JP3766139B2 - Color image signal processing apparatus and color image signal processing method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a color image signal processing apparatus and a color image signal processing method for converting a color space range of color image information, and in particular, by reflecting the user's subjectivity in color reproduction processing easily, The present invention relates to a color image signal processing apparatus and a color image signal processing method capable of easily acquiring a color image capable of realizing color reproduction faithful to a reproduction request.
[0002]
[Prior art]
Since the color reproduction process has different color reproduction ranges between the input device and the output device, there is a problem when the color input by the input device cannot be reproduced as it is by the output device.
[0003]
For example, in “Color Image Signal Processing Method” of Japanese Patent Publication No. 6-36548, a color image signal of an input system with a wide reproduction range of brightness and saturation such as a television image signal is narrowed in a reproduction range of a color printer or the like. A color image signal processing method for converting to an output color image signal is disclosed.
[0004]
That is, this conventional example is based on the compression ratio determined from the image characteristics even when the saturation and lightness range of the input color image signal is larger than the saturation and lightness reproduction range of the output device. By compressing the image so as to preserve the gradation of each color and saturation, the image can be reproduced while being stored in the input color image signal outside the color reproduction range, and an image visually close to the input image is reproduced from the output device. Is.
[0005]
In general, the function of correcting the color of the reproduced image is used to correct the color to suit the user's preference through trial and error.
[0006]
[Problems to be solved by the invention]
However, it is generally difficult to guess the effect on the whole image when color correction operation is given, and the color reproduction desired by the user cannot be easily obtained, and a lot of trial and error is required. There was a problem. In addition, since the result of the reproduction process is corrected, there are problems that the color reproduction desired by the user cannot be obtained and that the reproduction process takes time.
[0007]
In general, the human color perception differs depending on the group such as the hue of the original image. However, in the above conventional example, all colors are made uniform by the full color image compression method (gamut processing method). It is a color conversion process, and is not a reproduction method that directly reflects the way people feel (subjectivity), but a preferred color reproduction result cannot be obtained depending on the color to be reproduced.
[0008]
Furthermore, conventionally, in order to make the color reproduction result fit the subjectivity of the person's preference etc., after performing the color reproduction process, the method of correcting the color subjectively by color correction etc. A method of performing color reproduction processing with arbitrary changes has been adopted.
[0009]
However, any method does not necessarily reflect the subjectivity sufficiently in the color reproduction processing result, and there is a problem that many trials and errors are required. Also, with color correction and parameter changes, it is easy to correct a narrow range of colors, such as solids and graphs, but it is difficult to predict the effect of these corrections on the entire image, and it is difficult for general inexperience. It is difficult for a person to set color correction and parameters well, and it is difficult to easily adjust colors based on subjectivity.
[0010]
The present invention has been made in view of the above-described conventional problems, and realizes color reproduction faithful to the user's color reproduction request by reflecting the user's subjectivity in color reproduction processing with a simple operation. An object of the present invention is to provide a color image signal processing apparatus and a color image signal processing method capable of easily obtaining a color image that can be obtained.
[0011]
[Means for Solving the Problems]
In order to solve the above problems, a color image signal processing apparatus according to claim 1 of the present invention receives a color image signal from an image input means as shown in FIG. In a color image signal processing apparatus for converting a color space range and outputting from an image output means, a plurality of color patches are displayed on a color patch contrast display means, and the image output means corresponding to each of the plurality of color patches Within the desired color reproduction range Color patch Color patch color reproduction operation input means for displaying and specifying, and parameter setting means for setting parameters used for conversion of the color reproduction processing means based on designation information by the color patch color reproduction operation input means Is.
[0012]
A color image signal processing device according to claim 2 is the color image signal processing device according to claim 1, and corresponds to each of the plurality of color patches and the plurality of color patches based on the parameter. Designated Color patch A color evaluation unit that evaluates the relationship between the color patch and a color patch changing unit that changes the plurality of color patches when necessary based on the evaluation of the parameter evaluation unit. The input means displays the plurality of color patches after the change on the color patch contrast display means, and is within a desired color reproduction range of the image output means corresponding to each of the plurality of color patches. Color patch The parameter setting means resets the parameter based on the re-designation information from the color patch color reproduction operation input means.
