JP7047583B2 - Image processing method, image processing device and printing system - Google Patents

Description

The present invention relates to an image processing technique used when printing a facial photograph using a card printer or a passport printer.

Photographs of human faces have various shades and brightness depending on the shooting conditions such as the difference in skin color and brightness. If such a facial photograph is printed using a card printer or a passport printer without image processing, image defects such as overexposure and underexposure may occur.

Here, overexposure means that, for example, when a face photograph is taken using a digital camera, a part having a gradation that is not white as image data is recognized as only white in the data. .. As an example of overexposure, it is likely to occur when a person with a whitish face is photographed under extremely high illuminance. Further, the black crushing means that a part where the brightness is originally strong or weak is recognized as black only in the data.

If such an image of a face photograph is printed as it is with a printer, it becomes a face photograph in which overexposure and underexposure occur, and therefore, it becomes a subject of a complaint.

In order to solve such a problem, the data of the photographed face photograph is first image-edited, and the face photograph is printed using the image-edited data. However, in this method, since a person edits an image, it is inevitable that the subjectivity of the operator is included in the adjustment of the color tone.

As a technology to eliminate the subjectivity of the operator in the color adjustment, the changed brightness characteristics are reflected in the color conversion table of the existing general-purpose color profile, and the brightness adjustment result that matches the characteristics of the printer is reflected. A brightness adjusting device capable of easily performing color adjustment in consideration of the above is disclosed (Patent Document 1).

Further, such an image editing function is provided inside the printer. That is, when the image data of the photographed face photograph is sent to the printer, the color conversion corresponding to the image editing is first performed inside the printer, and the image data of the face photograph after the color conversion is used for printing. There is. However, since only one color conversion profile is used for color conversion, for example, if the image data is too bright and causes overexposure, it can be corrected to the image data having normal gradation, but black crushing is caused. It was difficult to correct the resulting image data.

Therefore, there has been a demand for a technique capable of correcting both bright image data and dark image data into image data of a facial photograph having normal gradation.

As a prior art similar to such a technique, for example, even if different printing devices have different reproducible color gamuts or different types of output media used by the printing devices, color adjustment is performed. A technique is disclosed that enables accurate evaluation of results and makes it possible to match the color tones of printed matter through color conversion (Patent Document 2). Further, a method and a system for creating a color profile that realizes improvement in image quality of an output image and high color matching accuracy at the time of creating a color mapping table are disclosed (Patent Document 3).

However, Patent Document 2 is a technique for making the color of printed matter the same even when printed by a plurality of printing devices having different color reproduction characteristics, and Patent Document 3 can realize improvement in image quality of an output image and high color matching accuracy. This is a different color profile creation method, which is different from the image processing technology that makes it possible to correct bright image data or dark image data into image data of a facial photograph having normal gradation. It is a thing.

Japanese Unexamined Patent Publication No. 2006-261968 Japanese Patent No. 4826659 Japanese Unexamined Patent Publication No. 2006-21179

In view of the above circumstances, the present invention corrects the image data of the face image having normal gradation regardless of whether the image data is bright or dark, so that there is no overexposure or underexposure. An object of the present invention is to provide an image processing method that enables printing.

As a means for solving the above-mentioned problems, the invention according to claim 1 of the present invention is a face image data acquisition step of deleting parts below the hair and neck from the face image and acquiring image data of only the face. When,
A color component extraction process that extracts and digitizes color components from the acquired image data of only the face,
A color conversion profile selection process that selects the most appropriate color conversion profile from a plurality of color conversion profiles stored in advance based on the numerical values of the color components, and
An image processing process that performs image processing of image data of only the face using the selected color conversion profile, and
It is an image processing method characterized by comprising a step of combining an image data of only a face after image processing with an image of a portion below the hair and a neck to create a face image.

Further, the invention according to claim 2 is a means for acquiring image data of only a face from a face image.
A means to extract color components from the acquired image data and quantify them,
A means of selecting the most appropriate color conversion profile from a plurality of color conversion profiles stored in advance based on the numerical value of the color component, and
A means of performing image processing of facial image data using the selected color conversion profile, and
The image processing apparatus is characterized by comprising a means for creating a face image by synthesizing image data of only a face after image processing with an image of a portion below the hair and neck.

The invention according to claim 3 is a printing system including the image processing apparatus according to claim 2 and a printing apparatus.

In the image processing method of the present invention, image data of only a face is acquired from a face image, a color component is extracted from the image data, quantified, and an image of only the face acquired based on the quantified color component is obtained. By selecting a color conversion profile suitable for data image processing and performing image processing, after obtaining an image of only the face with normal gradation, the image data and the image below the hair and neck Since it is an image processing method that creates a face image by synthesizing the data, whether it is image data of a bright face image or image data of a dark face image, image data consisting of normal gradations. It is possible to correct to.

