JP2005024654A - Color transformation system and color transforming method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a color transformation system and a color transforming method that can reduce the labor and time for preparing and registering a profile. <P>SOLUTION: An image database stores image data of a plurality of providers to be made correspond to image data identification information, and a profile server stores a profile in which profile information showing a characteristic peculiar to a monitoring device of a user terminal and profile identification information are stored to be made correspond to each other. The file server reads out the profile information from the profile storage part based on the profile identification information transmitted from the user terminal, transmits the profile information to a color transforming server, the color transforming server reads out image data from the image database based on the image data identification information transmitted from the user terminal, and transforms the color shown by the image data based on the profile information, then transmits the transformed color to the user terminal. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a computer system, and more particularly to a color conversion system and a color conversion method for a color indicated by image data.
[0002]
[Prior art]
Conventionally, a user who purchases a product in a mail order using the Internet accesses a server of a mail order site existing on the Internet from a terminal connected to the Internet, and selects the product on a web page displayed on the terminal. Yes. This mail order site is established on the Internet by mail order dealers. The mail order site includes a color conversion system that converts the color indicated by the image data of the product in accordance with the characteristics of the user's terminal when a web page on which the product image is posted is transmitted to the terminal. This color conversion system stores a profile indicating the characteristics of the terminal created by the user in the terminal, and converts the color indicated by the image data using the profile. The reason for providing a color conversion system in the mail order site is that the color indicated by the image data of the product posted on the web page is converted based on the characteristics of the user terminal, and an image having almost the same color as the actual product is converted to the user terminal This is because it is displayed. The applicant of this application has already applied for a patent for this technology (Japanese Patent Application No. 2001-296700).
[0003]
[Problems to be solved by the invention]
Here, when a large number of mail-order dealers have established the above-mentioned mail-order sales site on the Internet, the user accesses each mail-order sales site and performs shopping. If each mail-order site has a color change system, the user needs to create and register a profile for each mail-order site, which can be cumbersome and difficult to use. was there.
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a color conversion system and a color conversion method that can reduce the time and labor of profile creation and registration.
[0004]
[Means for Solving the Problems]
The present invention has been made to solve the above-described problems, and includes an image database that stores image data of a plurality of providers in association with image data identification information, and profile information that indicates characteristics unique to a monitor device of a user terminal. And a profile storage unit that stores the profile identification information in association with each other, reads the profile information from the profile storage unit based on the profile identification information transmitted from the user terminal, and transmits the profile information to the color conversion server The image data is read from the image database based on the profile server that performs the processing and the image data identification information transmitted by the user terminal, and the color indicated by the image data is converted based on the profile information and transmitted to the user terminal. And a color conversion server. It is a conversion system.
[0005]
According to the above configuration, according to the present invention, the image database stores the image data of a plurality of providers in association with the image data identification information, and the profile server indicates profile information and profile indicating characteristics unique to the monitor device of the user terminal. A profile that stores the identification information in association with each other is stored. Then, the profile server reads the profile information from the profile storage unit based on the profile identification information transmitted from the user terminal, transmits the profile information to the color conversion server, and the color conversion server includes the image data identification information transmitted by the user terminal. Based on this, image data is read from the image database, and the color indicated by the image data is converted based on the profile information and transmitted to the user terminal.
Thus, conventionally, each provider had to register a profile in the color conversion system connected to the Internet, but the image database stores image data of a plurality of providers, Since color conversion is performed on the image data of the provider based on the profile unique to the monitor device of the user terminal, according to the present invention, the user only has to register the profile in one color conversion system, and the labor required for the user can be reduced. Can do. In addition, using the profile, the colors indicated by the image data of a plurality of providers can be converted into colors that match the characteristics of the user terminal. In addition, since the image database can store image data of a plurality of providers, each provider only needs to access one color conversion system to register image data, and does not construct a color conversion system for each provider. May be.
