JP2003046794A - Color management server, color management method and program therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a color management server capable of managing the printing quality of a printer based on experience by easily forming an ICC(International Color Constitution) profile for a printer, to provide a color management method and a program therefor. SOLUTION: A reception processing section 23 receives colorimetry information containing one or a plurality of colorimetry data, obtained by measuring a color chart printed by a object printer from a user's terminal 10 via a network 11. A color reproduction characteristic processing section 24 forms an ICC profile on the basis of the received colorimetry information. A state diagnostic processing section 26 diagnoses the state of the printer on the basis of the received colorimetry information and outputs diagnostic results. A transmission processing section 25 transmits the ICC profile or the diagnostic results to the terminal 10.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color management server, a color management method, and a program for exchanging information about a printing machine with a user terminal via a network.

[0002]

2. Description of the Related Art In recent years, digitization of data handled in a printing process has progressed, and in the case of the same color of digital data, color reproduction in a printed matter output from a printed matter output device such as a printing machine or a printer is different depending on a model. A color management system that manages the same color without being affected by individual differences has begun to be constructed. As a method of this color management system, there is a method of using an ICC (International Color Coalition) profile as a color reproduction characteristic file for managing a color reproduction characteristic unique to each device.

For example, when performing color management of an output device such as a printing machine or a printer, a chart, which is a color pattern for creating an ICC profile, is printed out from the output device, and CIE (CIE ( Create an ICC profile based on the XYZ values defined by the International Commission on Illumination. At this time, since specialized knowledge is required, the printed chart may be mailed to an expert to create an ICC profile. Further, conventionally, it is possible to obtain the measurement result for various evaluation items by using an analysis system for managing the state of the printed matter, but if there is an abnormality in the measurement result,
In order to estimate the cause from the abnormal data and to appropriately make a decision as to the countermeasure against the estimated cause, the experience of the person in charge has been a major factor.

[0004]

As described above, when creating an ICC profile in a conventional printing machine,
Since the printed chart is mailed to an expert and requested, there is a problem that time and cost increase, and a simpler system has been demanded. Further, conventionally, when managing the condition of the printing press, unless the user gains experience, the analysis result of the printed matter reveals the cause of the print quality being below a predetermined standard, and a measure for improving the print quality above the standard. There was a problem of not having.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a color management server, a color management method, and a program therefor that more easily create an ICC profile for a printing press. Another object of the present invention is to provide a color management server, a color management method, and a program therefor capable of managing print quality of a printing press based on experience.

[0006]

The present invention has been made to solve the above problems, and in the color management server according to the present invention, color reproduction for managing the color reproduction characteristic peculiar to each printing machine. A color management server that provides a characteristic file to a user terminal via a network. One or more measurement values obtained by measuring the color of a chart printed by a target printing machine from the user terminal via the network. Receiving means for receiving color measurement information including color data, color reproduction characteristic file creating means for creating a color reproduction characteristic file based on the received color measurement information, and transmitting the created color reproduction characteristic file to the user terminal And a transmission means.

With this, a receiving means for receiving colorimetric information including one or a plurality of colorimetric data obtained by measuring the color of the chart printed by the target printing machine from the user terminal via the network. Since the color reproduction characteristic file creating means for creating a color reproduction characteristic file based on the received color measurement information and the transmitting means for transmitting the created color reproduction characteristic file to the user terminal are provided, It is possible to receive color measurement information including color data, create a color reproduction characteristic file based on the color measurement information, and transmit the color reproduction characteristic file to the user terminal.

The color management server according to the present invention is a color management server which is connectable to a user terminal operated by a user who uses a printing machine via a network, and is connected from the user terminal via the network. , Colorimetrically obtain the chart printed on the printing machine,
Utilizing a receiving means for receiving colorimetric information including one or more colorimetric data, a status diagnostic means for diagnosing the status of the printing press based on the received colorimetric information and outputting a diagnostic result, and a diagnostic result And a transmitting means for transmitting to the person terminal.

Thus, the color of the chart printed by the printing machine is measured from the user terminal via the network,
Utilizing a receiving means for receiving colorimetric information including one or more colorimetric data, a status diagnostic means for diagnosing the status of the printing press based on the received colorimetric information and outputting a diagnostic result, and a diagnostic result Since the transmission means for transmitting to the user terminal is provided, the diagnosis result of diagnosing the printing state of the printing machine can be transmitted to the user terminal.

Further, the color management method according to the present invention is a color management method for providing a user terminal via a network with a color reproduction characteristic file for managing the color reproduction characteristic unique to each printing machine. Receiving the colorimetric information including one or more colorimetric data obtained by colorimetrically measuring the chart printed by the target printing machine from the user terminal via the And a step of transmitting the generated color reproduction characteristic file to the user terminal.

Further, the color management method according to the present invention is a color management method in which a user terminal operated by a user who uses a printing machine can be connected via a network, and the color management method is performed from the user terminal via the network. , A step of receiving colorimetric information including one or more colorimetric data obtained by measuring the color of a chart printed by the printing machine, and based on the received colorimetric information, the status of the printing machine is diagnosed and diagnosed. It is characterized by including a step of outputting the result and a step of transmitting the diagnosis result to the user terminal.

The program according to the present invention is a program for a color management server which provides a color reproduction characteristic file for managing a color reproduction characteristic unique to each printing machine to a user terminal via a network, The step of receiving color measurement information including one or more color measurement data obtained by measuring the color of the chart printed on the target printing machine from the user terminal via the network, and the received color measurement information It is a program for causing a computer to execute a step of creating a color reproduction characteristic file on the basis and a step of transmitting the created color reproduction characteristic file to a user terminal.