It is a flow figure explaining the image processing method of this invention.

<Image processing method>
The image processing method of the present invention will be described.
The image processing method of the present invention is an image processing method capable of correcting image data having normal gradation, whether it is image data of a bright face image or image data of a dark face image. ..

The image processing method of the present invention is a face image data acquisition step of deleting hair and parts below the neck from a face image to acquire image data of only the face, and a color component is obtained from the acquired image data of only the face. A color component extraction step of extracting and quantifying, and a color conversion profile selection step of selecting the most appropriate one from a plurality of color conversion profiles stored in advance based on the quantified color component values. , The image processing process that performs image processing of image data of only the face using the selected color conversion profile, and the image data of only the face after image processing are combined with the image of the hair and the part below the neck to make a face image. It is characterized by having a process of creating.

Each process will be described in detail with reference to FIG.
S1: Face image data acquisition process The face image can be roughly divided into an image of only the face, an image of hair (or hair) on the top or side of the face, and an image from the neck to the bottom of the face. Can be divided into. From among the components of these three face images, image data of only the face is taken out and stored.

The means for acquiring the face image data is not particularly limited. The face image may be a photograph or a printed matter. In this case, the face image can be acquired as digital image data by using a scanner or an image pickup device. Further, by taking a picture of a face using a digital camera, it is possible to acquire digital data of the face image.

S2: Color component extraction process (process of extracting color components and quantifying them)
The color component is extracted from the acquired image data of only the face and quantified.
As a color space that expresses colors, RGB color system using the three colors of red, green, and blue (R, G, B) as they are, and RGB color system so that negative values do not appear by simple primary conversion. In the XYZ color system and XYZ color system specified in the above, the color difference that can be identified by a person differs considerably depending on the color region, so the L ^* a ^* b ^* color system was devised as an even color space as close to the human sense as possible. And so on.

For example, in the RGB color system, the brightness of each primary color of R (red), G (green), and B (blue) is represented as 256 gradations from a minimum brightness of 0 to a maximum brightness of 255. In the RGB color space, black can be represented by (0, 0, 0) and white can be represented by (255, 255, 255). Any color can be represented as the coordinates of the color space, which can be quantified.

Further, in the L ^* a ^* b ^* color system, the color can be represented by three numerical values of L ^* , a ^* , and b ^* . This quantification can be easily performed using a computer device in which dedicated application software is installed.
The digitization of color components does not have to be limited to the RGB color system or the L ^* a ^* b ^* color system, and an appropriate method may be selected.
In the following description, the case where the L ^* a ^* b ^* color system is used will be described, but it does not mean that the description is limited to this.

S3: Color conversion profile selection step (step of determining whether the numerical value of the color component is equal to or less than the threshold value and selecting the color conversion profile)
It is determined whether or not the value of the extracted color component is equal to or less than a preset threshold value. If it is below the threshold, use a normal color conversion profile. When the numerical value of the color component exceeds the threshold value, for example, prepare a color conversion profile corresponding to how much each of L ^* , a ^* , and b ^* is different from the threshold value set for each. .. By performing color conversion using the color conversion profile, an image having normal gradation can be obtained.

S4: Step of color conversion using a normal color conversion profile If the value of the extracted color component is equal to or less than a preset threshold value, color conversion using a normal color conversion profile is executed. By performing color conversion of the image data of only the face, it is possible to obtain the image data of only the face having more appropriate gradation.

S5: A process of selecting a color conversion profile suitable for the calculated numerical value and performing color conversion (a color conversion process using a color conversion profile corresponding to the degree of deviation from the threshold value).
When the numerical value of the extracted color component exceeds the threshold value, for example, the color conversion profile corresponding to how much each numerical value of L ^* , a ^* , and b ^* deviates from the threshold value set for each. Prepare, select the color conversion profile, and perform color conversion. The color conversion results in image data with normal gradation.

S6: Face image creation process By synthesizing the image data of only the face after this color conversion, the image data of the hair, and the image data from the neck to the bottom, and restoring the face image, the bright part and the dark part Even if the image data of the face image includes both of the above, a face image having normal gradation is created.

<Printing system>
Next, the printing system of the present invention will be described.
The printing system of the present invention is an image processing device capable of obtaining a face image having normal gradation regardless of whether it is image data of a bright face image or image data of a dark face image, and the face image thereof. It is equipped with a printing device for printing.

[Image processing device]
As the image processing device of the present invention, a computer device in which various image processing software is installed can be used.
The image processing apparatus of the present invention is based on a means for acquiring image data of only a face from a face image, a means for extracting color components from the acquired image data and quantifying them, and values of the quantified color components. A means for selecting the most appropriate one from a plurality of color conversion profiles stored in advance, a means for performing image processing of image data of a face image using the selected color conversion profile, and a means after image processing. It is characterized by having a means for creating a face image by synthesizing the image data of only the face with the image of the hair and the part below the neck.