[0006]
According to the present invention, in the color conversion system described above, the user terminal stores a cookie including the profile identification information, and the profile identification information is included in a cookie transmitted from the user terminal.
[0007]
In the present invention, the image database stores the image data of a plurality of providers in association with the image data identification information, and the profile server associates the profile information indicating the characteristics unique to the monitor device of the user terminal with the profile identification information. And stores the profile to be stored, and the profile server reads the profile information from the profile storage unit based on the profile identification information transmitted from the user terminal, transmits the profile information to the color conversion server, A conversion server reads the image data from the image database based on the image data identification information transmitted from the user terminal, converts the color indicated by the image data based on the profile information, and transmits the converted data to the user terminal. Is a color conversion method characterized by the above.
[0008]
Further, the present invention is the color conversion method described above, wherein the user terminal stores a cookie including the profile identification information, and the profile identification information is included in a cookie transmitted from the user terminal. .
[0009]
Further, the present invention is a program that is executed by a profile server having a profile storage unit that stores profile information indicating characteristics unique to a monitor device of a user terminal and profile identification information in association with each other, and is transmitted from the user terminal The program executes processing of reading the profile information from the profile storage unit based on the profile identification information and transmitting the read profile information to a color conversion server.
[0010]
The present invention also provides a program to be executed by a color conversion server, from an image database that stores image data of a plurality of providers in association with image data identification information based on image data identification information received from a user terminal. The program executes a process of reading the image data and a process of converting the color indicated by the read image data based on the profile information received from the profile server and transmitting the converted data to the user terminal.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a color conversion system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a schematic block diagram showing the configuration of a color conversion system according to an embodiment of the present invention. In this figure, reference numeral 1 denotes a web server that accepts access from a user terminal. The web server 1 performs a process of transmitting a mail order web page to the user terminal 5. Reference numeral 2 denotes a profile server that creates a profile indicating the characteristics of the monitor (monitor device) of the user terminal. A color conversion server 3 converts the color indicated by the image data based on the profile stored in the profile server 2. An image database server 4 stores image data. Reference numeral 5 denotes a user terminal. Reference numeral 6 denotes a terminal 6 of an image data provider that serves as an image data provider such as a mail-order dealer. A web server 7 receives access from the terminal 6 of the image data provider. The web server 7 performs processing for accepting image data registration.
[0012]
In the web server 1, reference numeral 11 denotes an access processing unit that processes access from the user terminal 5 and transmits a web page for mail order to the user terminal 5. Reference numeral 12 denotes a web page storage unit for storing web pages for mail order sales.
[0013]
In the profile server 2, reference numeral 21 denotes a transmission / reception unit that transmits / receives various information to / from the web server 1 and the color conversion server 3. Reference numeral 22 denotes a color conversion request processing unit for processing a color conversion request. Reference numeral 23 denotes a profile creation start determination unit that determines whether to create a profile of the user terminal 5 that has accessed the web server 1. Reference numeral 24 denotes a profile creation processing unit for processing profile creation. A profile storage unit 25 stores the profile created by the profile creation processing unit 24. Note that profile information is recorded in the profile storage unit 25 in association with a profile ID (profile identification information). Note that the profile information is specifically the characteristics of the monitor of the user terminal 5, and the gamma characteristics of the monitor, the monitor's R chromaticity point, the monitor's G chromaticity point, and the monitor's B chromaticity point. And information consisting of the white point of the monitor. Details of the profile information will be described later.
[0014]
In the color conversion server 3, reference numeral 31 denotes a color conversion processing unit for converting the color indicated by the image data transmitted from the image database server 4 based on the profile. In the image database server 4, reference numeral 41 denotes an image data reading processing unit that reads image data recorded in the image database and transmits the image data to the color conversion server 3. An image database 42 stores image data. Reference numeral 43 denotes an image data registration processing unit that performs registration processing of image data received from the web server 7. In the web server 7, reference numeral 71 denotes an access processing unit that processes access from the terminal 6 of the image data provider. An image data registration unit 72 transmits image data received from the image provider's terminal 6 to the image database server 4.