Further, in the program according to the present invention, a user terminal operated by a user who uses the printing press,
A program for a color management server that can be connected via a network, including one or more color measurement data obtained by measuring the color of a chart printed by a printing machine from a user terminal via the network. A program for causing a computer to execute a step of receiving information, a step of diagnosing the state of the printing press based on the received color measurement information and outputting a diagnostic result, and a step of transmitting the diagnostic result to a user terminal. Is.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described through embodiments of the invention. However, the following embodiments do not limit the invention described in the claims, and all of the combinations of features described in the embodiments are required for the solution means of the invention. Not necessarily. First, a color management server according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing a schematic configuration of a system using a color management server according to an embodiment of the present invention. In this figure, reference numeral 10 is a printing machine A.
.. 10a, printing machine B.10a, printing machine C. 10a ... (hereinafter referred to as printing machine 10a) are managed, and network 11
User terminal A, user terminal B, user terminal C, ... (Hereinafter, referred to as user terminal 10). The user terminal 10 may be connected to the printing machine 10a via a network such as a dedicated line and may have a function of controlling the printing machine 10a.

The user terminal 10 also manages the ICC profile of the printing machine 10a. Further, although not shown, if there is a digital proofing machine for the printing machine 10a, the user terminal 10 may manage the ICC profile for the digital proofing machine. In addition, the user terminal 10
It also has a colorimetric device that measures the color of the chart printed by the printing machine 10a and outputs colorimetric data (XYZ values, density).

Reference numeral 12 is a color management server for exchanging information for managing the color reproduction characteristics of the printing machine 10a with the user terminal 10 via the network 11.
The flow of information in the system of the embodiment described above will be briefly described. First, the color management server 12
Distributes chart data for diagnosing color reproduction characteristics of the printing machine 10a to the user terminal 10 via the network 11. Next, the XYZ value and the density of each pattern on the chart printed by the printing machine 10a using the chart data as a plate are measured by a color measuring device. Next, the color measurement information including the measured color measurement data is transmitted from the user terminal 10 to the color management server 12. In the present embodiment, a printing machine using a plate is used, but the present invention is not limited to this, and a printed matter output device that outputs a printed matter is suitable.

Next, the color management server 12
Creation of an ICC profile for managing the color reproduction characteristics of the printing press 10a based on the received color measurement information, and the printing press 10
The state of a is diagnosed and the diagnostic result is output. Next, the color management server 12 transmits the created ICC profile and diagnostic result to the user terminal 10. From the above, the color management server 12 to the user terminal 10
Information for managing the color reproduction characteristics of the printer 10a is provided. The user terminal 10 may send information to the color management server 12 including the above-mentioned colorimetric information including information such as the model of the printing machine, the type of printing plate, the type of printing ink used.

Next, the internal structure of the color management server 12 will be described with reference to FIG. Reference numeral 21 is a control unit that controls data in the color management server 12. 22 is a database that stores various information. The information stored in the database 22 will be described below. The allowable range database 22a stores allowable range information for defining the allowable range of the evaluation result for each evaluation item shown in FIG. 3 for evaluating the chart. The allowable range of the evaluation result is set by the user or the administrator of the color management server 12 to a desired value based on the past history, the standard for standardizing print quality, and the standard set by each business operator.

The cause information database 22b stores possible cause information when each evaluation result exceeds the upper limit and the lower limit of the allowable range stored in the allowable range database 22a as the evaluation item and the allowable range corresponding to the evaluation result. It is stored in association with the identifier indicating whether the upper limit or the lower limit of is exceeded. Here, a configuration example of the cause information database 22b is shown in FIG. The reference numeral 41 indicates “K_Smal”, which is an identifier indicating that “K (contrast) value is small” when the lower limit of contrast is evaluated as an evaluation item.
In the table, an identifier indicating "K value is large" when the upper limit is exceeded as "L" is "K_Large", and the dot gain is the next evaluation item. 43 is a table 41
It is a table created for each identifier defined in 1., and is a table of cause information corresponding to the identifier and an identifier of the cause information.

In order to construct the configuration shown above, for example, when the evaluation result of "contrast" exceeds the upper limit of the allowable range, the identifier "K_Larg" indicating it in the table 41 is shown.
e ”stores. Next, a table 42 associated with the identifier is created. The table 42 can be considered based on the experience of a practitioner and the structure of the printing machine 10a (hereinafter,“ thinkable ”). As the cause information, "strong printing pressure", "short exposure amount of plate", etc. are stored, and further, identifiers "Ks_1", "Ks_2", etc. for identifying the cause information are stored.

The countermeasure information database 22c stores countermeasure items, which are possible countermeasures for all the cause information, in association with the cause information. FIG. 4 shows a configuration example. If the countermeasure information "increasing the exposure amount of the plate" and "confirming the halftone dots on the plate" can be considered for the identifier "Ks_2" of the cause information "insufficient exposure amount of the plate", the effectiveness of the countermeasure item Stores "1" that is a digitized value. In addition, the cause information "the printing pressure is strong"
If the countermeasure item of “lowering printing pressure” and “confirmation of halftone dot on plate” can be considered for the identifier “Dl — 2” of “1”, “1” which stores the numerical value of the validity of the countermeasure item is stored. As described above, the cause information and the countermeasure items are associated with the numerical values indicating the effectiveness. In the configuration example shown in FIG. 4, the numerical value to be stored is “1”, but the value is not limited to this, and weighting is performed in consideration of the correlation degree between the abnormality of the evaluation result and the cause information and the correlation degree between the cause information and the countermeasure item. You may.