[0013]
According to a third aspect of the present invention, there is provided a color image signal processing apparatus which receives a color image signal from an image input means, converts a color space range of the color image signal by a color reproduction processing means, and outputs the color image signal from an image output means. In the signal processing apparatus, a plurality of color patches and a color reproduction range within a desired color reproduction range of the image output unit corresponding to each of the plurality of color patches. Color patch A color patch color reproduction operation input means for displaying the color patch contrast display means, the plurality of color patches displayed on the color patch contrast display means, and within the desired color reproduction range. Color patch A parameter temporary setting means for changing the combination of the parameters by temporarily setting a parameter used for conversion in the color reproduction processing means, and the color reproduction processing means with reference to the display of the color patch contrast display means by the user Parameter setting means for setting parameters to be used for conversion, and based on the parameters temporarily set by the parameter temporary setting means, the plurality of color patches and the designated color patches corresponding to each of the plurality of color patches Color patch And parameter evaluation means for displaying the evaluation result on the color patch contrast display means.
[0015]
The color image signal processing method according to claim 4 is a color image signal processing method for generating a color image signal to be output from the image output means by converting the color space range of the color image signal input from the image input means. , Displaying a plurality of color patches and corresponding to each of the plurality of color patches within a desired color reproduction range of the image output means Color patch A first step of designating the image, a second step of setting a parameter used for conversion of the color space range based on the designation information in the first step, and using the parameters set in the second step, And a third step of converting the color space range of the color image signal input from the input means.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the outline of the color image signal processing apparatus and the color image signal processing method of the present invention and the embodiments of the color image signal processing apparatus and the color image signal processing method of the present invention will be described as [Embodiment 1], [Embodiment]. 2] and [Example 3] will be described in detail with reference to the drawings.
[0019]
[Outline of Color Image Signal Processing Apparatus and Color Image Signal Processing Method of the Present Invention]
In the color image signal processing apparatus according to claim 1 and the color image signal processing method according to claim 5 of the present invention, as shown in FIG. 1 and FIG. Are displayed on the color patch contrast display means 106, and the colors within the desired color reproduction range of the corresponding image output means 105 are displayed and designated (first step S201), and the color patch color reproduction is performed by the parameter setting means 102. Based on the designation information by the operation input unit 101, parameters used for conversion by the color reproduction processing unit 104 are set (second step S202), and the color reproduction processing unit 104 uses the set parameters by the parameter setting unit 102 to input an image. The color space range of the color image signal input from the means 103 is converted, and the image output means 105 So that forces (Third step S204).
[0020]
In this way, the color patch color reproduction operation input means 101 can reflect the user's preferences regarding color reproduction in the color reproduction process with a simple operation, and therefore, the color for converting the color space range of the color image information. A color image signal processing apparatus capable of obtaining a color image that realizes color reproduction faithful to a user's color reproduction request and converting a color space range of color image information with less trial and error. Can be customized.
[0021]
In the color image signal processing apparatus according to claim 2 and the color image signal processing method according to claim 6 of the present invention, the parameter set by the parameter setting means 602 is set in the parameter evaluation means 606 as shown in FIG. Based on the evaluation result, the relationship between the plurality of color patches and the designated color corresponding to each of the color patches is evaluated. If necessary, the plurality of color patches are changed by the color patch changing means 607 based on the evaluation result. As described above, the color patch color reproduction operation input unit 601 displays a plurality of color patches after the change on the color patch comparison display unit 608, and reproduces a color within a desired color reproduction range of the image output unit 605 corresponding to each color patch. The parameter setting means 602 resets the parameters based on the re-designation information. In particular, in the color image signal processing method according to claim 6, a plurality of color patches are obtained until the relationship between the plurality of color patches and the color within the desirable color reproduction range of the corresponding image output means 605 becomes clearer. I try to increase the number of patches.
[0022]
In this way, while performing the evaluation by the parameter evaluation means 606, a plurality of color patches are changed if necessary, and a plurality of color patches and colors within a desired color reproduction range corresponding to each of the color patches are changed. Until the relationship becomes clearer, the number of the plurality of color patches is increased, so that the user can be more surely instructed about color reproduction.
