JP2002135607A - System for image color matching service, image-retaining server for the service, monitor profile retaining server for the service and method for the service - Google Patents

Abstract

PROBLEM TO BE SOLVED: To distribute image data for displaying real colors on the monitors of respective terminals. SOLUTION: In a system, provided with one or plural terminals having a monitor, one or plural image-storing server for storing the image data and the original profile of the image data and a monitor profile storing server for storing the monitor profile of the monitor belonging to the terminals and having the terminals and the servers connected to a network, each image storing server is provided with a means for receiving an image transmission request from the terminals and having the monitor profile of the monitor belonging to the terminals sent from the monitor profile storing server and a means for performing the chrominance conversion of the image data, based on the monitor profile sent from the monitor profile storing server and the original profile of the image data and transmitting it.

Description

DETAILED DESCRIPTION OF THE INVENTION

The present invention relates to an image color matching service system, an image color matching service image storage server, an image color matching service monitor profile storage server, and an image color matching service method.

TECHNICAL FIELD OF THE INVENTION

[0002]

2. Description of the Related Art Generally, image data is sent from a server to a terminal and an image is displayed on a monitor of the terminal. This image data is generated by an R created in a specific environment.
GB image data, which is stored in the server.

[0003]

However, there are various types of monitors for terminals, and the color characteristics are usually different depending on the manufacturer and the monitor type (CRT, liquid crystal, etc.).

[0004] For this reason, even if image data that reproduces true colors in a specific environment is created, in an open network such as the Internet, since there are various types of terminal monitors, the image data is When displayed on each monitor, a different color appears on each monitor even though the same image data is displayed, which causes a problem that a true color is not reproduced.

[0005] The present invention has been made in view of the drawbacks of the related art, and has as its object to distribute image data in which true colors are displayed on a monitor of each terminal.

[0006]

In order to achieve the above object, according to the present invention, first, one or more terminals having a monitor, image data and an original profile of the image data are stored. One or more image storage servers for image color matching services,
A system in which each terminal and each server are connected to a network, comprising a monitor profile storage server for an image color matching service that stores a monitor profile of a monitor of the terminal. Means for receiving an image transmission request from a terminal and transmitting a monitor profile of a monitor of the terminal from a monitor profile storage server for an image color matching service; Means for transmitting color image data to a terminal based on the monitor profile transmitted from the service monitor profile storage server and the original profile of the image data. It is obtained by a quenching service system.

According to a second aspect of the present invention, a means for storing a monitor profile creation program in a monitor profile storage server for an image color matching service, and a monitor profile for an image color matching service in accordance with a user's instruction made at a terminal. Means for the storage server to send the monitor profile creation program to the terminal;
When the terminal executes the monitor profile creation program, a plurality of images are displayed on the monitor of the terminal, and the user is prompted to select an image closest to the printed matter from among the images, based on the image selected by the user. 2. An image color matching service system according to claim 1, further comprising: means for creating a monitor profile; and means for transmitting the created monitor profile from a terminal to a monitor profile storage server for an image color matching service. It is what it was.

According to the third aspect of the present invention, one or a plurality of terminals having a monitor and a monitor profile storage server for an image color matching service for storing a monitor profile of the monitor of the terminal are connected to a network. A server that stores image data and an original profile of the image data, receives an image transmission request from a terminal, and receives a monitor profile of a monitor of the terminal from a monitor profile storage server for an image color matching service. Means, and means for color-converting the image data based on the monitor profile sent from the monitor profile storage server for the image color matching service and the original profile of the image data and transmitting the color-converted image data to the terminal. To be It is obtained by the image storage server for image color matching service.

According to the present invention, one or more terminals having a monitor and an image storage server for an image color matching service for storing image data and an original profile of the image data are connected to a network. A server for storing a monitor profile of a monitor included in the terminal, comprising means for transmitting the monitor profile to the image storage server for image color matching service in response to a request from the image storage server for image color matching service. Receiving an image transmission request from a terminal, requesting a monitor profile of a monitor of the terminal from a monitor profile storage server for an image color matching service, Based on the monitor profile transmitted from the file storage server and the original profile of the image data, the image data is color-converted and transmitted to the terminal, and the monitor profile storage server for the image color matching service is provided. Things.

According to a fifth aspect of the present invention, a means for storing a monitor profile creation program, a means for providing a monitor profile creation program to a terminal in response to a user's instruction made at the terminal, Receiving means, wherein the monitor profile creation program is executed by the terminal to display a plurality of images on the monitor of the terminal, and to select an image closest to the printed matter from the images. 5. A monitor profile storage server for an image color matching service according to claim 4, wherein a monitor profile is created based on an image selected by the user.