[0015]
Then, the web server 1 receives access from the user terminal and transmits a web page for mail order to the user terminal 5. The web server 1 requests the profile server 2 for image data to be posted on the web page when transmitting the web page to the user terminal 5. Then, image data after color conversion is received from the profile server 2, and a web page on which the converted image data is posted is transmitted to the user terminal 5. Further, the web server 7 performs processing for receiving image data from the terminal 6 of the image data provider and writing it in the image database server 4.
[0016]
The profile server 2 accepts a request for image data from the web server 1 and determines whether it is necessary to create a profile specific to the monitor of the user terminal. If the profile needs to be created, the profile is created. If not necessary, the color conversion server 3 is requested to convert the color indicated by the image data. The color conversion server 3 performs color conversion indicated by the image data received from the image database server 4 based on the color conversion request indicated by the image data received from the profile server 2, and converts the converted image data to the profile server 2. It transmits to the user terminal 5 via the web server 1.
[0017]
Next, processing when the image data provider registers the image data in the color conversion system will be described.
First, the provider of the image data accesses the web server 7 using the terminal 6. At this time, the provider logs in to the web server using the provider ID and the password. The provider ID and password are previously notified to the image data provider. Next, the provider transmits the image data using the terminal 6. Then, the access processing unit 71 of the web server 7 transfers the image data transmitted from the terminal 6 and the provider ID used by the provider when logging in to the image data registration unit 72. Then, the image data registration unit 72 transmits the provider ID and the image data to the image database server 4. Next, the image data registration processing unit 43 of the image database server 4 writes the provider ID and image data received from the web server 7 in the image database 42. In this registration process, the image data registration processing unit 43 newly generates a provider ID received from the web server 1 and an image data ID (image data identification information) corresponding to the image data. Then, the image data ID, the provider ID, and the image data are associated and written to the image database 42.
[0018]
Next, the process of the color conversion system will be described in order with reference to FIG.
FIG. 2 is a diagram showing a processing flow of the color conversion system.
First, the user accesses the web server 1 using the user terminal 5 (step S1). Note that a web browser installed in the user terminal 4 is used to access the web server 1. Then, the access processing unit 11 of the web server 1 reads the mail order homepage from the web page storage unit 13 and transmits it to the user terminal 5 (step S2). Here, the homepage transmitted to the user terminal 5 displays a list of product names to be mail-ordered. Each product is linked, and when the product name is clicked using, for example, a mouse provided in the user terminal 5, the image data ID of the product corresponding to the product name and the product providing the product are provided. The ID of the person (mail dealer) is transmitted to the web server 1.
[0019]
Next, when the user clicks one product name in the homepage list, the image data ID for specifying the image data of the product and the provider ID are transmitted to the web server 1 (step S3). The access processing unit 11 receives the image data ID and the provider ID, and transmits an image data request including the image data ID and the provider ID to the profile server 2 (step S4).
Next, the transmission / reception unit 21 of the profile server 2 receives the image data ID and the provider ID, and transfers the two IDs to the profile creation start determination unit 23. Then, the profile creation start determination unit 23 generates cookie request information of the user terminal 5 and transmits it to the access processing unit 11 of the web server 1 (step S5). The cookie request information is information that stores an ID for identifying a cookie. The cookie is information sent to the web browser by the web server 1 to identify the user. The cookie has an ID for identifying the cookie and a profile for identifying the profile created by the user in the profile server 2. ID (profile identification information) is stored. Then, the access processing unit 11 of the web server 1 transfers the cookie request information to the user terminal 1 (step S6).