The chart database 22d stores chart data, which is electronic data of the chart, in association with usage purpose information including the usage purpose of the chart. The purpose-of-use information is the purpose-of-use information such as the purpose of creating an ICC profile or the purpose of diagnosing the printing state of the printing machine 10a. When prepared for each model of the printing machine 10a, The model information of 10a may be included. The user information database 22e stores, for each user, the model of the printing machine 10a, the type of plate, the type of ink used, the type of digital proofing machine, the color measurement information processed in the past, the ICC profile, the diagnostic result, and the like. Store information.

A reception processing unit 23 receives color measurement information including a plurality of color measurement data obtained from the user terminal 10 through the network 11 by measuring the color of the chart printed by the target printing machine 10a. Is. 24 is a reception processing unit 23
Is a color reproduction characteristic file creation processing unit that creates an ICC profile (color reproduction characteristic file) based on the color measurement information received by the. 25 is a color reproduction characteristic file creation processing unit 24
It is a transmission processing unit that transmits the ICC profile created by the above and the diagnosis result obtained by diagnosing the printing state of the printing machine 10a to the user terminal 10 via the network 11. 26 is a printer 10a based on the colorimetric information received by the reception processing unit 23.
Is a state diagnosis processing unit for performing the state diagnosis and outputting the diagnosis result.

Reference numeral 27 is an evaluation processing unit for outputting an evaluation result for each evaluation item shown in FIG. 3 for evaluating the chart based on the colorimetric information. 28 is the allowable range database 22
The determination processing unit refers to a and determines whether the evaluation result output by the evaluation processing unit 27 is within the allowable range. Two
When the determination processing unit 28 determines that the color reproduction characteristic file is within the allowable range, the color reproduction characteristic file creation processing unit 24 creates the color reproduction characteristic file. An execution control processing unit (control means) that controls the unit 26 to output a diagnosis result.

Reference numeral 30 is a chart search processing section for searching chart data from the chart database 22d based on the intended use information. The transmission processing unit 25 uses the chart data searched by the chart search processing unit 30 for the user terminal 1.
Send to 0. Reference numeral 31 is a user information processing unit that recognizes the user by using an authentication method such as using a user ID and a password, and stores the information of the user in the user information database 22e.

Now, the processing of the state diagnosis processing section 26 will be described in more detail. When there is an evaluation result that the judgment processing unit 27 judges that the allowable range is exceeded, the state diagnosis processing unit 26 determines whether the evaluation item corresponding to the evaluation result and the upper limit or the lower limit of the allowable range are exceeded, The cause information is retrieved from the cause information database 22b. Further, the state diagnosis processing unit 26 refers to the countermeasure information database 22c, and in order to quantify the effectiveness of each countermeasure item, a predetermined numerical value stored in each countermeasure item corresponding to the searched cause information is set. Cumulative addition.

Here, the cumulative addition of the numerical values of the effectiveness will be described with reference to FIG. 4 when the contrast exceeds the lower limit allowable range. First, the state diagnosis processing unit 26
Refers to the cause information database 22b and selects the identifier "K_Small" indicating "K value is small" in which the contrast exceeds the lower limit allowable range. Next, the state diagnosis processing unit 26 refers to the table 42 as "cause information" corresponding to "K_Small", and "printing pressure is strong",
Identifier corresponding to “short exposure of plate”, ... Ks_
1 "," Ks_2 ", .... Next, the state diagnosis processing unit 26 refers to the countermeasure information database 22c and stores a numerical value indicating the validity for each identifier" Ks_1 "," Ks_2 ",. Cumulative addition is performed for all the countermeasure items.

For example, with respect to the countermeasure item “confirmation of halftone dots on the plate”, identifiers of cause information “Ks_1”, “Ks_”
If four of the 2 ”, ... Are stored with the validity value“ 1 ”, the cumulative addition is“ 4 ”.
An example of the result of cumulative addition of numerical values of effectiveness for each countermeasure item by the state diagnosis processing unit 26 is shown in FIG. As described above, a high cumulative added value indicates a large amount of corresponding cause information, that is, a strong connection with abnormality in the colorimetric data. This value can be used as a value indicating the effectiveness of the countermeasure item.

Further, the evaluation processing unit 27 numerically outputs the evaluation results shown in FIGS. 6 to 13 for the evaluation items shown in FIG. 3, and the state diagnosis processing unit 26 uses the evaluation results shown in FIGS.
It further has a function of visually indicating the print state by creating the graph shown in FIG. 13 and using it as the diagnosis result. The function will be described below. However, the halftone dot% that appears below is a stepwise representation of the size of the halftone dot on the plate by the halftone dot area ratio (%). The area occupies a higher proportion.

FIG. 3 is a diagram showing an example of evaluation items when the color management server 12 according to the embodiment of the present invention evaluates a printed matter. The seven evaluation items in FIG. 3 will be described below. "Solid density" means red, blue printed with 100% dot on the chart,
The evaluation items for each of green, cyan, magenta, and yellow are shown for evaluation by comparing the measured density with a predetermined standard value. The evaluation processing unit 27 includes the reception processing unit 2
The density included in the colorimetric information received by 3 is calculated as a difference between predetermined standard values and output as an evaluation result. Next, the determination processing unit 28 determines whether the evaluation result is within the allowable range by referring to the allowable range database 22a. Next, the state diagnosis processing unit 26 outputs a graph for comparison with the standard value based on the evaluation result.