According to the invention of claim 6, one or more terminals having a monitor, one or more image storage servers for image color matching service for storing image data and an original profile of the image data, and the terminal comprises: Providing a monitor profile storage server for an image color matching service for storing a monitor profile of a monitor having the same, and connecting each terminal and each server to a network; and transmitting an image transmission request from the terminal to the image storage server for the image color matching service. Receiving the monitor profile of the monitor provided by the terminal from the monitor profile storage server for the image color matching service, and the image storage server for the image color matching service includes a monitor profile storage server for the image color matching service. And performing a color conversion of the image data based on the monitor profile transmitted from the server and the original profile of the image data and transmitting the color converted image data to the terminal. is there.

According to a seventh aspect of the present invention, an image storage server for an image color matching service for storing image data and an original profile of the image data is provided, and the image storage server for the image color matching service is one or more having a monitor. Connecting to a network to which the terminal and the image color matching service monitor profile storage server that stores the monitor profile of the monitor of the terminal are connected; and Receiving a transmission request and transmitting a monitor profile of a monitor of the terminal from a monitor profile storage server for image color matching service; An image color matching service method comprising the steps of: performing color conversion of image data based on the monitor profile transmitted from the monitor profile storage server and the original profile of the image data and transmitting the color converted image data to the terminal; It was done.

According to the present invention, a monitor profile storage server for an image color matching service for storing a monitor profile of a monitor of the terminal is provided.
One or more terminals having a monitor and one or more image color matching service image storage servers that store image data and original profiles of image data are connected to the image color matching service monitor profile storage server. Connecting to the network, and receiving the image transmission request from the terminal, transmitting the monitor profile of the monitor of the terminal from the monitor profile storage server for the image color matching service. And the image storage server for the image color matching service receives the image based on the monitor profile transmitted from the monitor profile storage server for the image color matching service and the original profile of the image data. And transmitting the data to the color conversion device is obtained by an image color matching service method, which comprises a.

According to the ninth aspect of the present invention, the monitor profile creation program is stored in the monitor profile storage server for the image color matching service, and the monitor profile creation program is stored in the image color matching service in accordance with the user's instruction given by the terminal. A step in which the monitor profile storage server for the matching service transmits to the terminal;
When the terminal executes the monitor profile creation program, a plurality of images are displayed on the monitor of the terminal, and the user is prompted to select an image closest to the printed matter from among the images, based on the image selected by the user. 9. The image according to claim 6, further comprising: a step of creating a monitor profile; and a step of sending the created monitor profile from a terminal to a monitor profile storage server for an image color matching service. This is a color matching service method.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below.

1: Hardware Configuration of Image Color Matching Service System of the Present Invention As shown in FIG. 1, an image color matching service system of the present invention includes one or more terminals and one or more image color matching services. A service image storage server,
A monitor profile storage server for an image color matching service is provided, and each terminal and each server are connected to a network. For simplicity of description, the image storage server for the image color matching service is abbreviated as an image storage server in this specification. A monitor profile storage server for an image color matching service is abbreviated as a monitor profile storage server.

The network may be an open one such as the Internet, or may be a dedicated line. In addition, it does not matter whether it is wired or wireless.

2: Hardware Configuration of Terminal or Server As shown in FIG. 2, the terminal and the server have a central processing unit, a main storage device, an auxiliary storage device, an output device, an input device, and a communication control device. And a computer in which these devices are connected by a bus.

The central processing unit is a device for executing a program.

The main storage device is a device for temporarily storing programs and data so that the central processing unit executes the programs.

The auxiliary storage device is a device for permanently storing programs and data.

The output device is a device for outputting information (data) to a user, such as a display device (monitor) for temporarily displaying information (data) and a printer for printing out information (data). The terminal has at least a monitor.

The input device is a device for inputting information (data) such as a keyboard and a mouse.

The communication control device is a device for controlling input and output of data through a network.

The program stored in the auxiliary storage device is loaded into the main storage device and executed by the central processing unit.

The auxiliary storage device of the monitor profile storage server stores at least an operating system, monitor profile storage server software, and a monitor profile creation program as programs. The auxiliary storage device of the monitor profile storage server stores at least the terminal I as data.
D and the monitor profile are stored and managed by the monitor profile storage server software. The terminal ID identifies each terminal. Also, the terminal ID and the monitor profile have a one-to-one correspondence, and the monitor profile corresponding to the terminal ID is:
This is a monitor profile of a monitor provided in the terminal identified by the terminal ID. The monitor profile storage server stores the number of monitor profiles transmitted to the image storage server in the auxiliary storage device for each image storage server. This is for charging based on this number.