[0020]
Next, the user terminal 5 that has received the cookie request information determines whether or not the cookie is stored in a storage unit included in the user terminal 5 based on the ID indicated in the cookie request information. If a cookie holding the ID indicated in the cookie request information is recorded, the cookie storing the profile ID is transmitted to the web server 1. If not, the cookie not storing the profile ID is transmitted to the web server 1. (Step S7).
[0021]
Next, the web server 1 transmits the cookie received from the user terminal 5 to the profile server 1 (step S8). Then, the profile creation start determination unit 23 of the profile server 2 determines whether or not the profile ID is stored in the cookie received from the web server 1 (step S9).
Next, in step S9, when the profile ID is stored in the cookie, the color conversion request processing unit 22 reads the profile information recorded in the profile storage unit 25 in association with the profile ID. The transmission / reception unit 21 is instructed to transmit a color conversion request storing the image data ID, the provider ID, and the profile information. The transmission / reception unit 21 transmits a color conversion request to the color conversion server 3 (step S10).
[0022]
Next, the color conversion processing unit 31 of the color conversion server 3 transmits the image data ID and the provider ID included in the color conversion request received from the profile server 2 to the image database server 4 (step S11). Then, the image data reading processing unit 41 reads the image data recorded in the image database 42 in association with the provider ID and the image data ID received from the color conversion server 3, and transmits them to the color conversion server 3 (step). S12). Then, the color conversion server 3 converts the color indicated by the image data received from the image database server 4 based on the profile information (step S13), and transmits it to the profile server 2 (step S14). The transmission / reception unit 21 of the profile server 2 transmits the converted image data received from the color conversion server 2 to the web server 1 (step S15).
[0023]
Then, the access processing unit 11 of the web server 1 adds the converted image data received from the profile server to the web page recorded in the web page storage unit 13 and transmits it to the user terminal 5 (step S16). As a result, image data that has been color-converted based on the monitor characteristics of the user terminal 5 is transmitted to the user terminal 5, so that a color substantially the same color as the actual product is displayed on the monitor of the user terminal 5.
If the profile creation start determination unit 23 determines in step S9 that the profile ID is not stored in the received cookie, the profile creation processing unit 24 is notified of the start of profile creation. And the profile creation process part 24 transmits a profile creation screen to the user terminal 5 via the web server 1 (step S17). Then, the profile creation processing unit 24 starts profile creation processing (step S18). When the profile creation is completed, a profile ID for specifying the created profile is generated and stored in a cookie. It transmits to the user terminal 1 via the web server 1 (step S19). The user terminal 1 stores the cookie storing the profile ID in the storage unit (step S20). Then, after the profile is completed, the profile creation processing unit 24 instructs the color conversion request processing unit 22 to start processing of the color conversion request.
[0024]
Next, the profile will be described. The profile is information on the color characteristics of the monitor, and is information on the data structure in which the input values and output values of R, G, and B (Red, Green, and Blue) in the user terminal 5 are associated with each other. FIG. 3 shows the data structure of the profile. As shown in this figure, the profile associates output values corresponding to input values 0 to 255 of R, G, and B. This profile is created for each user terminal 5.
[0025]
Next, the basic principle of the profile creation method will be described.
First, a card called a profile card is distributed in advance to users who use the color conversion system. Here, the profile card is a card coated with the same color as the color on the standard monitor when the standard image data is displayed on the standard monitor. The standard image data is, for example, image data indicating a color of RGB value = (128, 128, 128). The standard monitor is a monitor that is manufactured for color management and has no deterioration in output color. Then, in the middle of the profile creation process, the user compares the profile card with the colors of a plurality of image data presented on the user terminal 5 and designates image data having a color close to the profile card.
Thereby, the profile server 2 detects the characteristic of the output value corresponding to the input value of the RGB value of the user terminal 5 and creates a profile specific to the user terminal 5.
[0026]
Next, the profile creation process will be described.
