characteristic that the color signal value extracted from the skin color display area 9c of the color chart 9 is converted into the color signal value of the target skin color. For example, the color signal value of the skin color sampled from the color chart portion of the image A is (r1, g1, b1), and the one from the image B is (r2, g2, b2).

[Procedure Amendment 2]

[Document name to be amended] Statement

[Name of item to be corrected] 0029

[Correction method] Change

[Correction content]

If so, in performing the color correction processing, the computer 3 determines an optimum LUT for each image based on this color signal value and the color signal value of the target skin color.
Set . Then, LUT for image A, for example, those characteristics such as 5, when the LUT is also that there because of such characteristic of Figure 6 for the image B, and, the LU
The data will be transformed using T. here,
R0, G0, and B0 are R, which is necessary to obtain the target skin color,
It is a color signal value of each color of G and B, and as a result of using an LUT having characteristics required to obtain such a color signal value, the input r
1, g1, b1 or inputs r2, g2, b2 can be converted such that the converted output becomes R0, G0, B0. In this way, the LUT that can give the optimum conversion characteristic is set for each image. The color adjustment is completed by using these LUTs to convert the color signals of all pixels on the image with respect to the input values for each of R, G, and B colors.

[Procedure 3]

[Document name to be corrected] Drawing

[Correction target item name] Figure 8

[Correction method] Change

[Correction content]

[Figure 8]

Claims (3)

[Claims] 1. A color image signal processing apparatus for performing color correction on an input color image signal, wherein a color chart composed of standard colors and a subject including the color chart are photographed to obtain a color image signal. And a means for converting the color image signal obtained by the image capturing means into digital data, extracting the data of the color chart portion from the digitalized video signal, and obtaining the data value of the color chart portion. And a processing means for setting the conversion table having a color correction characteristic for converting to the target value, and a processing means for data-converting all the video signals converted into digital data by using the set conversion table. A color video signal processing device characterized by the above. 2. A step of capturing an image including a color chart composed of standard colors to obtain a video signal, a step of extracting a signal of the color chart part from the obtained video signal, A step of setting a conversion table having a color correction characteristic for converting the data value of the vote portion into a target value, and a step of converting the video signal using the set conversion table. Color correction method for color video signals. 3. A step of arranging a color chart composed of standard colors at a position in the photographing area where image information is not required and photographing with a subject, and the color chart of the image subjected to color adjustment processing. And a step of erasing a part of the color image signal.