The auxiliary storage device of the image storage server stores at least an operating system, Web server software, and an image conversion engine as programs. Further, in the auxiliary storage device of the image storage server, at least image data and
Original profile and H called Web page
A TML file is stored. This image data is displayed on a monitor having a color characteristic characterized by the original profile, and a true color is displayed. The image conversion engine converts the image data based on the original profile and the monitor profile so that a monitor having a color characteristic characterized by the monitor profile displays a true color. is there.

The auxiliary storage device of the terminal stores at least an operating system, a Web
Browser software is stored. Further, at least the terminal ID is stored as data in the auxiliary storage device of the terminal. For example, if the network is the Internet and the terminal is connected by a dedicated line IP connection, the terminal ID is an IP address assigned to the terminal. For example, if the network is the Internet and the terminals are connected by dial-up IP connection, the terminal ID is the domain name of the provider and the user ID assigned by the provider.

3: Image color matching service For a terminal whose terminal ID and monitor profile are stored in the monitor profile storage server, the image storage server has the image data stored in the image storage server. Provides image color matching services that are converted and provided according to the color characteristics of the monitor. An example of the flow of processing for executing the image color matching service will be described below with reference to the flowchart of FIG. It is assumed that the user has activated the Web browser on the terminal.

S (STEP) 1: The terminal transmits an image transmission request together with the terminal ID to the image storage server. This image transmission request is made, for example, when the user inputs the URL of a Web page in which an image is embedded using the input device provided in the terminal.

S (STEP) 2: The image storage server receives the image transmission request together with the terminal ID, and transmits the terminal ID to the monitor profile storage server so that the monitor profile corresponding to the terminal ID is transmitted. Request to monitor profile storage server.

S (STEP) 3: The monitor profile storage server receives the terminal ID and transmits a monitor profile corresponding to the terminal ID to the image storage server. At this time, the monitor profile storage server reads the number of monitor profiles transmitted to the image storage server from the auxiliary storage device to the main storage device, and adds 1 to the number of monitor profiles newly transmitted to the image storage server. Is stored in the auxiliary storage device.

S (STEP) 4: The image storage server receives the monitor profile, and performs color conversion of the image data based on the monitor profile and the original profile.

S (STEP) 5: The image storage server transmits the color-converted image data to the terminal.

S (STEP) 6: The terminal receives the color-converted image data and displays the image data on a Web browser.

4: Monitor profile creation service A user creates a monitor profile for a monitor of a terminal operated by the user by using the system of the present invention, and stores the monitor profile in the monitor profile storage server of the present invention. You can receive creation service. In the following, according to the flowchart of FIG. 4, one of the overall processing flows of the monitor profile creation service is described.
An example will be described. It is assumed that the user has already activated the Web browser.

S (STEP) 1; the user uses the terminal
When the terminal is instructed to provide a monitor profile creation service using an input device provided in the terminal, the terminal:
Web with embedded monitor profile creation program
Request the monitor profile storage server to send the page.

S (STEP) 2: The server generates a Web page in which the monitor profile creation program is embedded, or reads out the Web page from the auxiliary storage device and transmits the Web page to the terminal.

S (STEP) 3: The terminal receives the Web page in which the monitor profile creation program is embedded, and receives the Web page in which the monitor profile creation program is embedded.
By displaying the web page on the monitor with a web browser and executing the monitor profile creation program, the user can display a plurality of images on the monitor of the terminal and select the image closest to the printed matter from the images. To create a monitor profile based on the image selected by the user. The details of the processing by the monitor profile creation program will be described later.

S (STEP) 4: The terminal sends the created monitor profile to the server together with the terminal ID.

S (STEP) 5: The server receives the monitor profile together with the terminal ID, and receives the received terminal ID.
Is stored (registered) in the auxiliary storage device. The received terminal ID is stored (registered) in the auxiliary storage device.
If so, proceed to STEP6. On the other hand, if the received terminal ID is not stored (registered) in the auxiliary storage device, the process proceeds to STEP7.

S (STEP) 6: The server updates the monitor profile stored in the auxiliary storage device with the received monitor profile.

S (STEP) 7: The server stores (registers) the monitor profile in the auxiliary storage device together with the terminal ID.

5: Creation of Monitor Profile in Terminal Here, how the monitor profile created by the terminal is created by the execution of the monitor profile creation program by the terminal will be described in detail.