[0023]
In the color image signal processing apparatus according to claim 3 and the color image signal processing method according to claim 7 of the present invention, a plurality of color patch color reproduction operation input means 801 are used as shown in FIGS. A combination of the color patch and a color within the desired color reproduction range of the corresponding image output unit 805 is displayed on the color patch comparison display unit 807 (first step S901), and the displayed plurality of color patches. And the corresponding color combination within the desired color reproduction range of the image output means are changed by temporarily setting parameters used for conversion of the color space range by the parameter temporary setting means 806 (second step S902). And S903), the user refers to the combination display of the color patch contrast display means 807, and the parameter setting means 8 2 is used to set parameters used for conversion of the color space range (third step S904), and the color reproduction signal 804 is used by the color reproduction processing unit 804 to set the color of the color image signal input from the image input unit 803. The spatial range is converted and output from the image output means 805 (fourth step S906).
[0024]
In this way, it is possible to easily and reliably reflect the user's instructions regarding color reproduction to the color reproduction process with a simple operation. Therefore, in the color image signal processing apparatus for converting the color space range of color image information, A color image that achieves color reproduction faithful to the user's color reproduction requirements can be obtained, and color image signal processing devices that convert the color space range of color image information can be customized with little trial and error. .
[0025]
Further, in the color image signal processing apparatus according to claim 4, the parameter evaluation unit performs a plurality of color patches and a designated color corresponding to each of the color patches based on the parameters temporarily set by the parameter temporary setting unit 806. The relationship is evaluated, and the evaluation result is displayed on the color patch comparison display means 807.
[0026]
In this way, while confirming the evaluation by the parameter evaluation means, the parameters are temporarily set and / or set, and if necessary, a plurality of color patches and colors within a desired color reproduction range corresponding to each color patch are set. Since the combination is changed, it becomes possible to give instructions on the color reproduction of the user more reliably.
[0027]
[Example 1]
FIG. 1 is a configuration diagram of a color image signal processing apparatus according to Embodiment 1 of the present invention.
[0028]
In the figure, the color image signal processing apparatus of this embodiment includes an image input means 103 for inputting a color image signal, a color reproduction processing means 104 for converting the color space range of the input color image signal, and the conversion. An image output means 105 for outputting a color image signal and a plurality of color patches are displayed on the color patch comparison display means 106, and colors within a desired color reproduction range of the image output means 105 corresponding to each are displayed and designated. A color patch color reproduction operation input unit 101 and a parameter setting unit 102 for setting parameters used for conversion by the color reproduction processing unit 104 based on designation information from the color patch color reproduction operation input unit 101 are provided.
[0029]
Next, FIG. 2 is an explanatory diagram for explaining the outline of the color image signal processing method performed in the color image signal processing apparatus of this embodiment.
[0030]
The color image signal processing method of the present embodiment is largely divided by displaying a plurality of color patches on the color patch contrast display means 106 by the color patch color reproduction operation input means 101, and a desired color of the image output means 105 corresponding to each color patch. The first step S201 for displaying and specifying a color within the reproduction range and the parameter setting unit 102 set parameters used for conversion by the color reproduction processing unit 104 based on the designation information from the color patch color reproduction operation input unit 101. In the second step S202, a color image signal is input from the image input unit 103, and a color space range of the color image signal input from the image input unit 103 by using the setting parameter by the parameter setting unit 102 by the color reproduction processing unit 104. Is converted and output from the image output means 105 in a third step S2. 3, S204, S205 is divided into. Hereinafter, each step will be described in detail.
[0031]
First, a plurality of color patches, which are performed in the first step S201, are displayed on the color patch comparison display means 106, and colors within the desired color reproduction range of the image output means 105 corresponding to each color patch color reproduction operation input means. A process of displaying and specifying in 101 will be described.
[0032]
FIG. 3 is an explanatory diagram for explaining a plurality of color patches and designation of colors within a desirable color reproduction range corresponding to each color patch, which are performed on the monitor 301 (color patch comparison display means 106). The designation operation is performed when the user designates a desired reproduction destination color corresponding to the plurality of color patches 311 displayed.
[0033]
That is, first, the original continuous color patch 311 is displayed on the monitor 301. Next, while viewing the displayed original continuous color patch 311, the color of the patch 312 arranged beside it becomes the color on the gamut boundary line closest to the original color (color patch after gamut compression). As described above, the brightness value and the saturation value are manually designated by using the color adjustment switch 321. Note that patches can be specified individually one by one, and the user tries to perform color matching while considering the color consistency and color continuity of each patch.
[0034]
Here, the colors of the plurality of reference color patches are colors whose reproduction method is problematic, and in this example, they are out of the color reproduction range of the image output means 105. The same number of color patches shown beside the reference patch is configured so that the color within the color reproduction range can be changed by operation. In this example, the color operation is performed by operating a bar that gives values for saturation, lightness, and hue. Therefore, the user designates the color after reproduction of the color of the reference color patch for each color patch by these operations.
