JP3271487B2 - Image database with image characteristics and image processing device - 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 of outputting an image (quality) even when an image is output from an output device different from the input device, or when the output device changes with time or environment. The present invention relates to an image database with an approver (output component such as a hard copy) characteristic and an image processing apparatus which can match with each other.

[0002]

2. Description of the Related Art In recent years, for example, in the field of printing and plate making, computer systems have been widely used. For the purpose of utilizing image data, input devices such as scanners and output devices such as printers and displays have been replaced by peripheral devices. Is usually provided as

[0003] In such a computer system, when image data is output from different output devices, the color reproduction range differs depending on the output device, and the appearance (quality) of the image does not match. There is.

On the other hand, even when image data is output using the same output device, changes in the output device over time (degradation of input / output curves of the device, monitor adjustment, etc.),
The device characteristics may change due to changes in the external environment (changes in temperature, humidity, voltage, and the like), and similarly, the appearance (quality) of the image may not match.

Therefore, conventionally, image data is stored in a device-independent color.

However, since a complete device-independent color cannot theoretically exist, linking of data loss due to image data conversion processing is more problematic, and in reality, data in a device-independent color is No preservation has taken place.

[0007] On the other hand, the condition is that "the device has a calibration function and is stable". Under such a condition, there is an idea to describe the stable device characteristics.

However, there is almost no device having a calibration function capable of maintaining required accuracy due to a change with time of an output device or a change in an external environment. In addition, for example, in proof printing, it is output through a plurality of devices in multiple steps such as film output, negative / positive reversal, printing plate, proof printing, etc., but it is impossible to grasp all of these device characteristics. Near possible.

[0009]

As described above, in the prior art, when an image is output from an output device different from the input device, or when the output device changes with time or changes in the environment. Has a problem that it is difficult to match the appearance (quality) of an image.

A first object of the present invention is to provide an image database with an approver characteristic which can always match the appearance (quality) of an image even when an image is output by an output device different from the input device. An object of the present invention is to provide a processing device.

A second object of the present invention is to provide an image database with an approver characteristic that can always match the appearance (quality) of an image even when the output device changes with time or environment. And an image processing apparatus.

[0012]

First, in order to achieve the first object, an image database with an approver characteristic according to the first aspect of the present invention comprises image data and an output device for outputting the image data. Device profiles, which are calibration output characteristics, are paired for each different output device.
It has a structure in which each image data is individually stored at a ratio of 1: 1.

Further, in order to achieve the second object,
The image database with an approver characteristic according to the invention according to claim 2 is different from the image database according to claim 2, in that the image data and the colorimetric data of the output image when the image data is output by the output device are different.
The image data is stored in a one-to-one correspondence with each image data in association with each output device .

On the other hand, in order to achieve the first object,
An image processing apparatus according to a third aspect of the present invention provides an image processing apparatus that converts image data and a device profile that is a calibration output characteristic of an output device that outputs the image data into different output data.
Based on an image database with an approver characteristic having a structure in which the image data is individually stored in a ratio of 1: 1 for each image data in association with each device, and based on the device profile stored in the image database with the approver characteristic, the image data is displayed as an image. Image processing means for performing a color conversion process for each image data so as to output from the output device with matching (quality).

Further, in order to achieve the second object,
The image processing apparatus according to the fourth aspect of the present invention corresponds to image data and colorimetric data of an output image when the image data is output from an output device, for each different output device.
Based on the image database with an approver characteristic having a structure in which the image data is individually stored at a ratio of 1: 1 for each image data, and based on the colorimetric data stored in the image database with an approver characteristic, the image data is displayed (quality). And an image processing means for performing a color conversion process for each image data so that the image data is output from the output device in accordance with the image data.

Therefore, first, in the image database with approver characteristics according to the first aspect of the invention, the image data and the calibration output characteristics (device profile) of the output device that outputs the image data are stored in different output devices.
By storing each image data in a one-to-one correspondence with each chair , even if the image is output on an output device different from the input device, the image appearance (quality) is always maintained.
Can be subjected to color conversion processing for each image data.

Further, in the image database with approver characteristics according to the second aspect of the present invention, the image data and the colorimetric data of the output image when the image data is output from the output device are stored for each different output device. Mapping
By storing each image data 1: 1 individually,
Even in the case where the output device has changed over time or environment, color conversion processing can be performed for each image data so that the appearance (quality) of the image always matches.