The "solid hue" is the Lab value (standardized by CIE) calculated from the measured XYZ values for each of solid printed red, blue, green, yellow, cyan, and magenta on the chart. , Predetermined standard value (standard L
The evaluation items for evaluating the color difference from the ab value) are shown. The color difference uses the distance between two points in the color space (Lab color space in this embodiment) in order to quantitatively express the difference between the two colors. The evaluation processing unit 27 calculates a Lab value from the XYZ values included in the colorimetric information received by the reception processing unit 23, calculates a color difference from a predetermined standard value, and outputs it as an evaluation result.

Next, the judgment processing section 28 judges whether the color difference as the evaluation result is within the allowable range or not.
Refer to and judge. Next, the state diagnosis processing unit 26 outputs the graph shown in FIG. 6 which is compared with the standard value based on the evaluation result as a diagnosis result. In FIG. 6, the vertical axis is CIEL.
The b axis of ab and the horizontal axis are the a axes of CIELab. In this figure, the value of the color difference between the standard value of "green" and the measured value is 3 or more, which is the value within the allowable range, and the graph shows that it deviates most from the standard value.

The "gray balance" is the XY of the gray scale indicated by a plurality of gradations on the chart.
The evaluation items for evaluating the deviation of the hue by calculating the Lab value by measuring the Z value are shown. Since the gradation can be represented by the halftone dot% of the plate, the gradation will be referred to as halftone dot% hereinafter. The evaluation processing unit 27 calculates a Lab value from the XYZ values included in the colorimetric information received by the reception processing unit 23, and calculates the origin (a = 0, b =
The difference from 0) is used as the evaluation result. The determination processing unit 28 determines whether the hue difference as the evaluation result is within the allowable range. The state diagnosis processing unit 26 outputs the graph shown in FIG. 7 in which the hue shift can be confirmed. In FIG. 7, the closer to the origin, the smaller the hue shift, and the ideal gray.

Further, "halftone dot gradation" means red, blue, green, yellow, which are indicated by a plurality of gradations (halftone dot%) on the chart.
The evaluation items for measuring the XYZ values of cyan and magenta, calculating the Lab value, and evaluating the shift in the change in hue with respect to the change in halftone dot are shown. The evaluation processing unit 27 calculates the Lab value from the XYZ values included in the colorimetric information received by the reception processing unit 23, calculates the linearity of the change in hue with respect to the change in halftone dot%, and sets the linearity as an evaluation result. The determination processing unit determines whether the linearity of the evaluation result is within the allowable range. The state diagnosis processing unit 26 displays the dot%
The graph shown in FIG. 8 in which the deviation of the change in the hue with respect to the change in H. In FIG. 8, the halftone dot percentage is 0 to 1
The change in hue when the value is changed up to 00% is shown.
The more linear each of the six radial lines in the graph, the more stable the color tone.

Further, "halftone dot gradation" means red, blue, green, yellow, which are indicated by a plurality of gradations (halftone dot%) on the chart.
It is also an evaluation item for measuring the density of cyan and magenta and evaluating the deviation of the change in density with respect to the change in halftone dot%. The evaluation processing unit 27 digitizes the deviation of the change in the density with respect to the change in the halftone dot% from the density included in the colorimetric information received by the reception processing unit 23 to obtain the evaluation result. The determination processing unit determines whether the evaluation result is within the allowable range. State diagnosis processing unit 26
Outputs the graph (gradation curve graph) shown in FIG. 9 in which the deviation of the change in density with respect to the change in halftone dot% can be confirmed. FIG. 9 shows the change in density when the dot% is changed from 0 to 100%.

The "trapping rate" is defined by changing the halftone dot% of three color inks among the four color inks (yellow, cyan, magenta, black) on the chart, and the remaining one color on the chart. When the inks are overlaid and printed, the density of the overprinted inks is measured, and an evaluation item for evaluating the density ratio compared with the density when printed directly on the printing paper is shown. The evaluation processing unit 27 uses the densities included in the colorimetric information received by the reception processing unit 23 to determine the density directly printed on the printing paper and the density of 3
The density ratio with the density printed on the color ink is the halftone dot%.
It is calculated for each and used as the evaluation result. The determination processing unit 28 determines whether the evaluation result is within the allowable range. State diagnosis processing unit 26
Outputs the graph shown in FIG. 10 in which the change in the density ratio of the overlaid ink can be confirmed with respect to the change in the halftone dot% of the base ink.

In FIG. 10, the abscissa axis represents the dot% of the ink of the base, and the ordinate axis represents the trapping rate of the ink to be overlaid. Note that FIG. 10 is a graph in the case where yellow ink of various dot% (shown in the frame 80) is overlaid and printed on black ink of various dot%. The horizontal line 81 in the graph indicates the allowable range of the trapping rate, and the horizontal line 81
The following shows that trapping is defective. Here, trapping refers to a phenomenon in which, when multicolor printing is performed, the inks of the second and subsequent colors are transferred onto the inks printed before that. At this time, the rate at which the ink is transferred from the printing plate to the paper side is the trapping rate.