[0035]
Next, the process of the second step S202, which is performed by the parameter setting unit 102 and sets parameters used for conversion by the color reproduction processing unit 104 based on the designation information by the color patch color reproduction operation input unit 101, will be described. FIG. 4 is a flowchart for explaining processing for calculating parameters used for color reproduction processing from a specified result by statistical calculation.
[0036]
First, a correlation between the lightness of the original color and the lightness of the designated reproduction color is obtained using the color reproduction designation result in the first step S201. Here, the correlation is described by a single regression equation.
[0037]
Next, the relational expression given by the single regression equation is replaced with the color reproduction equation (L2 = A × L1 + B) as it is to reproduce the color. That is, here, the parameters A and B are determined so that the reproduction of the given color is statistically close to the color reproduction given by the operation of the first step S201.
[0038]
As specified in the first step S201,
(L1 [1], L2 [1]), (L1 [2], L2 [2]), ..., (L1 [i], L2 [i]), ..., (L1 [N], L2 [N] )
Is given, parameters A and B are determined as follows. Here, for (L1 [i], L2 [i]), L1 [i] is the lightness value of the i-th color patch color as a reference, and L2 [i] is the i-th color as a reference. This is the brightness value of the color specified as the reproduction destination color for the patch color.
[0039]
First, in step S401, (L1 [1], L2 [1]), (L1 [2], L2 [2]), ..., (L1 [i], L2 [i]) according to the designation in the first step S201. ,... (L1 [N], L2 [N]) are obtained.
[0040]
Next, in step S402, <L1> = ΣL1 [i] / N is calculated, and in step S403, <L2> = ΣL2 [i] / N is calculated. Here, Σ is the total when 1 to N are given to i. For example, ΣL1 [i] = L1 [1] + L1 [2] + ... + L1 [i] + L1 [i + 1] + ... + L1 [N]. The same applies hereinafter.
[0041]
In steps S304 and S405, S <L1, L2> and S <L1, L1> are calculated by the following equations, respectively.
S <L1, L2>
= (ΣL1 [i] × L2 [i] −N × <L1> × <L2>) / (N−1)
S <L1, L1>
= (ΣL1 [i] × L1 [i] −N × <L1> × <L1>) / (N−1)
[0042]
In step S406, parameter A is calculated as a ratio of S <L1, L2>, S <L1, L1>, and in step S407, parameter B (= <L2> −A × <L1>) is calculated from the color reproduction equation. Is done.
[0043]
Based on the parameters A and B obtained as described above, the lightness value L2 of the gamut compression process is calculated from the lightness value L1 of the original color by the calculation formula L2 = A × L1 + B. The saturation value is given by C2 = f (L2, H2). Here, the function f is a function for calculating the saturation on the gamut boundary of the hue when the brightness value and the hue value are given on the gamut boundary. Further, the hue value is set to H2 = H1, and the same value as the hue value H1 of the original color is given.
[0044]
Next, a color image signal is input from the image input unit 103, which is performed by the color reproduction processing unit 104, and the color space range of the color image signal input from the image input unit 103 is set using the setting parameters by the parameter setting unit 102. The processes of the third steps S203, S204, and S205 that are converted and output from the image output means 105 will be described. FIG. 5 is a flowchart for explaining the procedure of the color reproduction process. That is, color reproduction processing is performed on the input color image signal using the parameters A and B obtained in the second step S202.
[0045]
First, in step S501, an original image is input. Next, in step S502, pixels of the original image are sequentially extracted, and the following processing (steps S504 to S507) is repeatedly performed for each pixel. In step S503, it is determined whether or not all the pixels have been processed. When all the pixels have been processed, a reproduced image is output in step S508.
[0046]
In step S504, the lightness L1, saturation C1, and hue H1 of the pixel color are calculated by color conversion. Next, in step S505, the parameters A and B calculated in the second step S202 are applied to the reproduction formula L2 = A × L1 + B to obtain the lightness L2 of the color after reproduction. In step S506, saturation C2 having lightness L2 on the gamut boundary of hue H1 is calculated. In step S507, a color having lightness L2, saturation C2, and hue H1 is converted to an output color.
