JP3126046B2 - Color adjustment method and color adjustment device for color image - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for adjusting the color of a color image. More particularly, the present invention relates to a color image color adjustment method for extracting an arbitrary color contained in a color image and correcting the color image to a predetermined color, and a color image color adjustment device used for the method.

[0002] In recent years, in the field of automobile and clothing design, it has become possible to easily adjust the color imaged by a designer using a color monitor. In order for a designer to determine colors in a design system using a color monitor, image data is processed using a computer. In addition, when creating computer graphics, it is necessary to adjust colors also when assigning colors to each part of an image on a monitor or changing the color once determined. In such a case, the computer assigns a specific color to each part of the shape of the product etc. created on the monitor or executes data processing to adjust the color of the screen read from a reading device such as an image scanner I do.

[0003] Therefore, there is a need for a color adjustment method for a color image in which color extraction can be performed with high accuracy or the color can be easily corrected even partially. Here, in particular, a target is set in which the color image whose color has been corrected is adjusted to a target color without losing the original naturalness of the product, and at the same time, the interface between the computer and the human being is enhanced.

[0004]

2. Description of the Related Art In the conventional color adjustment and correction, there has been a method of simultaneously displaying a color palette on a display and selecting a color desired by an operator from the same screen as the image display. FIG. 7 shows a color palette divided into a plurality of vertical and horizontal sections. Different colors are arranged in each area 31, 32, etc. of the color pallet 30. This method has the advantage that the corrected color can be selected visually, but the number of selectable colors is limited by the section of the palette. As a result, the three-dimensional effect and fine color change of the object included in the first image are lost, and a natural feeling is lost from the image.

As another color adjustment method, there is a method of inputting a color desired by an operator as color data. FIG. 8 shows a color data adjustment screen displayed on the display.
In general, hue, saturation, and lightness exist as attributes of colors perceived by humans. Therefore, if the hue (H), saturation (S), and lightness (V) of the color data are selected as the three-dimensional orthogonal coordinate values of the color data in the color space, the color image stored in the RGB data is selected. The image data is displayed as parameters. Therefore, by using an image in which knobs for H, S, and V adjustment are simulated as shown in FIG. 8 and adding and subtracting these three parameter values with respect to the image data before correction, the color of the color image can be improved. Can be adjusted.

[0006] In the latter color adjustment method, the selection of colors is diversified by selecting three parameter values. Compared with the former method, the product is adjusted to a target color without losing the naturalness of the product. Above is very convenient.

[0007]

However, even in the latter method of adjusting the amount of adjustment to the original image data, the adjustment is performed when the same color area is selected as the adjustment target area and the color is corrected. If the brightness and saturation of the power parameter values are changed uniformly, the glossy part of the object before correction and the part that should be a whitish area in the image will be colored or shadowed. There has been a problem that a portion that should be a dark region is colored, which changes the feeling of the object or lowers the contrast.

Further, there is a problem that a pseudo contour occurs when there is a region of the same color system in the background of the adjustment target region.
In other words, the color changes continuously at the boundary with the background and the image is unclear, but an unnatural outline is added as a result of the color correction. As described above, since the adjustment amount is uniformly adjusted in the image data,
The problem remains that the adjusted image cannot retain the natural feeling similar to the original image.

SUMMARY OF THE INVENTION The present invention has been made in view of such a point, and an adjustment amount is corrected in accordance with a coordinate value in a color space of image data to be adjusted. It is an object of the present invention to provide a color adjustment method for a color image that preserves the image quality.

Another object of the present invention is to enhance the interface between a computer and a human when adjusting a color corrected color image to a target color without losing the naturalness of the color image. It is to provide an adjusting device.

[0011]

FIG. 1 is a flowchart illustrating the principle of the present invention for achieving the above object.
As shown in FIG. 1, in the color adjustment method for a color image of the present invention, each pixel of the color image is determined by a representative point specifying step S1, a target color specifying step S2, a correction amount calculation step S3, and a correction amount correction step S4. The color data (hereinafter referred to as RGB data) is adjusted according to the correction amount designated for each.

In a representative point specifying step S1, a representative point of a color image is specified. Next, target color designation step S2
Then, a target color as an adjustment target for the color of the representative point is designated. In a correction amount calculation step S3, a correction amount required to change the color of the representative point to the target color is calculated,
Finally, a correction amount correction for determining the correction amount for each pixel by correcting the correction amount at the representative point obtained in step S3 according to the position of the image data of each pixel of the color image in the color space. Step S4 is executed.