The "contrast" is 75% when the halftone dot percentage is 100% (solid density) in the four color inks (yellow, cyan, magenta and black) on the chart.
The evaluation items for evaluating the relative contrast obtained by calculating the following (Equation 1) using the density in the case of% are shown. Contrast = (solid density−75% density) / solid density (Equation 1) The evaluation processing unit 27 calculates the values of the solid density and the 75% density included in the colorimetric information received by the reception processing unit 23 (Equation 1). Substitute in to calculate the relative contrast and use it as the evaluation result.

The judgment processing unit 28 judges whether the relative contrast as the evaluation result is within the allowable range. The state diagnosis processing unit 26 outputs the graph shown in FIG. 11 in which the relative contrast can be confirmed. FIG. 11 shows relative contrasts for four colors of yellow, magenta, cyan, and black. Also,
The horizontal line 90 in the graph indicates the allowable range of the relative contrast, and when the horizontal line 90 is less than or equal to this horizontal line, it can be determined that the relative contrast is abnormal.

The "dot gain" is the difference between the halftone dot% (digital data) in the chart data that is the basis of the chart and the halftone dot% obtained from the density in the actual chart (dot gain) on the chart. Shows the evaluation items for evaluating the change of the ink, that is, the spread of halftone dot% due to ink crushing or bleeding. The evaluation processing unit 27 includes the reception processing unit 2
The dot gain is calculated based on the density included in the colorimetric information received by No. 3 and is used as the evaluation result. The determination processing unit 28 determines whether the evaluation result is within the allowable range. The state diagnosis processing unit 26 outputs the graph shown in FIG. 12 in which the dot gain can be confirmed. In FIG. 12, the ideal curves obtained by empirically and statistically for the dot gains of K = black, C = cyan, Y = yellow, and M = magenta are shown for comparison.

As described above, the evaluation processing unit 27 and the judgment processing unit 2
Although an example of the evaluation function of the printing machine 10a by 8 is shown, the present invention is not limited to this, and evaluation items may be increased by providing various patterns on the chart. Further, the following method may be used as a method for the state diagnosis processing unit 26 to specify the cause information. For example, when there is an abnormality in the shape of the dot gain curve, it may be possible from experience to classify the abnormal curve shape into a plurality of types of patterns and to presume a specific cause or countermeasure for each classification. The abnormal curve may be classified by calculating the correlation value of the shape using the abnormal pattern and the correlation function, and the cause information and the countermeasure information corresponding to the classification may be shown.

The above-mentioned standard values and allowable range values are values standardized by various standardizations, values specified by the user of the printing machine 10a, values specified by the administrator of the color management server 12, and the like. Is preferred. Also,
It is possible to evaluate a plurality of printing presses 10a and display a graph for comparison between the printing presses 10a and a graph for comparison with past values together, and further display a time series as shown in FIG. You may show the graph showing the time-dependent change which makes an axis | shaft. Figure 1
FIG. 3 is a diagram showing an example of a change over time in the evaluation item “solid hue”. By using the graph of FIG. 13, it is possible to infer which printing condition change affects solid colors by comparing with the date and time when the printing conditions (ink type, printing pressure, ink softness) are changed. it can.

Each processing unit shown in FIG. 1 described above may be realized by dedicated hardware, and each processing unit is composed of a memory and a CPU (central processing unit), The function may be realized by loading a program for realizing the function of the processing unit into a memory and executing the program. Also, the memory is
A hard disk device, a magneto-optical disk device, a nonvolatile memory such as a flash memory, a read-only recording medium such as a CD-ROM, a RAM (Random A)
volatile memory such as access memory),
Alternatively, it may be composed of a computer-readable and writable recording medium by a combination of these.

Next, the operation of the above-mentioned color management server 12 will be described below with reference to the drawings. Figure 2
FIG. 6 is a flow chart showing an operation of a system including the color management server 12 according to the embodiment of the present invention. First, a request from the user terminal 10 to download chart data that enables diagnosis of the color reproduction characteristics of the printing machine 10a
When received via the network 11, the chart search processing unit 30 searches the chart database 22d for chart data that corresponds to the model of the printing machine 10a and is for the purpose of diagnosing color reproduction characteristics. The transmission processing unit 25 transmits the retrieved chart data to the user terminal 10 that has made the request (step S10).

Next, the user creates a chart plate for printing on the printing machine 10a based on the chart data received by the user terminal 10, and prints the chart on the printing machine 10a. Next, the user measures the XYZ values and the densities of the predetermined pattern of the chart with the color measuring device (step S11). In FIG. 2, step S1
Since 1 is not the operation of the color management server 12, the dotted line is used. Next, the user terminal 10 transmits color measurement information including the color measurement data of the chart measured by the color measurement device by the user from the user terminal 10 to the color management server 12.

Next, the reception processing unit 23 of the color management server 12 receives the colorimetric information via the network 11 (step S20). Next, the evaluation processing unit 27
On the basis of the color measurement information received by the reception processing unit 23, performs the above-described processing for the evaluation items shown in FIG. 3 and outputs the evaluation result (step S21). Next, the judgment processing unit 28
Determines whether the evaluation result output by the evaluation processing unit 27 is within the allowable range by referring to the allowable range database 22a (step S22).

If the evaluation result is within the allowable range (YES in step S22), the execution control processing unit 29
The color reproduction characteristic file creation processing unit 24 is executed. As a result, the color reproduction characteristic file creation processing unit 24 creates an ICC profile based on the color measurement information received by the reception processing unit 23 (step S23). Next, the transmission processing unit 25
Is an IC created by the color reproduction characteristic file creation processing unit 24.
The C profile is transmitted to the user terminal 10 (step S24). From the above, the color management server 12
Can provide the user with the ICC profile for the printing machine 10a having a good printing state.