5-1: Monitor Profile In order to create a monitor profile (a file describing the color characteristics of the monitor), R chromaticity points, G chromaticity points, B chromaticity points R gamma characteristics, G gamma characteristics , B gamma characteristics are required. Here, R, G and B are Red and Blu, respectively.
e, which stands for Green.

5-2: Gamma Characteristic The gamma characteristic is determined by the relationship between the input beam and the output beam (OUT = INγ or OUT = IN
^{1 /} γ), and in the case of a CRT monitor, γ = 1.8, 2.2
(Or 0.45, 0.55) is common.

For example, γ = 1.8 and γ = 2.2 (RGB
When the same image data is displayed on a monitor having the same value, as shown in FIG. 5, in the halftone, γ = 2.
2 is displayed brighter.

By the way, although the gamma characteristic is defined separately for R, G, and B, most monitors have the same value. Therefore, in the present embodiment, the gamma characteristic is
Description will be made on the assumption that R, G, and B have the same value.

5-3: RGB Chromaticity Point The chromaticity point represents the colorimetric value of the color when the maximum value of the signal (for example, Red) is displayed. Colorimetric values can be broadly classified into hue (color type: red, blue, yellow, etc.) and saturation (color intensity: how vivid). Based on the test results, the direction (hue) The same applies to any monitor, and the only difference is the color strength (saturation).

For example, when the same image data is displayed on a monitor having a strong Red and a monitor having a weak Red, the same image data is displayed as shown in FIG. 6, and the distinction clearly appears particularly in white and gray colors.

5-4: Basic Principle Here, the basic principle of the monitor profile creation method will be described. In order to obtain information on “gamma characteristics” and “chromaticity points” based on a printed matter, first, as a material, “printed matter”
"Image data that looks the same color on printed matter and standard monitor"
And prepare. This is shown in FIG. The "standard monitor" here does not mean that all monitors are standard, but names one existing monitor as standard. “Image data that looks the same color on a printed matter and a standard monitor” is also referred to as standard image data.

When the standard image data is displayed on another monitor, the printed matter to be referred to and the monitor display image look different due to the difference in characteristics between the monitor and the standard monitor. This is shown in FIG.

For example, the gamma characteristic of the standard monitor is 1.8
If the other monitor is 2.2, the standard image looks brighter in halftone than the printed matter. As shown in FIG. 9, when standard image data and “dark” image data obtained by multiplying the standard image data by an input / output curve of 1.8 / 2.2 are displayed on this monitor, the curves are applied. The "dark" image data looks closer to the color of the printed matter than the non-standard image data. Thus, prompting the user to select an image that looks the same as the printed matter will select a "dark" image.

Similarly, when the standard image data is displayed on another monitor whose Red is stronger than that of the standard monitor, the image looks redr than the printed matter. This is shown in FIG. On this separate monitor, as shown in FIG. 11, standard image data and
When displaying "blue (weak)" image data obtained by multiplying standard image data by an input / output curve that linearly lowers Red,
The “blue (weak)” image data looks closer to the color of the printed matter than the standard image data without a curve. Therefore, if the user is prompted to select an image that looks the same as the printed matter, he will select a "blue (weak)" image.

In the present invention, between the image displayed on the monitor and between the image displayed on the monitor and the printed matter,
A photograph is used as an image for easy visual comparison.

5-5: Monitor Profile Creation Processing As described above, the terminal has the monitor profile creation program transmitted from the monitor profile storage server, and executes the monitor profile creation program to create a monitor profile. You. The following describes one of the processing flows for creating a monitor profile.
An example will be described according to the flowchart of FIG.

STEP 1: In order to obtain the gamma characteristic of the monitor, the terminal has the standard image data a transmitted from the monitor profile storage server, and changes the halftone (bright, intermediate) , Dark) and display them on the monitor. For example, as shown in FIG. 12, as a specific value, image data obtained by multiplying the standard image data a by a gamma value curve obtained by adding 0.5, 0.0, and -0.5 to 1.0. Create and view them. The user looks at these three images, and selects an image similar to a printed matter using an input device such as a mouse.

STEP2: The terminal further reduces the rate of change with respect to the standard image data a to create three images with halftone changes (bright, middle and dark) and displays them on the monitor. For example, as a specific value, the image data obtained by multiplying the standard image data a by a curve having a gamma value obtained by adding 0.2, 0.0, and −0.2 to the value selected in STEP 1 respectively. Create and view them. The user looks at these three images, and selects an image similar to a printed matter using an input device such as a mouse.