(Means to acquire image data of only the face from the face image)
As a means for acquiring image data of only a face from a face image, a computer device or an image processing device in which image processing software such as Photoshop (Adobe, USA) is installed can be mentioned. Specifically, from the image data of the photographed face, only the face, the hair part on the upper side and both sides of the face, and the image data from the neck to the lower part under the face, only the face. It is possible to cut out and acquire the image data of the part of. By doing so, it becomes possible to perform image processing on the image data of only the face.

(Means to extract and quantify color components)
It is provided with a means for extracting a color component from the image data of only the face acquired in this way and quantifying it. As a means for extracting a color component from image data and quantifying it, a computer device in which software such as Photoshop (Adobe, USA) is installed can be mentioned.

(Means to select the most appropriate color conversion profile)
The most suitable means for selecting the most appropriate color conversion profile is based on the numerical value calculated by the means for extracting and quantifying the color component from a plurality of stored color conversion profiles. A computer device with software installed to select the appropriate color conversion profile can be mentioned.

If there is a problem such as overexposure or underexposure in the image of only the face acquired from the face image, the numerical value of the color component extracted from the image is the value of the color component of the image having normal gradation. It is an abnormal value different from (normal value). The color conversion profile represents the specifications of the color conversion for correcting the abnormal value to the normal value. It is possible to set and prepare a color conversion profile corresponding to an abnormal value of a numerical value of various color components. In addition, regarding what kind of abnormal value and which color conversion profile should be used for color conversion, the difference can be determined by grasping the difference between the normal value and the abnormal value for the numerical value of the color component. A color conversion profile that can be corrected can be selected.

(Means for performing image processing of image data of face images)
As described above, after selecting a color conversion profile that can convert image data that does not have normal gradation into image data that has normal gradation, the color conversion process is performed using the color conversion profile. It may be executed using a computer device.

For example, it is possible to convert image data having normal gradation due to overexposure to image data having normal gradation by using image processing software having a color conversion function such as Photoshop. can. The color conversion profile sets the detailed specifications for this color conversion. Not limited to overexposure, blackouts, and when overexposure and underexposure are mixed, it is possible to deal with various gradation defects, tints, and brightness, including the tint and brightness after conversion. It is possible to prepare a different color conversion profile.

(Means to create a face image)
The image data obtained by performing color conversion processing on the image data of only the face to the image data having normal gradation, the image data of the hair part, and the image data from the neck to the bottom of the face. By arranging, at the same position as the original image, it is possible to create a face image having normal gradation. This work can be performed using a computer device in which image processing software such as Photoshop is installed.

[Printing device]
As described above, the face image data created by the image processing device can be printed by sending it to the printing device. The printing device is not particularly limited as long as it can be connected to the computer device used above and can print image data. For example, a card printer, a passport printer, a thermal transfer printer, an inkjet printing device, and the like can be mentioned.

The image processing method, the image processing apparatus, and the printing system of the present invention have been described above. Although the printing system of the present invention has been described when it is composed of an image processing device and a printing device, it does not necessarily have to be an independent device. For example, a computer device may be built in the printing device, and each means of the image processing device may be provided inside the printing device.

Claims (3)

The face image data acquisition process, which deletes the hair and the part below the neck from the face image and acquires the image data of only the face,
A color component extraction process that extracts and digitizes color components from the acquired image data of only the face,
Based on the quantified value of the color component, it is determined whether or not the numerical value of the color component L ^* a ^* b ^* color system is equal to or less than the preset threshold value.
A color conversion profile selection process for selecting each color conversion profile depending on whether the color component value is less than or equal to a preset threshold value or the color component value exceeds the threshold value .
An image processing process that performs image processing for color conversion of image data of only the face using the selected color conversion profile, and
An image processing method characterized by comprising a step of creating a face image by synthesizing the image data of only the face after image processing with the image of the hair and the part below the neck. A means to acquire image data of only the face from the face image,
A means to extract color components from the acquired image data and quantify them,
Based on the quantified value of the color component, it is determined whether or not the numerical value of the color component L ^* a ^* b ^* color system is equal to or less than the preset threshold value.
A means for selecting each color conversion profile depending on whether the numerical value of the color component is equal to or less than a preset threshold value or the numerical value of the color component exceeds the threshold value .
A means for performing image processing for color conversion of image data of a face image using the selected color conversion profile, and
An image processing device comprising: a means for creating a face image by synthesizing image data of only a face after image processing with an image of a part below the hair and neck. A printing system comprising the image processing apparatus according to claim 2 and a printing apparatus.

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