When the evaluation result exceeds the allowable range (NO in step S22), the execution control processing unit 29
The state diagnosis processing unit 26 is executed. As a result, the state diagnosis processing unit 26 determines the cause information estimated to be the cause of the cause information database 22 based on the evaluation result exceeding the allowable range.
Search from b (step S25). Next, the state diagnosis processing unit 26 refers to the countermeasure information database 22c based on the retrieved cause information, and in order to quantify the effectiveness of each countermeasure item, each countermeasure item corresponding to the retrieved cause information. Is cumulatively added to a predetermined numerical value. Next, the state diagnosis processing unit 26
Determines a countermeasure item whose cumulatively added value is larger than a predetermined value as an effective countermeasure item (step S26). As described above, the state diagnosis processing unit 26 outputs the cause information and the countermeasure information estimated based on experience for the abnormal evaluation result as the diagnosis result.

Although not shown, the state diagnosis processing unit 2
The value 6 may be added to each countermeasure item that is determined to be effective as the priority value (the higher the value, the higher the priority). Further, the state diagnosis processing unit 26 may create the graphs shown in FIGS. 6 to 13 based on the evaluation result output by the evaluation processing unit 27 and add the graphs to the diagnosis result. Next, the transmission processing unit 25 transmits the diagnosis result to the user terminal 10 via the network 11 (step S27).

From the above, the color management server 1
2 includes information in which the evaluation result is graphically understood for the printing press 10a having an abnormal printing state, cause information estimated based on the abnormal evaluation result, and countermeasure information. Diagnostic information can be provided to the user.

The colorimetric information includes the model of the printing machine 10a,
Information such as the type of plate and ink used in the printing machine 10a may be included. In that case, the user information processing unit 31
Stores the information in the user information database 22e in association with the identifier for identifying the user. Further, when the above information is already stored in the user information database 22e, the user information processing section 31 reads the information from the user information database 22e as necessary.

Further, in FIG. 1, a program for realizing the function of a processing unit for performing various processes is recorded in a computer-readable recording medium, and the program recorded in this recording medium is read into a computer system and executed. You may perform each process by doing. The “computer system” mentioned here includes an OS and hardware such as peripheral devices.

The "computer-readable recording medium" means a flexible disk, a magneto-optical disk,
A portable medium such as a ROM or a CD-ROM, or a storage device such as a hard disk built in a computer system. Furthermore, "computer-readable recording medium"
Is a volatile memory (RAM) inside a computer system that serves as a server or a client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line, and holds the program for a certain period of time. It also includes things.

Further, the program may be transmitted from a computer system that stores the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the "transmission medium" for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line. Further, the program may be for realizing a part of the functions described above. Further, it may be a so-called difference file (difference program) that can realize the above-mentioned functions in combination with a program already recorded in the computer system. Although the embodiment of the present invention has been described in detail above with reference to the drawings, the specific configuration is not limited to this embodiment, and includes a design and the like within a range not departing from the gist of the present invention.

[0056]

As described above, in the color management server according to the present invention, one or a plurality of measurements obtained by measuring the color of the chart printed by the target printing machine from the user terminal via the network. Receiving means for receiving color measurement information including color data, color reproduction characteristic file creating means for creating a color reproduction characteristic file based on the received color measurement information, and transmitting the created color reproduction characteristic file to the user terminal Since the colorimetric information including the colorimetric data is received via the network, the color reproduction characteristic file is created based on the colorimetric information, and can be transmitted to the user terminal. As a result, the color reproduction characteristic file can be created more easily than before, and the time required to create the color reproduction characteristic file can be shortened.

Further, in the color management server according to the present invention, the colorimetric information including one or a plurality of colorimetric data obtained by colorimetrically measuring the chart printed by the printing machine is transmitted from the user terminal via the network. It is equipped with a receiving unit for receiving, a state diagnosing unit for diagnosing the state of the printing machine based on the received color measurement information and outputting a diagnostic result, and a transmitting unit for transmitting the diagnostic result to the user terminal. It is possible to transmit the diagnosis result of diagnosing the printing state of the machine to the user terminal. As a result, it is possible to point out an abnormal portion such as low contrast, and transmit a diagnosis result or the like in which the cause of the abnormality is estimated to the user terminal.

Further, in the color management server according to the present invention, the evaluation means for outputting the evaluation result for each predetermined evaluation item for evaluating the chart based on the color measurement information, and the evaluation result for each evaluation item. An allowable range database that stores allowable range information that defines the allowable range, a judgment unit that references the allowable range database and judges whether the evaluation result is within the allowable range, and a case where the judging unit judges that the result is within the allowable range. Since the color reproduction characteristic file creating means creates the color reproduction characteristic file and the evaluation means determines that the color reproduction characteristic file is not within the allowable range, the state diagnosis means further includes control means for controlling to output the diagnosis result. Considering the state of the printing machine, an ICC profile can be created if the printing state is good, and a state diagnosis can be made if the printing state is bad. As a result, it is possible to save the trouble of creating an unnecessary ICC profile.