STEP3: In order to obtain information on the brightness of the monitor, the terminal has the monitor profile storage server transmit the standard image data d (the one in which the change in the maximum brightness of the monitor is easy to understand, for example, a yellow image). Three of the standard image data d with the maximum value change (bright, middle, dark) are created and displayed on the monitor. For example, as shown in FIG.
Image data having a value obtained by adding 0.1, 0.0, and -0.1 to 1.0 as a maximum value (equivalent to RGB) is created and displayed. The user looks at these three images, and selects an image similar to a printed matter using an input device such as a mouse.

STEP4: In order to acquire the strength of the monitor Red, the terminal has the standard image data b transmitted from the monitor profile storage server, and changes the Red with respect to the standard image data b (strong, intermediate , Weak) and display them on the monitor. For example, FIG.
As shown in FIG. 4, image data having a maximum value obtained by adding 0.2, 0.0, and -0.2 to 1.0 as a specific value is created and displayed. The user looks at these three images, and selects an image similar to a printed matter using an input device such as a mouse.

STEP 5: The terminal further reduces the rate of change with respect to the standard image data b, creates three pieces of data with a change in Red (strong, medium, weak) and displays them on the monitor. For example, as specific values, image data having a maximum value obtained by adding 0.1, 0.0, and −0.1 to the value selected in STEP 4 is created and displayed. The user looks at these three images, and selects an image similar to a printed matter using an input device such as a mouse.

STEP 6: The terminal receives standard image data c from the monitor profile storage server in order to acquire the intensity of the blue of the monitor, and changes the blue (strong, intermediate) with respect to this standard image data c. ,weak)
Create three items marked with and display them on the monitor. For example,
As in the case of Red, image data having a maximum value obtained by adding 0.2, 0.0, and -0.2 to 1.0 as a specific value is created and displayed. . The user
Looking at these three images, an image similar to a printed matter is selected with an input device such as a mouse.

STEP 7: The terminal further reduces the rate of change with respect to the standard image data c, creates three blue changes (strong, medium, weak) and displays them on the monitor. For example, as in the case of Red, as a specific value, the value selected in Step 6 is 0.
Image data having a maximum value obtained by adding 1, 0.0, and -0.1 is created and displayed. The user can use these 3
The user looks at the two images and selects an image close to the printed matter using an input device such as a mouse.

STEP 8: The central processing unit of the terminal calculates the gamma characteristic of the monitor by the following equation. Gamma characteristic = standard monitor gamma value ÷ value selected in STEP 2 × K ₁ . Here, K ₁ is an empirically determined coefficient. Further, the value selected in STEP 2 is selected from a plurality of values obtained by adding different changes to the value selected in STEP 1, and thus includes the influence of the value selected in STEP 1.

STEP 9: The central processing unit of the terminal calculates a Red chromaticity point for each XYZ component of the XYZ color system as an intermediate process for obtaining the R chromaticity point of the monitor by the following equation. Red chromaticity point = standard monitor R chromaticity point × value selected in STEP 5 × K ₂ . Here, K ₂ is an empirically determined coefficient. Further, the value selected in STEP 5 is selected from a plurality of values obtained by adding different changes to the value selected in STEP 4, and thus includes the influence of the value selected in STEP 4.

STEP 10: The central processing unit of the terminal calculates the Blue chromaticity point for each XYZ of the XYZ color system as an intermediate process for obtaining the B chromaticity point of the monitor by the following equation. Blue chromaticity point = standard monitor B chromaticity point × value selected in STEP 7 × K ₃ . Here, K ₃ is an empirically determined coefficient. Further, the value selected in STEP 7 is selected from a plurality of values obtained by adding different changes to the value selected in STEP 6, and thus includes the influence of the value selected in STEP 6.

STEP 11: The central processing unit of the terminal calculates the sum Y by the following equation. Total Y = Y component of Red chromaticity point obtained in STEP 9 + S
Y component of Blue chromaticity point calculated in TEP10 + Y component of standard monitor G chromaticity point.

STEP12: The central processing unit of the terminal calculates the normalization ratio r by the following equation. Normalized ratio r = value selected in STEP 3 × K ₄ ÷ sum Y. Here, K ₄ is an empirically determined coefficient.

STEP13: The central processing unit of the terminal is X
The R chromaticity point of the monitor is calculated by the following formula for each XYZ component of the YZ color system. Monitor R chromaticity point = normalized ratio r × Red chromaticity point obtained in STEP9.

STEP14: The central processing unit of the terminal is X
The G chromaticity point of the monitor is calculated by the following formula for each XYZ component of the YZ color system. Monitor G chromaticity point = normalized ratio r × standard monitor G chromaticity point.

STEP15: The central processing unit of the terminal is X
The B chromaticity point of the monitor is calculated by the following equation for each XYZ component of the YZ color system. Monitor B chromaticity point = Normal ratio r × Blue chromaticity point obtained in STEP10.