On the other hand, in the image processing apparatus according to the present invention, the image data and the calibration output characteristic (device profile) of the output device for outputting the image data are associated with each of different output devices. Appearance (quality) of image data is matched based on an image database with an approver characteristic having a structure that is individually stored for each image data 1: 1 and a device profile stored in this image database with an approver characteristic By providing image processing means for performing a color conversion process for each image data so that the image data is output from an output device, even when an image is output on an output device different from the input device, the image appearance (quality) is always maintained. Can be subjected to color conversion processing for each image data.

Thus, it is possible to always reproduce a constant approval image in response to a change in the output device.

Further, in the image processing apparatus according to the present invention, the image data and the colorimetric data of the output image when the image data is output by the output device are different from each other.
An image database with an approver characteristic having a structure that is individually stored at a ratio of 1: 1 for each image data in association with each output device , and image data based on the colorimetric data stored in the image database with an approver characteristic. By providing image processing means for performing color conversion processing for each image data so as to match the appearance (quality) of the image and output from the output device, when the output device changes over time and the environment changes. Even, the image always looks (quality)
Can be subjected to color conversion processing for each image data.

Thus, it is possible to always perform a constant reproduction of an image in accordance with a change with time and an environment of the output device.

[0022]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In the present invention, (a) image data,
And a device profile that is proofing characteristics of the output device to output image data, each different output devices
The image database with an approver characteristic individually stored at a ratio of 1: 1 for each image data in association with the image data, or (b) the image data, and the colorimetric data of the output image when the image data is output by the output device, For each different output device
In accordance with this, an image database with an approver characteristic stored individually for each image data at a ratio of 1: 1 is constructed, and the image data is converted into an image using the device profile of the image database with the approver characteristic or the colorimetric data. The color conversion process is performed for each image data so that the appearance (quality) is matched and output from the output device.

Hereinafter, an embodiment of the present invention based on the above concept will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing an example of the configuration of an image processing apparatus having an image database with an approver characteristic according to the present invention.

That is, the image processing apparatus of the present embodiment
As shown in FIG. 1, a scanner 1, which is an input device,
Printer 2 as output device and display 3
And an image processing apparatus main body 4.

Here, the scanner 1 reads image (still image) information of a color original and outputs pixel data (RGB,
Or CMYK).

The printer 2 prints a color image output from the image processing device 4.

Further, the display 3 displays a color image output from the image processing device 4 on a screen.

On the other hand, the main body of the image processing apparatus 4 is composed of, for example, a computer or the like and includes an image database 41 with an approver characteristic and an image processing means 42.

An image database 41 with approver characteristics
Indicates that the image data and the calibration output characteristics (device profiles) of the printer 2 and the display 3 which are output devices for outputting the image data are 1: 1 for each image data.
Has a structure stored individually.

The image database 41 with an approver characteristic stores the image data and the colorimetric data of the output image when the image data is output by the printer 2 and the display 3 as output devices for each image data. 1 has a structure stored individually.

Further, based on the device profile or the colorimetric data stored in the image database 41 with an approver characteristic, the image processing means 42 matches the image data with the appearance (quality) of the image, and outputs the image data to a printer as an output device. 2. A color conversion process is performed for each image data by a predetermined color conversion method (a color matching method in this example) so as to output from the display 3.

FIG. 2 is a conceptual diagram showing an example of the structure of the image database 41 with the approver characteristic.

That is, as shown in FIG. 2A, a device profile pointer, a creation date, and the like are stored for each image file name.

As shown in FIG. 2B, a device name, a machine number, a device profile (device description file name), and colorimetric data (chart colorimetric file name) are provided for each device profile pointer. Is stored.

The device profile is stored in a format as shown in FIG. 3, for example.

That is, this device profile is
As shown in FIG. 3, it is composed of a profile header, a profile, a response, a profile name, and data.

On the other hand, as shown in FIG. 4, pixel data (RGB or CMYK) of an image (still image) of a color original read by the scanner 1 is
Approval image data (pixel data) obtained by output on the printer 2 and the display 3 as output devices and a specific chart of the image data output from the printer 2 and the display 3 on the output device. The colorimetric data is individually stored as one set of 1: 1 for each image data.

Next, the operation of the image processing apparatus of the present embodiment configured as described above will be described.

In FIG. 1, image (still image) information of a color original is read by a scanner 1 and input to an image processing apparatus main body 4 as pixel data (RGB or CMYK).

On the other hand, in the image processing apparatus main body 4, as shown in FIG. 2, the image processing means 42 uses a device profile or colorimetric data stored in advance in an image database 41 with an approver characteristic.
A color conversion process is performed by a predetermined color conversion method (color matching method) for each image data so that the image data is output from the printer 2 and the display 3, which are output devices, with the same appearance (quality) of the image. .

The color-converted image data is output by the printer 2 and the display 3, which are output devices, so that the appearance (quality) of the image matches.