Further, in the color management server according to the present invention, the cause information that can be considered when the evaluation result exceeds the upper limit and the lower limit of the allowable range is set to the evaluation item corresponding to the evaluation result and the upper or lower limit of the allowable range. If there is an evaluation result that the judging means judges that the allowable range has been exceeded, the state diagnosis means further includes a cause information database for storing information relating to which of the above is exceeded. Since the cause information is retrieved from the cause information database based on the item and information indicating whether the upper limit or the lower limit of the allowable range is exceeded, the cause estimated based on the abnormality of the evaluation result can be included in the diagnosis result. As a result, the cause can be estimated based on experience and the information on the estimated cause can be included in the diagnosis result and provided to the user, and the cause can be more accurately pursued with respect to the abnormality of the printing press.

Further, the color management server according to the present invention further comprises a countermeasure information database for storing countermeasure items, which are possible countermeasures for all the cause information, in association with the cause information, and a state diagnosis means. Refers to the countermeasure information database and cumulatively adds a predetermined numerical value to each countermeasure item corresponding to the retrieved cause information in order to quantify the effectiveness of each countermeasure item. Can be expressed quantitatively. With this, it is possible to present to the user which countermeasure item should be preferentially performed.

Further, in the color management server according to the present invention, the chart data which is electronic data of the above-mentioned chart is stored in association with the purpose information including the purpose of use of the chart, and the purpose information from the chart database. Further, the transmitting means transmits the retrieved chart data to the user terminal, so that the chart data according to the purpose of use can be provided to the user terminal. Also, when changing the evaluation item performed by the color management server, the pattern in the chart corresponding to the evaluation item can be changed at any time.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of a system using a color management server according to an embodiment of the present invention.

FIG. 2 is a flow diagram illustrating operation of a system including a color management server 12 according to an exemplary embodiment of the present invention.

FIG. 3 is a diagram showing an example of evaluation items when the color management server 12 according to the embodiment of the present invention evaluates a printed matter.

FIG. 4 is a diagram showing a configuration example of a cause information database 22b in the embodiment of the present invention.

FIG. 5 is a diagram showing an example of a result of cumulative addition of numerical values of effectiveness for each countermeasure item by the state diagnosis processing unit 26 according to the embodiment of the present invention.

FIG. 6 is a diagram showing an evaluation graph of an evaluation item “solid hue” when the color management server 12 evaluates a printed matter according to the embodiment of the present invention.

FIG. 7 is a diagram showing an evaluation graph of an evaluation item “gray balance” when the color management server 12 in the embodiment of the present invention evaluates a printed matter.

FIG. 8 is a diagram showing an evaluation graph of an evaluation item “halftone dot gradation” when the color management server 12 in one embodiment of the present invention evaluates a printed matter.

FIG. 9 is a diagram showing an evaluation graph of an evaluation item “halftone dot gradation” when the color management server 12 in one embodiment of the present invention evaluates a printed matter.

FIG. 10 is a diagram showing an evaluation graph of an evaluation item “trapping rate” when the color management server 12 according to the embodiment of the present invention evaluates a printed matter.

FIG. 11 is a diagram showing an evaluation graph of an evaluation item “contrast” when the color management server 12 evaluates a printed matter according to the embodiment of the present invention.

FIG. 12 is a diagram showing an evaluation graph of an evaluation item “dot gain” when the color management server 12 in one embodiment of the present invention evaluates a printed matter.

FIG. 13 is a diagram showing a transition evaluation graph in the evaluation item “solid hue” when the color management server 12 according to the embodiment of the present invention evaluates a printed matter.

[Explanation of symbols]

10 user terminal A, user terminal B, user terminal C,
(User terminal 10) 10a Printing machine A, printing machine B, printing machine C, ... (Printing machine 1
0a) 11 network 12 color management server 21 control unit 22 database 22a allowable range database 22b cause information database 22c countermeasure information database 22d chart database 22e user information database 23 reception processing unit 24 color reproduction characteristic file creation processing unit 25 transmission processing unit 26 State diagnosis processing unit 27 Evaluation processing unit 28 Judgment processing unit 29 Execution control processing unit 30 Chart search processing unit 31 User information processing unit

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) H04N 1/46 H04N 1/46 Z 5C079 (72) Inventor Riichi Kono 4-9 Sendagi, Bunkyo-ku, Tokyo 2-104 F Term (Reference) 2C250 EA13 EB46 2H113 AA04 BA17 FA21 FA51 FA56 5B021 AA02 LG07 LG08 LL05 5B057 AA11 CA01 CA07 CA12 CA16 CB01 CB07 CB12 CB16 CC01 CE13 CE18 CH11 CH20 DA01 DB02 DB06 MP36 DC04 MP12 MP25 DC02 5 PQ20 PQ23 TT02 TT08 5C079 HA18 HA19 HB03 HB05 HB08 HB11 KA04 LA01 LB02 LC12 MA05 MA10 NA03 NA27 NA29 PA03 PA07

Claims (15)