The color image color adjusting apparatus of the present invention shown in FIG. 6 executes the above-described color image color adjusting method. The color image color adjustment apparatus includes an RGB data storage unit 11 that stores a color image as RGB data of each pixel, and a representative that inputs a representative color by designating a representative point in a color adjustment target area from the color image. Point designating means 13; image data storage means 16 for storing image data of a color adjustment target area including the representative point designated by the representative point designating means 13; and a representative color inputted by the representative point designating means 13. Target color input means 17 for inputting image data of a target color serving as an adjustment target for correction, and correction amount calculating means 19 for calculating a correction amount in the color space between the image data of the representative point and the image data of the target color. A coefficient determining means 20 for determining a coefficient corresponding to a coordinate value of each image data in the image data storage means 16; and a correction amount calculated by the correction amount calculating means 19 based on the coefficient. Wherein the correction and color correction calculating means 21 to correct the image data stored in said image data storage means 16, the image data corrected by the color-correction unit 21 RGB data storage section 1
And a display unit 1 for displaying a color image obtained by correcting the color of the adjustment target area from the color image stored in the storage unit 1.

[0014]

According to the method of the present invention, the correction amount is corrected by the coordinate value in the color space of the image data adjusted for the designated target color. As a result, the correction amount for the glossy portion and the shadow portion included in the color image is corrected, the feeling of the image can be preserved, and a decrease in contrast can be prevented.

In the case of performing adjustment for extracting a target area for color adjustment and changing the target color to a designated target color, the correction amount in the target area is weighted by a coefficient corresponding to the coordinate value of each image data. Therefore, color adjustment can be performed so that a pseudo contour does not occur at a boundary portion with the background color.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the method of the present invention will be described below with reference to the drawings. FIG. 2 shows a color monitor 1 for displaying a target image.
The screen 2 displays a single flower as an example of a color image. The target image is read from, for example, an original image by an image scanner, and is color-adjusted on the color monitor 1 by the procedure described below. At the upper left of the screen 2, a palette indicating the target color similar to the color palette of FIG. 7 is displayed.

[Extraction of Adjustment Target Area] The operator specifies one point of the image displayed on the screen 2 of the color monitor 1 with a mouse or the like, and specifies a representative point. For example, by pointing a single petal with a cursor displayed on the screen 2, the image data of the petal portion is set as a color adjustment target area. In extracting the target area, first, a representative color is obtained based on the image data of the representative point, a three-dimensional solid in a color space including the representative color is specified, and the image data included therein is shared. Extracted as a region. In this case, the region may be designated in a color space based on the RGB values of the image data. In this case, however, the image data is converted into color data expressed in a color space based on hue (H), saturation (S), and lightness (V). And extract.

[Designation of Target Color] A target color for color adjustment can be designated by pointing one color of a color palette on the screen 2 with a cursor. The specification of this target color is
Numerical data such as RGB values may be input by an operator via a key, or furthermore, it is possible to specify the color data using words that specify colors such as red and blue.

[Color Adjustment] First, the correction amount Δ of the image data required to change the image data of the representative point to the image data of the target color is obtained.

FIG. 3 shows hue (H), saturation (S), and lightness.
It is a figure which shows the color space coordinate by (V). Here is the image
In order to obtain the correction amount Δ of the data,
The target color image data into HSV color data.
Then, the correction amount of each coordinate value of hue, saturation, and lightness is determined.
In FIG. 3, the image data D of the pixel corresponding to the representative point is shown.₀(H
₀, S₀, V₀) And target color image data D₁(H₁,
s₁, V₁) Indicates the position in the color space. Follow
Therefore, the correction amount Δ is two images in this color space (HSV).
Image data D₀, D₁Corresponds to the difference between the coordinate values. Also,
Image data of a petal portion which is an adjustment target area shown in FIG.
Is the image data D in the color space of FIG.₀Predetermined distance including
Image data D that exists in a closed area₀To
Here, it is shown as image data {hx, sx, vx}.
I have.

FIG. 4 shows a correction curve for correction based on the saturation value of the image data. The horizontal axis represents the saturation S, and the vertical axis represents the correction coefficient f ₁ (S) determined according to the saturation. ).
Further, the correction coefficient value f ₂ (V) can be determined from the lightness V by setting the lightness value correction curve in the same manner.