The color conversion method (color matching method) used for the color conversion processing in the image processing means 42.
For example, an n-order matrix conversion scheme of “Y = AX” and a gamut mapping scheme as disclosed in “Japanese Patent Publication No. 5-88589” can be adopted.

The n-th order matrix conversion method of “Y = AX” converts one color data into another color data by, for example, the following determinant. However, when the color reproduction range of the output system is different from the color reproduction range of the input system, the hue is fixed with the white point on the CIE chromaticity diagram as the center point by the gamut mapping, and points outside the color reproduction range of the output system are set within the range. Compression maps to points.

[0045]

(Equation 1)

That is, when the color conversion processing is performed by the n-th order matrix conversion method of “Y = AX”, the color expression range of the printer 2 and the display 3 as output devices may be out of the range.

In such a case, in consideration of color reproducibility, the entire image data is compressed to shift the gradation (see FIG. 4 of the same publication).

FIG. 5 is a conceptual diagram for explaining the gamut mapping method.

This gamut mapping method is a method for associating the image data with the color expression range of the output device, and the following three methods are used.

(A) In the PerceptualMatch method, the brightest color (white point) of the image data and the darkest color (black point) of the image data are matched to those of the printer 2 and the display 3 as output devices. Next, other colors are converted so as to maintain a correlation with the white point and the black point. As a result, all colors are converted into different colors, but the relationship between the colors is maintained. This method is suitable for a large number of colors such as a photograph.

(B) Colorimetric Matc
In the h method, a portion where the image data and the color expression range of the output device overlap is left as it is. Then, the protruding portion is mapped onto the outer edge of the color expression range of the conversion destination without changing the brightness. This method is suitable for faithfully expressing colors such as a company logo mark.

(C) In the SaturationMatch method, a protruding portion is compressed without changing the saturation as much as possible. This method is, for example, a CG (Compute)
rGrapics).

In this embodiment, such a color conversion method
In addition, parameters and the like used for color conversion can be provided for each image.

As described above, the image processing apparatus of the present embodiment reads the image (still image) information of a color document and outputs the pixel data (RGB or CMYK) as the scanner 1, which is an input device. Printer 2 and display 3, which are output devices for printing and displaying on a screen a color image output from the apparatus 4, image data, printer 2, which is an output device for outputting this image data, and calibration of display 3. Output characteristics (device profile) are individually stored for each image data at a ratio of 1: 1. Further, the image data and the colorimetry of an output image when the image data is output by the printer 2 and the display 3 as output devices. And an image with an approver characteristic having a structure in which data is individually stored for each image data at a ratio of 1: 1. Based on the device profile or the colorimetric data stored in the database 41 and the image database 41 with the approver characteristic, the image data is output from the printer 2 and the display 3 as output devices while matching the appearance (quality) of the image. As described above, the image processing apparatus main body 4 having the image processing means 42 for performing the color conversion processing by a predetermined color conversion method (color matching method) for each image data.

Therefore, the image data and the calibration output characteristics (device profile) of the printer 2 and the display 3 which are output devices for outputting the image data are individually stored for each image data at a ratio of 1: 1 to form a database. Therefore, even when an image is output using an output device different from the input device, it is possible to perform color conversion processing for each image data so that the appearance (quality) of the image always coincides.

Thus, it is possible to always reproduce a constant approver image in response to a change in the output device.

The image data and the colorimetric data of the output image when the image data is output from the printer 2 and the display 3 as output devices are defined as follows:
Since the data is stored individually in a database in step 1, the output device may have changed over time (deterioration of device input / output curve, monitor adjustment, etc.) and external environment changes (changes in temperature, humidity, voltage, etc.). Even in such a case, it is possible to perform the color conversion processing for each image data so that the appearance (quality) of the image always matches.

As a result, it is possible to always perform a constant appropriative image reproduction in response to the aging of the output device and environmental changes.

As described above, all the problems of the prior art as described above can be solved.

It should be noted that the present invention is not limited to the above-described embodiment, but can be similarly implemented as the following embodiments.

(A) In the above embodiment, the image data 41 and the calibration output characteristics (device profiles) of the output devices (printer 2 and display 3) for outputting the image data are used as the image database 41 with the approver characteristics.
Are stored individually for each image data at a ratio of 1: 1. Further, the image data and the colorimetric data of the output image when this image data is output by the output device (the printer 2 and the display 3) are stored in the image data. A case has been described in which structures that are individually stored at a ratio of 1: 1 are constructed, but the present invention is not limited to this.
The image data and the calibration output characteristics (device profiles) of the output devices (printer 2 and display 3) that output the image data are defined as:
1 to construct a structure stored individually, or to output image data and this image data to an output device (printer 2,
It goes without saying that only one of the structures in which the colorimetric data of the output image output on the display 3) is individually stored at a 1: 1 ratio for each image data may be constructed. .