STEP16: The central processing unit of the terminal is X
For each XYZ component of the YZ color system, the white point of the monitor is
It is calculated by the following formula. Monitor white point = Monitor R chromaticity point + Monitor G chromaticity point + Monitor B chromaticity point.

Step 17: The central processing unit of the terminal stores the gamma characteristic of the monitor, the R chromaticity point of the monitor, the G chromaticity point of the monitor, the B chromaticity point of the monitor, and the white point of the monitor in a file, and It is stored in a storage device or an auxiliary storage device. This file is the monitor profile.

5-6: Others Since the gamma characteristics are obtained as RGB equivalent values,
A gamma characteristic is obtained only in EP1 and EP2.

The reason why the strength of Green is not obtained is that Cr is not obtained.
This is because een is determined to have a large luminance component and a small color component.

STEP 3 is for acquiring absolute monitor brightness, and is not necessary if only relative information (for color conversion) is to be acquired. In that case, the normalized ratio r
Is calculated as follows. Normalized ratio r = 1.0 ÷ sum Y.

In each of STEPs 1 to 7, the number of images to be selected is three in order to prevent the user from feeling stressed, and may be three or more. Gamma characteristics, Red strength, Bl
The reason why the image selection is performed twice in order to acquire the strengths of ue and each of them is to prevent the user from feeling stressed. If that is not a problem, the greater the number of times, the better the accuracy. In addition, what is exemplified here as specific values is not absolute, but is described for "performing with such values".

Further, in this processing, the same standard image data a is used when the image is selected twice to obtain the gamma characteristic. However, different standard image data may be used each time. . Similarly, when the image selection is performed twice in order to acquire the strength of Red, the same standard image data b is used, but different standard image data may be used each time. Similarly, the same standard image data c is used when image selection is performed twice in order to acquire the strength of Blue, but different standard image data may be used each time.

FIG. 16 shows gamma characteristics, maximum brightness,
5 shows an example of an image displayed on a monitor to acquire the strength of Red and the strength of Blue. In this example, a photograph is used as the image, but it is easy to visually detect the difference between the image displayed on the monitor and between the image displayed on the monitor and the printed matter. Because there is. The images displayed on the monitor to obtain the gamma characteristic, the maximum value of the brightness, the intensity of Red, and the intensity of Blue are visually observed, and the gamma characteristic, the maximum value of the brightness, It goes without saying that the change of the strength and the strength of Blue is easy to understand.

6: Distribution of Printed Materials When creating a monitor profile, printed materials used by a user to select a plurality of images to be displayed on a monitor are distributed in the following manner.

The first method is to bundle printed matter with products of a monitor maker or a computer maker. That is, when a user purchases a terminal from a computer maker or when a user purchases a monitor constituting the terminal, a printed matter is attached as an appendix. In this case, the monitor maker or the computer maker bears the cost of creating the printed matter and the fee for using the monitor profile creation service, so that the user can create the monitor profile for free.

The second method is to include in a catalog of a mail order company that sells products such as apparel whose colors have important meanings for consumers' purchasing decisions on the Internet.
It is imprinted. That is, a page in a catalog distributed to a member of the mail order company becomes a printed material used by the user to select a plurality of images to be displayed on the monitor. In this case, the mailing company bears the cost of imprinting on the catalog and the usage fee of the monitor profile creation service, so that the user can create the monitor profile free of charge.

The third method is to sell printed matter to users by mail order on the Internet. in this case,
The price of the printed matter includes the production cost of the printed matter and the fee for using the monitor profile creation service. However, since the printed matter can be mass-produced, the production cost is small. Further, in the present invention, since it is not necessary to record the monitor profile creation program on the recording medium,
The usage fee of the monitor profile creation service can be set at an extremely low price compared to selling the monitor profile creation program recorded on a recording medium.

Therefore, the user can create a monitor profile free of charge or at a price that can be ignored.

7: Commercial Activities Utilizing the System of the Present Invention Here, Web shopping will be described as an example of commercial activities utilizing the system of the present invention. In this case, the image storage server is a Web server managed by a mail order company. By accessing the image storage server from a terminal, a general consumer can search for desired products by various search methods, browse product information, and place an order for a product. The product information naturally includes images such as photos and illustrations of the product.

The monitor profile storage server is managed by a company that provides an image color matching service. This business is referred to as an image color matching service business for convenience.