(Step A)
FIG. 4 is a diagram showing a plurality of image data for detecting the rise of the shadow part of the user terminal. This image data includes image data A1 in which a small square indicating the color of RGB value = (5, 5, 5) is superimposed on a square indicating the color of RGB value = (0, 0, 0), and RGB value = (0, Image data A2 in which a small square indicating the color of RGB value = (10, 10, 10) is superimposed on a square indicating the color of (0, 0), and a square indicating the color of RGB value = (0, 0, 0). RGB value = (20, 20, 20) in the image data A3 in which small squares indicating the color of RGB value = (15, 15, 15) are superimposed and the square indicating the color of RGB value = (0, 0, 0). Image data A4 in which small squares indicating the color of the image are overlapped, and an image in which small squares indicating the color of the RGB value = (30, 30, 30) are superimposed on the squares indicating the color of the RGB value = (0, 0, 0). The color of RGB value = (40, 40, 40) is displayed on the square indicating the color of data A5 and RGB value = (0, 0, 0). It is image data A6 of extensive to small squares.
[0027]
First, the profile creation processing unit 24 presents the image data A1 to image data A6 to the user terminal 5. Then, the user selects an image in which a square indicating a color of RGB value = (0, 0, 0) and a small square can be distinguished from the image data A1 to A6 displayed on the user terminal 5. Then, the terminal transmits any identification information of the selected image data A1 to A6 to the color conversion system, and the profile creation processing unit 24 receives it. Then, the profile creation processing unit 24 changes the RGB output values in the profile of the user terminal 5 based on the image data selected by the user. Thereby, the boundary between the RGB values that can be distinguished from the color (black) of the RGB values = (0, 0, 0) output to the monitor of the user terminal 5 is reflected in the profile.
[0028]
(Step B)
FIG. 5 is a diagram showing a plurality of image data for detecting the gamma characteristic of the user terminal. In this image data, the RGB value = (255, 255, 255) and RGB = (0, 0, 0) are alternately arranged in a square indicating the color (background) of the RGB value = (110, 110, 110). Image data B1 in which small squares of a mesh pattern are overlapped, and a square indicating a color (background) of RGB values = (115, 115, 115) and RGB values = (255, 255, 255) and RGB = (0 , 0, 0) alternately arranged in the square representing the color (background) of RGB data = (120, 120, 120) and image data B2 in which small squares of a mesh pattern are overlapped, RGB values = (255, 255). 255) and RGB = (0, 0, 0) alternately arranged image data B3 in which small squares of a mesh pattern are superimposed, and a color (background) of RGB value = (124, 124, 124). In the square shown, RGB value = (2 5, 255, 255) and RGB = (0, 0, 0) alternately arranged image data B 4 in which small squares of a mesh pattern are superimposed, and a color (RGB value = (127, 127, 127) ( Image data B5 in which small squares of mesh patterns in which colors of RGB values = (255, 255, 255) and RGB = (0, 0, 0) are alternately arranged on a square indicating (background) and RGB values = A small square of a mesh pattern in which RGB values = (255, 255, 255) and RGB = (0, 0, 0) are alternately arranged in a square indicating the color (background) of (130, 130, 130). This is the superimposed image data B6. Since the mesh pattern RGB value = (255, 255, 255) and RGB = (0, 0, 0) are fine, the mesh pattern appears to be gray. As a result, among the image data B1 to B5 displayed on the monitor of the user terminal 5, there are those that are easy to distinguish between the mesh pattern and the background and those that are difficult to distinguish.
[0029]
Then, the profile creation processing unit 24 presents the image data B1 to image data B6 to the user terminal 5. Then, the user selects from the image data B1 to B6 displayed on the user terminal 5 an image in which the square indicating the background color cannot be distinguished from the square with the small mesh pattern. Then, the terminal transmits any identification information of the selected image data B1 to B6 to the color conversion system, and the profile creation processing unit 24 receives it. Then, the profile creation processing unit 24 creates the profile of the user terminal 5 by further changing the RGB output values of the profile modified in step A based on the image data selected by the user. Thereby, different gamma characteristics (monitor characteristics that are displayed brightly or darkly even if the RGB values are the same) depending on the monitor of the user terminal 5 are reflected in the profile.