[0047]
As described above, in the color image signal processing apparatus according to the present embodiment, the color patch color reproduction operation input means 101 is used to perform a user's instruction regarding color reproduction with a simple operation, and the designation information is reflected in the color reproduction process. , Has the following effects.
(1) In a color image signal processing apparatus that converts a color space range of color image information, a color image that can realize color reproduction faithful to a user's color reproduction request can be acquired.
(2) The color image signal processing apparatus for converting the color space range of the color image information can be customized.
(3) There is little trial and error, and it is possible to easily give instructions on color reproduction by the user.
[0048]
[Example 2]
Next, FIG. 6 is a block diagram of a color image signal processing apparatus according to Embodiment 2 of the present invention.
[0049]
In the figure, the color image signal processing apparatus of the present embodiment is similar to the image input means 603, color reproduction processing means 604, image output means 605, color patch contrast display means 608, and color patch color reproduction operation input as in the first embodiment. In addition to the configuration of the means 601 and the parameter setting means 602, the parameter evaluation means 606 for evaluating the relationship between the plurality of color patches and the designated color corresponding to each of the color patches based on the parameters set by the parameter setting means 601. And a color patch changing means 607 for changing the plurality of color patches when necessary based on the evaluation.
[0050]
That is, in the color image signal processing apparatus of the present embodiment, after the processing of the first step S201 and the second step S202 in the first embodiment is performed, the parameter evaluation unit 606 is based on the parameters set by the parameter setting unit 602. The relationship between the plurality of color patches and the designated color corresponding to each of the color patches is evaluated, and the plurality of color patches are changed by the color patch changing means 607 if necessary based on the evaluation result. The color patch color reproduction operation input unit 601 displays a plurality of color patches after the change, respecifies colors within the desired color reproduction range of the corresponding image output unit 605, and the parameter setting unit 602 , The parameter is reset based on the redesignation information. Then, using the parameters set or reset by the parameter setting unit 602, the color space range of the color image signal input from the image input unit 603 is converted by the color reproduction processing unit 604 and output from the image output unit 605. .
[0051]
FIG. 7 is a flowchart for explaining the operation of the color image signal processing apparatus according to this embodiment. Here, regression testing is used as a parameter evaluation method. That is, the variance ratio F0 is calculated using the parameters A and B calculated in the second step S202. Based on the result of the regression test, if necessary, the color patch data is changed to change the parameter. It is something to reset.
[0052]
First, in step S701, as in the first step S201 in the first embodiment, a reproduction destination color corresponding to reference color patch data prepared in advance is designated. Thus, (L1 [1], L2 [1]), (L1 [2], L2 [2]), ..., (L1 [i], L2 [i]), ..., (L1 [N], L2 [N]) is obtained.
[0053]
Next, in step S702, parameters A and B are obtained by the processing from step S401 to step S407 in FIG. 4 as in the second step S202 in the first embodiment.
[0054]
Next, in step S703, <Y> = Σ (A × L1 [i] + B) is calculated. In step S704, the dispersion ratio F0 is calculated by the following equation.
F0 = N * [Sigma] (A * L1 [i] + B- <Y>) / [Sigma] (L2 [i]-(A * L1 [i] + B))
[0055]
In step S705, if the dispersion ratio F0 is not a certain value, for example, 100 or more, the process proceeds to step S706, the reference color patch is changed, the process returns to step S701, and the above processing is repeated. If the dispersion ratio F0 is 100 or more, the values of the parameters A and B obtained in step S702 are left as they are, and the process proceeds to step S707.
[0056]
In step S707, the color space range of the color image signal input from the image input unit 603 is converted by the color reproduction processing unit 604 using the set or reset parameter, and is output from the image output unit 605.
[0057]
Example 3
Next, FIG. 8 is a block diagram of a color image signal processing apparatus according to Embodiment 3 of the present invention.
[0058]
In the figure, the color image signal processing apparatus of the present embodiment converts an image input unit 803 for inputting a color image signal and a color space range of the input color image signal based on parameters set by a parameter setting unit 802. Color reproduction processing means 804 for outputting, image output means 805 for outputting the converted color image signal, parameter temporary setting means 806 for temporarily setting parameters used for conversion in the color reproduction processing means 804, a plurality of color patches, Using the parameters set by the parameter temporary setting unit 806, the combination with the reproduction color obtained by converting the color of each color patch is displayed on the color patch comparison display unit 807, and the parameter temporary setting unit 806 sets the combination. As parameters used for the conversion of the color reproduction processing means 804, parameters are used. Is constituted by a color patch color reproduction operation input means 801 to specify that the parameters set by the meter setting means 802.