[Claims] 1. A color management server for providing a color reproduction characteristic file for managing color reproduction characteristic unique to each printing machine to a user terminal via a network, wherein the color management server is provided from the user terminal via the network. Receiving means for receiving colorimetric information including one or more colorimetric data obtained by colorimetrically measuring a chart printed by a target printing machine; and the color reproduction characteristic based on the received colorimetric information. A color management server comprising: a color reproduction characteristic file creating means for creating a file; and a transmitting means for transmitting the created color reproduction characteristic file to the user terminal. 2. The apparatus further comprises a state diagnostic means for diagnosing the state of the printing press based on the received colorimetric information and outputting a diagnostic result, wherein the transmitting means transmits the diagnostic result to the user terminal. The color management server according to claim 1, which is transmitted. 3. An evaluation unit that outputs an evaluation result for each predetermined evaluation item for evaluating the chart based on the colorimetric information, and an allowance that defines an allowable range of the evaluation result for each evaluation item. An allowable range database that stores range information, and a determining unit that refers to the allowable range database and determines whether the evaluation result is within the allowable range, and if the determining unit determines that it is within the allowable range,
The color reproduction characteristic file creating means is further configured to create a color reproduction characteristic file, and when the evaluation means determines that the color reproduction characteristic file is not within the allowable range, the state diagnosis means is further controlled to output a diagnosis result. The color management server according to claim 1, wherein the color management server is a color management server. 4. The cause information, which is considered when each of the evaluation results exceeds the upper limit and the lower limit of the allowable range, indicates whether the evaluation item corresponding to the evaluation result and the upper limit or the lower limit of the allowable range are exceeded. Further including a cause information database that stores the information in association with the information, and if the determination unit has an evaluation result that the determination unit determines that the determination result exceeds the allowable range, the evaluation item and the allowable range corresponding to the evaluation result. 4. The color management server according to claim 3, wherein the cause information is retrieved from the cause information database based on the information indicating whether the upper limit or the lower limit is exceeded. 5. A countermeasure information database for storing countermeasure items, which are possible countermeasures for all of the cause information, in association with the cause information, and the state diagnosis means stores the countermeasure information database. The color management according to claim 4, wherein a predetermined numerical value is cumulatively added to each countermeasure item corresponding to the searched cause information in order to quantify the effectiveness of each countermeasure item with reference. server. 6. A color management server connectable to a user terminal operated by a user of a printing machine via a network, wherein a chart printed by the printing machine from the user terminal via the network. Receiving means for receiving colorimetric information including one or a plurality of colorimetric data obtained by colorimetric measurement, and a state diagnosis of the printing machine based on the received colorimetric information, and outputting a diagnostic result. A color management server comprising: a state diagnosis means and a transmission means for transmitting the diagnosis result to the user terminal. 7. A chart database that stores chart data, which is electronic data of the chart, in association with usage purpose information including the usage purpose of the chart, and a chart data is searched from the chart database based on the usage purpose information. 7. The color management server according to claim 1, further comprising a chart retrieval unit, wherein the transmission unit transmits the retrieved chart data to the user terminal. 8. A color management method for providing a color reproduction characteristic file for managing color reproduction characteristics unique to each printing machine to a user terminal via a network, wherein the user terminal transmits the color reproduction characteristic file via the network. Receiving color measurement information including one or a plurality of color measurement data obtained by measuring the color of a chart printed by a target printing machine; and the color reproduction characteristic file based on the received color measurement information. And a step of transmitting the created color reproduction characteristic file to the user terminal. 9. The method further comprises the steps of diagnosing the state of the printing press based on the received colorimetric information and outputting a diagnostic result, and transmitting the diagnostic result to the user terminal. The color management method according to claim 8. 10. A step of outputting an evaluation result for each predetermined evaluation item for evaluating the chart based on the color measurement information, and allowable range information defining an allowable range of the evaluation result for each evaluation item. And a step of determining whether or not the output evaluation result is within the allowable range by referring to the allowable range database for storing the color reproduction characteristic file when it is determined that the evaluation result is within the allowable range in the determining step. 9. The method further comprising: executing the creating step, and controlling the step of outputting the diagnostic result to be executed when it is judged that the allowable step is not within the allowable range. Alternatively, the color management method according to claim 9. 11. A color management method capable of connecting to a user terminal operated by a user of a printing machine via a network, wherein a chart printed by the printing machine from the user terminal via the network. Receiving colorimetric information including one or a plurality of colorimetric data obtained by colorimetric measurement, and performing a status diagnosis of the printing machine based on the received colorimetric information and outputting a diagnostic result. And a step of transmitting the diagnosis result to the user terminal. 12. A program for a color management server, which provides a color reproduction characteristic file for managing color reproduction characteristic unique to each printing machine to a user terminal via a network, wherein the use is performed via the network. Receiving color measurement information including one or a plurality of color measurement data obtained by measuring the color of the chart printed by the target printing machine from the user terminal, and the color based on the received color measurement information. A program for causing a computer to execute a step of creating a reproduction characteristic file and a step of transmitting the created color reproduction characteristic file to the user terminal. 13. The computer is further made to perform a state diagnosis of the printing press based on the received color measurement information and output a diagnosis result, and a step of transmitting the diagnosis result to the user terminal. The program of claim 12 for. 14. A step of outputting an evaluation result for each predetermined evaluation item for evaluating the chart based on the colorimetric information, and allowable range information defining an allowable range of the evaluation result for each evaluation item. And a step of determining whether the output evaluation result is within the allowable range by referring to the allowable range database storing the color reproduction characteristic file. 13. The method according to claim 12, further comprising: causing the computer to further execute the step of creating and executing the step of outputting the diagnostic result when the step of judging determines that the value is not within the allowable range. Alternatively, the program according to claim 13. 15. A program for a color management server, which is connectable to a user terminal operated by a user who uses the printing machine via a network, wherein the user terminal is connected to the printing machine via the network. A step of receiving colorimetric information including one or a plurality of colorimetric data obtained by measuring the color of a printed chart; and based on the received colorimetric information, a state diagnosis of the printing press is performed and a diagnostic result is obtained. A program for causing a computer to execute a step of outputting and a step of transmitting the diagnosis result to the user terminal.