As described above, when a monitor profile is created, a printed material used by a user to select a plurality of images to be displayed on a monitor is a merchandise catalog (printed material) provided free of charge to general consumers by a mail-order company. Distribute as part of

The image color matching service company charges the mailing company for the use of the image color matching service according to the number of times the monitor profile transmitted to the image storage server managed by the mail order company is transmitted.

[0089]

As can be understood from the above description, the present invention has the following effects.

According to the first, third, fourth, sixth, seventh and eighth aspects of the present invention, the image data is centrally managed by the image storage server, and the image storage is performed based on the monitor profile transmitted from the monitor profile storage server. Since the server performs the color conversion, there is an effect that image data in which the true color is displayed on the monitor of each terminal can be distributed.

The inventions of claims 2, 5, and 9 provide, in addition to the effects of the inventions of claims 1, 3, 4, 6, 7, and 8, at no cost to the user or at a negligible price.
There is an effect that a monitor profile can be created. In addition, when a photograph is used as an image according to the second, fifth, and ninth aspects of the present invention, an image displayed on a monitor is
In addition, since the difference between the image displayed on the monitor and the printed matter can be easily distinguished visually, there is an effect that a monitor profile can be created simply and accurately.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing a hardware configuration of an image matching service system of the present invention.

FIG. 2 is an explanatory diagram showing a hardware configuration of a terminal or a server.

FIG. 3 is a flowchart illustrating an example of a process flow for executing an image color matching service.

FIG. 4 is a flowchart showing an example of the overall processing flow of a monitor profile creation service.

FIG. 5 is an explanatory diagram illustrating gamma characteristics.

FIG. 6 is an explanatory diagram illustrating the strength of R.

FIG. 7 is an explanatory diagram for explaining that a printed matter and standard image data appear in the same color on a standard monitor.

FIG. 8 is an explanatory diagram illustrating that a standard image and a printed matter look different colors on another monitor having characteristics different from those of the standard monitor.

FIG. 9 is an explanatory diagram illustrating a basic principle of measuring a gamma characteristic.

FIG. 10 is an explanatory diagram for explaining that a standard image and printed matter look different colors on another monitor having a higher R than the standard monitor.

FIG. 11 is an explanatory diagram illustrating a basic principle of measuring a chromaticity point.

FIG. 12 is an explanatory diagram showing how to change the gamma value.

FIG. 13 is an explanatory diagram showing how to change the maximum value of brightness.

FIG. 14 is an explanatory diagram showing how to change the strength of R.

FIG. 15 is a flowchart illustrating the flow of a monitor profile creation process.

FIG. 16 is an explanatory diagram exemplifying an image displayed on a monitor to acquire a gamma characteristic, a maximum value of brightness, a strength of Red, and a strength of Blue.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04N 7/08 H04N 1/40 D 5C082 7/081 7/08 Z 9/64 (72) Inventor Yasujiro Ogawa 1-5-1, Taito, Taito-ku, Tokyo Toppan Printing Co., Ltd. (72) Inventor Akihiro Yamada 1-5-1, Taito, Taito-ku, Tokyo Toppan Printing Co., Ltd. (72) Inventor Kazuyoshi Yamamoto Tokyo 1-5-1, Taito, Tokyo Taito-ku Toppan Printing Co., Ltd. F term (reference) 5B057 AA11 AA20 BA25 CA01 CA08 CA12 CA16 CB01 CB08 CB12 CB16 CE17 CE18 DA16 DA17 5C063 AB03 AB07 AB09 AC10 CA23 CA36 5C066 AA03 EC20 EC05 GA01 KE09 KE17 KP05 5C077 LL19 MP08 PP15 PP31 PP32 PQ08 SS06 TT10 5C079 HA02 HB01 LA12 LA31 LB01 MA01 MA17 MA19 NA03 NA27 NA29 PA05 5C082 AA01 AA21 AA32 BA12 BA35 BA39 BB51 BD10 CA 11 DA89 MM10 (54) [Title of Invention] Image color matching service system, image storage server for image color matching service, monitor profile storage server for image color matching service, and image color matching service method

Claims (9)