Next, each of the extracted image data {hx, s
In correcting x, vx｝ based on the correction amount Δ, coefficients f ₁ (sx) and f ₂ (vx) determined by the coordinate values sx, vx of the saturation S and the lightness V are obtained, and the correction amount Δ Is corrected. The coefficients for determining the correction amount can be determined by setting the correction curves shown in FIG. That is, each of the extracted image data {hx, sx, vx} of the adjustment target area is a new image centered on the target color image data D ₁ (h ₁ , s ₁ , v ₁ ) according to the following conversion formula. It is converted into data {hy, sy, vy}.

Hy = hx + (h ₁ −h ₀ ) sy = sx + f ₁ (sx) · (s ₁ −s ₀ ) vy = vx + f ₂ (vx) · (v ₁ −v ₀ ) Both the saturation and the lightness are determined based on a correction curve that is maximized at the median of the coordinate values of the color space. In this case, the correction amount Δ is calculated by using the coordinate values sx and vx of the saturation S and the lightness V. Corrected linearly in shape. However, the correction coefficient values g ₁ (sx) and g ₂ (vx) can also be determined based on the Gaussian distribution curve shown in FIG. Although the function of the correction curve has the same function for both saturation and brightness, the saturation may be a straight line, and the brightness may be a curve (or vice versa).

The correction amount at the representative point is as follows.
(S₁−s₀) And lightness (v₁-V₀)
For example, the representative point can be adjusted to the target color by the above conversion formula.
Therefore, according to the correction curve shown in FIG. 4 or FIG.
When determining the shape of a number, the saturation value s at the representative point₀And light
Degree value v₀Correction coefficient value f at₁(S₀), F
_Two(V ₀) Is set to 1 for each,
-Saturation value sx and lightness value occupied in the color space of each pixel of the image
The correction amount Δ is corrected according to the coordinate value of vx, and the correction amount Δ
Then, the color adjustment for each pixel is performed.

By performing such color adjustment, even if the color of the color image is corrected according to the target color, the relationship between the whitish area and the blackish area in the image is preserved, and the glossy portion and the shadow portion of the object are preserved. Does not decrease and the feeling of the object does not change. Also, like the conversion above,
For example, by correcting only the brightness without correcting both the brightness correction amounts, the black and white relationship of the color image can be preserved.

A color adjustment of a color image in which a specific image area is extracted from a color image to be an adjustment target area and only the RGB data of the target area is adjusted according to a correction amount designated for each pixel is also performed. No pseudo contour is generated at the boundary portion with the background area where the image processing is not performed.

FIG. 6 is a block diagram showing an example of the configuration of the color adjusting device of the present invention. The image input device 10 converts the original image into R
It captures input image data such as a GB signal on a pixel-by-pixel basis, and uses, for example, an image scanner. RG
The B data storage unit 11 stores the input color image as RGB data of each pixel. This image data is sent to the display memory 12 of the monitor 1 as it is, and a color image is displayed on the screen 2 of the monitor 1.

The representative point designating means 13 is, for example, a mouse connected to the color monitor 1 shown in FIG. 2, and can designate a representative point in the color adjustment target area from the color image displayed on the screen 2. As a result, the representative point indicating means 13 stores the representative color data in the representative color data holding memory 14. The color adjustment area extracting circuit 15 extracts a pixel area including the representative point designated by the representative point designating means 13. In this extraction, hue data of the representative point can be used. The image data storage unit 16 holds the image data of the color adjustment target region including the representative point designated by the representative point designation unit 13 via the color adjustment region extraction circuit 15.

On the other hand, the target color input means 17 is provided on the screen 2 of FIG.
Is designated or a target color is input as numerical data. The target color data holding memory 1 is provided by the target color input means 17.
In 8, image data of a target color serving as an adjustment target of the representative color is input. The correction amount calculating means 19 outputs the representative point image data D ₀ (h ₀ , s ₀ , v ₀ ) and the target color image data D ₁ from the representative color data holding memory 14 and the target color data holding memory 18, respectively. (H ₁ , s ₁ , v ₁ ), and calculates a correction amount Δ (Δh, Δs, Δv) in the color space.

The coefficient determining means 20 determines a coefficient corresponding to the coordinate value of each image data from the image data storage means 16. This coefficient is determined based on the correction curve shown in FIG. 4 or FIG. 5, and is used for the correction processing of the correction amount Δ (Δh, Δs, Δv) obtained by the correction amount calculating means 19, for example, for saturation and brightness. You. That is, the coefficient value f ₁ (s
x), f ₂ (vx), the extracted image data (hx, sx, vx) of the adjustment target area, and the correction amount calculating means 19
Is input, and the image data stored in the image data storage unit 16 is corrected in pixel units. The image data {hy, sy, vy} corrected by the color correction calculating means 21 is sent to the display memory 12 via the inverse conversion circuit 22. In this way, a color image whose color has been corrected in the adjustment target area from the color image stored in the RGB data storage means 11 can be displayed on the color monitor 1.