[0059]
Next, FIG. 9 is an explanatory diagram for explaining the outline of the color image signal processing method performed in the color image signal processing apparatus of this embodiment.
[0060]
In the color image signal processing apparatus of this embodiment, a color patch color reproduction operation input unit 801 is used to combine a combination of a plurality of color patches and a color within a desired color reproduction range of the image output unit 805 corresponding to each color patch. A comparison display unit 807 displays the comparison (step S901), and a combination of the displayed color patches and the corresponding color within the desired color reproduction range of the image output unit is a parameter temporary setting unit 806. Thus, the parameters used for conversion of the color space range are changed by temporarily setting (steps S902 and S903), and the user refers to the combination display of the color patch comparison display means 807, and the parameter setting means 802 sets the color space range. Parameters used for conversion are set (step S904), and color reproduction processing means 8 By 4, using the setting parameters by parameter setting means 802, and converts the color space range of the color image signal inputted from the image input unit 803, and outputs from the image output unit 805 (step S906).
[0061]
Here, the temporary setting of the parameters for the color reproduction process in the temporary parameter setting unit 806 is performed for the parameters A and B when the color reproduction formula is a relational expression of L2 = A × L1 + B as in the first embodiment. Is called. Here, L1 is the lightness value of the reference color, and L2 is the lightness value of the color displayed as the reproduction destination color with respect to the reference color.
[0062]
【The invention's effect】
As described above, according to the color image signal processing apparatus according to claim 1 and the color image signal processing method according to claim 4 of the present invention, a plurality of color patches are color-coded by the color patch color reproduction operation input means. Displayed on the patch contrast display means, and within the desired color reproduction range of the image output means corresponding to each of the plurality of color patches. Color patch Is displayed and specified (first step), and the parameter setting means sets the parameters used for conversion of the color reproduction processing means based on the designation information from the color patch color reproduction operation input means (second step) to reproduce the color. Since the processing means converts the color space range of the color image signal input from the image input means using the setting parameter by the parameter setting means and outputs it from the image output means (third step). The color reproduction instructions can be reflected in the color reproduction process with a simple operation, and color reproduction faithful to the user's color reproduction requirements can be achieved in a color image signal processing device that converts the color space range of color image information. A color image signal processing device that can obtain a color image to be realized and that converts the color space range of color image information with little trial and error Customizing the color image signal processing apparatus and a color image signal processing method capable can provide.
[0063]
According to the color image signal processing apparatus of claim 2 of the present invention, the parameter evaluation means designates a plurality of color patches and a plurality of color patches corresponding to each of the plurality of color patches based on the parameters. Color patch The color patch changing means changes a plurality of color patches based on the evaluation result, if necessary, and the color patch color reproduction operation input means uses a plurality of changed colors. The color patch is displayed on the color patch contrast display means, and within the desired color reproduction range of the image output means corresponding to each of the plurality of color patches. Color patch Since the parameter setting means resets the parameter based on the re-designation information, the color image signal processing apparatus and the color image signal which can give the user instructions regarding color reproduction more reliably A signal processing method can be provided.
[0064]
According to the color image signal processing apparatus of the third aspect of the present invention, it is preferable that the color patch color reproduction operation input means is a plurality of color patches and an image output means corresponding to each of the plurality of color patches. Within the color reproduction range Color patch Is displayed on the color patch contrast display means (first step), and the plurality of displayed color patches and a desired color reproduction range are displayed. Color patch Is changed by temporarily setting parameters used for conversion of the color space range by the parameter temporary setting means (second step), and the user sets the parameters by referring to the combination display of the color patch contrast display means. The parameter used for the conversion of the color space range is set by the means (third step), and the color space range of the color image signal input from the image input means is converted by the color reproduction processing means using the setting parameter by the parameter setting means. Thus, since the image is output from the image output means (fourth step), it is possible to easily and reliably reflect the user's instructions regarding color reproduction to the color reproduction process with a simple operation. Color that realizes color reproduction faithful to the user's color reproduction requirements in a color image signal processing device that converts the color space range To provide a color image signal processing apparatus and a color image signal processing method capable of obtaining an image, having little trial and error, and capable of customizing a color image signal processing apparatus for converting a color space range of color image information. it can.