(B) In the above embodiment, the case where the output device is a printer and a display has been described. However, the present invention is not limited thereto, and the present invention is similarly applied to a case where the output device is a chemical loop or a proof press. To obtain the same operation and effect as described above.

(C) In the above embodiment, a case has been described in which color conversion is performed by a color matching method as a color conversion method for image data. However, the present invention is not limited to this, and other color conversion methods for image data may be used. Color conversion processing of image data may be performed by a color conversion method.

[0064]

As described above, according to the first aspect of the present invention, the image data and the device profile which is the calibration output characteristic of the output device that outputs the image data are set for different output devices. Since it has a structure in which each image data is individually stored at 1: 1 in association with
Even when an image is output by an output device different from the input device, it is possible to provide an image database with an appearance characteristic that can always match the appearance (quality) of the image.

According to the invention corresponding to claim 2,
The image data and the colorimetric data of the output image when the image data is output from the output device are stored in different output devices.
Has a structure in which each image data is stored in a one-to-one correspondence with each image data, so that even if the output device changes over time or environment changes, the image appearance (quality) always matches. It is possible to provide an image database with approver characteristics that can be executed.

On the other hand, according to the invention corresponding to claim 3,
Image data and a device profile that is a calibration output characteristic of an output device that outputs the image data are different from each other.
Based on the device database stored in the image database with an approver characteristic having a structure in which the image data is individually stored at a ratio of 1: 1 for each image data in association with each output device , the image data is Image processing means for performing a color conversion process for each image data so that the appearance (quality) of the image is matched and output from the output device, so that the image is output on an output device different from the input device Even in such a case, it is possible to provide an image processing apparatus that can always match the appearance (quality) of an image.

According to the invention corresponding to claim 4,
The image data and the colorimetric data of the output image when the image data is output from the output device are stored in different output devices.
In association with each scan for each image data 1: 1 and the image database with Approval characteristic having a structure obtained by individually stored in, based on the colorimetric data stored in the image database with Approval characteristics, the image data image Appearance (quality)
Image processing means for performing a color conversion process for each image data so as to output the same from the output device so that the image data is output from the output device. Image processing device that can match the appearance (quality) of the image.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of an image processing apparatus provided with an image database with approver characteristics according to the present invention.

FIG. 2 is an exemplary conceptual view showing an example of the structure of an image database with an approver characteristic in the image processing apparatus according to the embodiment.

FIG. 3 is an exemplary conceptual view showing an example of a format of a device profile constructed in an image database with an approver characteristic in the image processing apparatus according to the embodiment;

FIG. 4 is an exemplary view showing an example of a procedure for constructing colorimetric data in an image database with an approver characteristic in the image processing apparatus of the embodiment.

FIG. 5 is a conceptual diagram for explaining a gamut mapping method, which is one of the color conversion methods in the image processing apparatus according to the embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Scanner, 2 ... Printer, 3 ... Display, 4 ... Image processing apparatus main body, 41 ... Image database with approver characteristics, 42 ... Image processing means.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ identification code FI H04N 1/21 H04N 1/46 Z 1/46 G09G 5/36 520A (58) Investigated field (Int.Cl. ⁷ , DB name) ) H04N 1/40-1/409 H04N 1/46-1/64 H04N 1/21

Claims (4)

(57) [Claims] An image data and a device profile, which is a calibration output characteristic of an output device for outputting the image data, are stored in a one-to-one correspondence with each of the image data in association with each different output device. An image database with approval characteristics, characterized by having a structured structure. 2. Image data and colorimetric data of an output image when the image data is output from an output device are different from each other.
1 for each image data in association with each output device
An image database with approver characteristics, characterized in that it has a structure stored individually in 1. 3. The image data and a device profile, which is a calibration output characteristic of an output device that outputs the image data, are stored in a one-to-one correspondence with each of the image data in association with each different output device. Based on an image database with an approver characteristic having a structured image and a device profile stored in the image database with an approver characteristic, the image data is output from the output device so as to match the appearance (quality) of the image. An image processing apparatus, comprising: image processing means for performing a color conversion process for each data. 4. The image data and colorimetric data of an output image when the image data is output by an output device are different from each other.
1 for each image data in association with each output device
Based on the image database with the appearance characteristic having the structure individually stored in step 1 and the colorimetric data stored in the image database with the appearance characteristic, the image data is output by matching the appearance (quality) of the image. Image processing means for performing a color conversion process for each image data so as to output from a device.