In the above description, the case where the color adjustment region is extracted by designating the representative point has been described. However, the target region can be extracted by specifying the target pixel by specifying the hue.

[0032]

As described above, according to the present invention, when the color adjustment is performed by designating the target color of the color image to be adjusted,
For each pixel of the color image, the extreme value is the median of the coordinate values in the color space.
The color is adjusted by the correction amount corrected based on the large correction curve . For this reason, it is possible to easily weight the colors in the color adjustment target area, and to preserve the relationship between the white glossy portion and the black shadow portion of the image. In addition, since a pseudo contour does not occur at the boundary between the adjustment area and the background area, the color image can be adjusted to the target color without losing the original naturalness of the color image.

[Brief description of the drawings]

FIG. 1 is a flowchart illustrating the principle of a color adjustment method according to the present invention.

FIG. 2 is a diagram illustrating an example of a target image displayed on a color monitor.

FIG. 3 is a diagram illustrating image data in color space coordinates.

FIG. 4 is a diagram illustrating a correction curve for correction based on a saturation value.

FIG. 5 is a diagram showing another correction curve for determining a correction coefficient value.

FIG. 6 is a block diagram illustrating a configuration of a color adjustment device of the present invention.

FIG. 7 is a diagram showing a color palette divided into a plurality of sections.

FIG. 8 is a diagram showing a color data adjustment screen displayed on a display.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Color monitor 10 Image input device 11 RGB data storage means 12 Display memory 13 Representative point designating means 14 Representative color data holding memory 15 Color adjustment area extraction circuit 16 Image data storage means 17 Target color input means 18 Target color data holding Memory 19 Correction amount calculation means 20 Coefficient determination means 21 Color correction calculation means 22 Inverse conversion circuit

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-62-294236 (JP, A) JP-A-52-156625 (JP, A) JP-A-50-11542 (JP, A) JP-A-2- 81594 (JP, A) JP-A-3-41570 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) G09G 5/02 G06T 1/00 H04N 9/74

Claims (4)

(57) [Claims] 1. A color image color adjustment method for adjusting color data according to a correction amount designated for each pixel of a color image, comprising: a representative point specifying step of specifying a representative point of the color image; A target color designating step of designating a target color serving as an adjustment target for color; a correction amount calculating step of calculating a correction amount required to change the color of the representative point to the target color; and each pixel of the color image Median value of each color space coordinate value
A correction amount correction step of correcting the correction amount at the representative point based on the correction curve which is maximized in step (a), so as to obtain a correction amount for each of the pixels. Method. 2. The correction amount correcting step corrects an amount of correction at the representative point based on a coordinate value of each pixel in a color space using hue, saturation, and lightness of the color image as parameters. 2. The color adjusting method for a color image according to claim 1, wherein: 3. Extracting a specific image area including the representative point from the color image as a target area for color adjustment, and extracting at least one of coordinate values occupied by the pixels of the extracted target area in the color space. saturation, or by making a correction to the correction amount in the representative point in response to the brightness, the color adjustment method of a color image according to claim 1, characterized in that the correction amount for each pixel in the target region. 4. A correction designated for each pixel of a color image.
Color image color adjustment to adjust color data according to amount
In the apparatus, the color image is stored as color data of each pixel.
Color data storage means , indicating a representative point in the color adjustment target area from the color image
A representative point indicating means for inputting a representative color, and a color tone including the representative point specified by the representative point indicating means.
Image data storage device for storing image data of a target area for adjustment.
Step and adjustment target of the representative color input by the representative point designating means
Target color input means for inputting target color image data
And the image data of the representative point and the image data of the target color.
A correction amount calculating means for calculating a correction amount in a color space, and a correction amount calculating means for each pixel of the color image in the image data storage means.
Based on the correction curve that is maximized at the median of each coordinate value in the color space
Coefficient determining means for determining a coefficient, and a correction calculated by the correction amount calculating means based on the coefficient.
The amount is corrected and stored in the image data storage unit.
A color correction operation means for correcting the image data; and
Color data stored in the color data storage means.
Display means for displaying a color image in which the color of the adjustment target area has been corrected.
Color adjusting device of a color image, characterized in that it comprises a stage, a.