[0030]
(Step C)
FIG. 6 is a diagram showing image data C1 to C9 for setting a halftone color expression in a user terminal to a profile. FIG. 7 is a diagram showing three input / output characteristics of the image data shown in FIG. The image data C1 located at the center of the nine pieces of image data in FIG. 6 is standard image data. If the input / output characteristic of the standard image data C1 is a curve L1, the other image data other than the standard image data is This is image data indicating the input / output characteristics of a curve obtained by adding a curve to the center value of the input value or output value, such as the curve L2 or the curve L3.
[0031]
Then, after step B, the profile creation processing unit 24 presents the image data C1 to C9 to the user terminal 5. Then, the user selects image data having a color closest to the profile card from the image data C1 to C9 displayed on the user terminal 5. Then, the terminal transmits any identification information of the selected image data C1 to C9 to the color conversion system, and the profile creation processing unit 24 receives it.
[0032]
(Step D)
FIG. 8 is a diagram showing image data D1 to D9 for setting the expression of the color of the highlight portion in the user terminal to the profile. FIG. 9 is a diagram showing three input / output characteristics of the image data shown in FIG. The image data D1 located at the center of the nine pieces of image data in FIG. 8 is standard image data. If the input / output characteristic of the standard image data D1 is a curve L4, other image data other than the standard image data is This is image data indicating the input / output characteristics of curves in which different curves are provided in a large range of input values and output values, such as the curves L5 and L6.
[0033]
Then, after step C, the profile creation processing unit 24 presents the image data D1 to D9 to the user terminal 5. Then, the user selects image data having a color closest to the profile card from the image data D1 to D9 displayed on the user terminal 5. Then, the terminal transmits any identification information of the selected image data D1 to D9 to the color conversion system, and the profile creation processing unit 24 receives it.
[0034]
(Step E)
FIG. 10 is a diagram showing image data E1 to E9 for setting the expression of the color of the shadow portion in the user terminal in the profile. FIG. 11 is a diagram showing three input / output characteristics of the image data shown in FIG. The image data E1 located at the center of the nine pieces of image data in FIG. 10 is standard image data. If the input / output characteristic of the standard image data E1 is a curve L7, other image data other than the standard image data is This is image data showing the input / output characteristics of curves in which different curves are attached to a small range of input values and output values, such as the curves L8 and L9.
[0035]
Then, after step D, the profile creation processing unit 24 presents the image data E1 to E9 to the user terminal 5. Then, the user selects image data having a color closest to the profile card from the image data E1 to E9 displayed on the user terminal 5. Then, the terminal transmits any identification information of the selected image data E1 to E9 to the color conversion system, and the profile creation processing unit 24 receives it.
(Step F)
Then, the profile creation processing unit 24 further changes the RGB output value of the profile modified in Step B based on the image data selected by the user in Step C, Step D, and Step E, and the profile of the user terminal 5 Create
[0036]
As mentioned above, although embodiment of this invention was described, each above-mentioned server has a computer system inside. The process described above is stored in a computer-readable recording medium in the form of a program, and the above process is performed by the computer reading and executing this program. Here, the computer-readable recording medium means a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Alternatively, the computer program may be distributed to the computer via a communication line, and the computer that has received the distribution may execute the program.
[0037]
【The invention's effect】
As described above, according to the present invention, the image database stores the image data of a plurality of providers in association with the image data identification information, and the profile server indicates profile information indicating characteristics unique to the monitor device of the user terminal. A profile is stored that stores profile identification information in association with each other. Then, the profile server reads the profile information from the profile storage unit based on the profile identification information transmitted from the user terminal, transmits the profile information to the color conversion server, and the color conversion server includes the image data identification information transmitted by the user terminal. Based on this, image data is read from the image database, and the color indicated by the image data is converted based on the profile information and transmitted to the user terminal.