[0065]
Further, according to the color image signal processing apparatus of the fourth aspect, the parameters are temporarily set and / or set while confirming the evaluation by the parameter evaluating means, and if necessary, a plurality of color patches and a plurality of color patches are provided. Within the desired color reproduction range corresponding to each of the color patches. Color patch Therefore, it is possible to provide a color image signal processing apparatus capable of giving a user instructions regarding color reproduction more reliably.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a color image signal processing apparatus according to Embodiment 1 of the present invention.
FIG. 2 is an explanatory diagram for explaining an outline of a color image signal processing method performed in the color image signal processing apparatus according to the first embodiment;
FIG. 3 is an explanatory diagram illustrating a plurality of color patches performed on a monitor and designation of a color within a desirable color reproduction range corresponding to each of the color patches;
FIG. 4 is a flowchart for describing processing for calculating parameters used for color reproduction processing from a specified result by statistical calculation.
FIG. 5 is a flowchart illustrating a color reproduction processing procedure.
FIG. 6 is a configuration diagram of a color image signal processing apparatus according to Embodiment 2 of the present invention.
FIG. 7 is a flowchart illustrating the operation of the color image signal processing apparatus according to the second embodiment.
FIG. 8 is a configuration diagram of a color image signal processing apparatus according to Embodiment 3 of the present invention.
FIG. 9 is an explanatory diagram for explaining an outline of a color image signal processing method performed in the color image signal processing apparatus according to the third embodiment;
[Explanation of symbols]
101, 601, 801 Color patch color reproduction operation input means
102,602,802 Parameter setting means
103,603,803 Image input means
104,604,804 color reproduction processing means
105,605,805 Image output means
606 Parameter evaluation means
607 color patch changing means
806 Parameter temporary setting means
106,608,807 Color patch contrast display means

Claims (4)

In a color image signal processing apparatus which inputs a color image signal from an image input means, converts a color space range of the color image signal by a color reproduction processing means, and outputs from the image output means,
Color patch color reproduction operation for displaying a plurality of color patches on a color patch contrast display means and displaying and specifying color patches within a desired color reproduction range of the image output means corresponding to each of the plurality of color patches Input means;
Parameter setting means for setting parameters used for conversion of the color reproduction processing means based on the designation information by the color patch color reproduction operation input means;
A color image signal processing apparatus comprising: The color image signal processing apparatus includes: a parameter evaluation unit that evaluates a relationship between the plurality of color patches and a designated color patch corresponding to each of the plurality of color patches based on the parameters; and the parameter Color patch changing means for changing the plurality of color patches when necessary based on the evaluation by the evaluation means;
The color patch color reproduction operation input means displays the changed plurality of color patches on a color patch comparison display means, and is within a desired color reproduction range of the image output means corresponding to each of the plurality of color patches. 2. The color image signal processing apparatus according to claim 1, wherein the color patch is re-designated, and the parameter setting unit resets the parameter based on re-designation information by the color patch color reproduction operation input unit. In a color image signal processing apparatus which inputs a color image signal from an image input means, converts a color space range of the color image signal by a color reproduction processing means, and outputs from the image output means,
Color patch color reproduction for designating a combination of a plurality of color patches and a color patch within a desired color reproduction range of the image output means corresponding to each of the plurality of color patches and displaying on a color patch contrast display means Operation input means;
Change the displayed on the color patch comparison display means, and the plurality of color patches, the combination of the color patch in the desired color reproduction range, by temporarily setting the parameters used for the conversion in the color reproduction processing means Parameter temporary setting means to perform,
Parameter setting means for a user to set parameters used for conversion of the color reproduction processing means with reference to the display of the color patch contrast display means;
Based on the parameters temporarily set by the parameter temporary setting means, the relationship between the plurality of color patches and the designated color patch corresponding to each of the plurality of color patches is evaluated, and the evaluation result is obtained. A color image signal processing apparatus comprising: parameter evaluation means for displaying on the color patch contrast display means. In a color image signal processing method for converting a color space range of a color image signal input from an image input means and generating a color image signal to be output from the image output means,
A first step of displaying a plurality of color patches and designating a color patch within a desired color reproduction range of the image output means corresponding to each of the plurality of color patches;
A second step of setting a parameter used for conversion of the color space range based on the designation information in the first step;
A third step of converting a color space range of a color image signal input from the image input means using the parameters set in the second step;
A color image signal processing method characterized by comprising:

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