[Claims] 1. One or more terminals having a monitor, one or more image storage servers for image color matching services for storing image data and original profiles of the image data, and a monitor profile of the monitor of the terminal. A system comprising a monitor profile storage server for an image color matching service to be stored, wherein each terminal and each server are connected to a network, wherein the image storage server for the image color matching service receives an image transmission request from the terminal. Means for receiving and transmitting a monitor profile of a monitor of the terminal from a monitor profile storage server for an image color matching service; and an image storage server for an image color matching service, the monitor profile storage server for an image color matching service. A monitor profile were asked to al transmitted, based on the original profile of the image data, the image color matching service system characterized by comprising means for transmitting the image data to color conversion to the terminal, the. 2. A means for storing a monitor profile creation program in a monitor profile storage server for image color matching service, and a monitor profile storage server for image color matching service in accordance with a user's instruction made at a terminal. By transmitting the program to the terminal and executing the monitor profile creation program, the terminal displays a plurality of images on the monitor of the terminal and prompts the user to select the image closest to the printed matter from the images. Means for prompting and creating a monitor profile based on the image selected by the user, and means for transmitting the created monitor profile from a terminal to a monitor profile storage server for an image color matching service. Item 1 Ra matching service system. 3. An image data and image processing system, wherein one or more terminals having a monitor and a monitor profile storage server for an image color matching service for storing a monitor profile of the monitor of the terminal are connected to the network. Means for receiving an image transmission request from a terminal and sending a monitor profile of a monitor of the terminal from a monitor profile storage server for an image color matching service, the server storing an original profile of data; and image color matching. Means for color-converting the image data based on the monitor profile sent from the service monitor profile storage server and the original profile of the image data and transmitting the color-converted image data to the terminal. Image storage server for the screws. 4. A monitor which is connected to a network in which one or more terminals having a monitor and an image storage server for an image color matching service which stores image data and an original profile of the image data are provided, and the terminal has a monitor. A server for storing a monitor profile of the image color matching service in response to a request from the image storage server for the image color matching service. The image storage server receives the image transmission request from the terminal, requests the monitor profile of the monitor of the terminal from the monitor profile storage server for the image color matching service, and determines whether the monitor profile storage server for the image color matching service A monitor profile asked to transmit, based on the original profile of the image data, and transmits the image data to color conversion to the terminal, the image color matching service monitor profile storage server, characterized in that. 5. A device for storing a monitor profile creation program, a means for providing a monitor profile creation program to a terminal in response to a user's instruction made at the terminal, and a unit for receiving a monitor profile from the terminal. The monitor profile creation program, when executed by the terminal, displays a plurality of images on a monitor of the terminal, and prompts the user to select an image closest to the printed matter from among the images. The monitor profile storage server for an image color matching service according to claim 4, wherein a monitor profile is created based on the selected image. 6. One or more terminals having a monitor, one or more image storage servers for image color matching services for storing image data and an original profile of the image data, and a monitor profile of the monitor of the terminal. Providing a monitor profile storage server for the image color matching service to be stored, connecting each terminal to each server on the network, and receiving the image transmission request from the terminal by the image storage server for the image color matching service; Receiving the monitor profile of the monitor possessed by the image color matching service from the monitor profile storage server for image color matching service, and requesting the image storage server for image color matching service to transmit from the monitor profile storage server for image color matching service. And monitor profile, on the basis of the original profile of the image data, the image color matching service method which comprises a step of transmitting the image data to color conversion to the terminal, the. 7. An image color matching service image storage server for storing image data and an original profile of the image data, wherein the image color matching service image storage server includes one or more terminals having a monitor, and the terminal Connecting to a network connected to a monitor profile storage server for an image color matching service that stores a monitor profile of the monitor having the image storage server for an image color matching service, receiving an image transmission request from a terminal; Receiving the monitor profile of the monitor of the terminal from the monitor profile storage server for the image color matching service, and the image storage server for the image color matching service stores the monitor profile for the image color matching service. A monitor profile were asked to transmit from the server, based on the original profile of the image data, the image color matching service method which comprises a step of transmitting the image data to color conversion to the terminal, the. 8. A monitor profile storage server for an image color matching service for storing a monitor profile of a monitor included in a terminal, wherein the monitor profile storage server for an image color matching service is stored in one or more terminals having a monitor and an image. Connecting to a network connected to one or more image color matching service image storage servers that store data and original profiles of image data; and wherein the image color matching service image storage server stores images from the terminal. Receiving a transmission request and transmitting a monitor profile of a monitor of the terminal from a monitor profile storage server for image color matching service; and A color conversion of the image data based on the monitor profile transmitted from the service monitor profile storage server and the original profile of the image data, and transmission to the terminal. Method. 9. A process for storing a monitor profile creation program in a monitor profile storage server for an image color matching service, and storing the monitor profile creation program in accordance with a user's instruction made at a terminal. The server transmits the image to the terminal, and the terminal executes the monitor profile creation program, thereby displaying a plurality of images on the terminal monitor and prompting the user to select an image closest to the printed matter from the images. Generating a monitor profile based on the image selected by the user; and sending the generated monitor profile from a terminal to a monitor profile storage server for an image color matching service. Item 8. Image color matching service method.