Thus, conventionally, each provider had to register a profile in a color conversion system connected to the Internet, but the image database stores image data of a plurality of providers, Since color conversion is performed on the image data of the provider based on the profile unique to the monitor device of the user terminal, according to the present invention, the user only has to register the profile in one color conversion system, thereby reducing the user's trouble. Can do. In addition, using the profile, the colors indicated by the image data of a plurality of providers can be converted into colors that match the characteristics of the user terminal. Further, since the image database can store the image data of a plurality of providers, each provider only needs to access one color conversion system to register the image data, and does not construct a color conversion system for each provider. May be.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram showing a configuration of a color conversion system according to an embodiment of the present invention.
FIG. 2 is a diagram showing a processing flow of the color conversion system according to the present embodiment.
FIG. 3 is a diagram showing a data structure of a profile.
FIG. 4 is a diagram showing a plurality of image data for detecting rising of a shadow part of a user terminal.
FIG. 5 is a diagram illustrating a plurality of image data for detecting gamma characteristics of a user terminal.
FIG. 6 is a diagram illustrating image data C1 to C9 for setting a halftone color expression in a user terminal to a profile.
7 is a diagram showing three input / output characteristics of the image data shown in FIG.
FIG. 8 is a diagram illustrating image data D1 to D9 for setting a color expression of a highlight portion in a user terminal to a profile.
9 is a diagram showing three input / output characteristics of the image data shown in FIG.
FIG. 10 is a diagram illustrating image data E1 to E9 for setting a color expression of a shadow portion in a user terminal to a profile.
11 is a diagram showing three input / output characteristics of the image data shown in FIG.
[Explanation of symbols]
1 Web server
2 Profile server
3 color conversion server
4 Image database server
5 User terminal
6 Terminal of image data provider

Claims (6)

An image database for storing image data of a plurality of providers in association with image data identification information;
A profile storage unit that stores profile information indicating characteristics unique to the monitor device of the user terminal and profile identification information in association with each other, and the profile information from the profile storage unit based on the profile identification information transmitted from the user terminal A profile server that reads the profile information and transmits the profile information to the color conversion server;
A color conversion server that reads the image data from the image database based on the image data identification information transmitted by the user terminal, converts the color indicated by the image data based on the profile information, and transmits the color to the user terminal;
A color conversion system comprising: The color conversion system according to claim 1, wherein the user terminal stores a cookie including the profile identification information, and the profile identification information is included in a cookie transmitted from the user terminal. An image database stores image data of a plurality of providers in association with image data identification information,
A profile server stores a profile that stores profile information indicating profile-specific characteristics of a user terminal and profile identification information in association with each other,
The profile server reads the profile information from the profile storage unit based on the profile identification information transmitted from the user terminal, transmits the profile information to the color conversion server,
A color conversion server reads the image data from the image database based on the image data identification information transmitted from the user terminal, converts the color indicated by the image data based on the profile information, and transmits the color to the user terminal. A color conversion method characterized by that. The color conversion method according to claim 3, wherein the user terminal stores a cookie including the profile identification information, and the profile identification information is included in a cookie transmitted from the user terminal. A program to be executed by a profile server including a profile storage unit that stores profile information indicating profile-specific characteristics of a user terminal and profile identification information in association with each other,
Reading the profile information from the profile storage unit based on the profile identification information transmitted from the user terminal;
Transmitting the read profile information to a color conversion server;
A program that executes the process. A program to be executed by a color conversion server,
Based on the image data identification information received from the user terminal, reading the image data from an image database that stores image data of a plurality of providers in association with the image data identification information;
A process of converting the color indicated by the read image data based on the profile information received from the profile server and transmitting it to the user terminal;
A program that executes the process.

Images