JP2015076009A - Information processing apparatus, program, and image forming system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make adjustments related to the reproduction of images in a plurality of image forming apparatuses correspond to each other.SOLUTION: A data reception unit 140 receives the input of image reproduction information on the reproduction of images in an image forming apparatus for each of a plurality of image forming apparatuses. A selection unit 150 selects, on the basis of the image reproduction information on each of the plurality of image forming apparatuses, of groups obtained by classifying the plurality of image forming apparatuses, for each of the groups not including a pre-selected image forming apparatus to be a reference of the plurality of image forming apparatuses, an image forming apparatus having image reproduction information corresponding to the image reproduction information on the image forming apparatus to be a reference, from the image forming apparatuses classified into groups, as an image forming apparatus to be a reference in the groups and having the image reproduction information to be used as a target of adjustment related to the reproduction of images of the respective image forming apparatuses classified into the groups.

Description

  The present invention relates to an information processing apparatus, a program, and an image forming system.

  Patent Document 1 discloses a copying apparatus having an image reading unit and an image output unit that prints out an image read by the image reading unit as a copy image, the communication unit having the image output device connected thereto An operation unit that performs display for specifying the image output device, a pattern output unit that outputs a test pattern image to the image output device selected via the operation unit, and the operation unit. The test pattern image output from the image output device selected via the image reading unit is read by the image reading unit, and based on the read result, correction data for correcting the image output condition of the selected image output device is created Correction data creating means for correcting the image output conditions of the image output device by the correction data created by the correction data creating means. Copying apparatus is disclosed, wherein the new and the.

  Patent Document 2 includes a plurality of image forming apparatuses and test image output control means for outputting test images from the plurality of image forming apparatuses based on reference image data, and from all the image forming apparatuses in accordance with user instructions. An image processing apparatus that outputs a test image is disclosed.

JP 2000-253252 A JP 2002-368933 A

  An object of the present invention is to make adjustments related to image reproduction in a plurality of image forming apparatuses compatible.

  According to a first aspect of the present invention, on the basis of the image reproduction information for each of the plurality of image forming apparatuses, a receiving unit that receives input of image reproduction information related to image reproduction of the image forming apparatus for each of the plurality of image forming apparatuses, Among the groups into which the plurality of image forming apparatuses are classified, the image forming apparatuses classified into the groups for each of the plurality of image forming apparatuses that do not include a preselected reference image forming apparatus. The image forming apparatus having image reproduction information corresponding to the image reproduction information of the reference image forming apparatus is the reference image forming apparatus in the group and is classified into the group. Selection means for selecting each image forming apparatus as an image forming apparatus having image reproduction information to be used as an adjustment target for image reproduction. It is a management apparatus.

  According to a second aspect of the present invention, the accepting unit uses the image reproduction information of the image forming apparatus serving as a reference selected in advance as an adjustment target relating to image reproduction, and the image for each of the plurality of image forming apparatuses. The information processing apparatus according to claim 1, wherein an input of image reproduction information of each of the plurality of image forming apparatuses when adjustment relating to image reproduction of the forming apparatus is performed.

  According to a third aspect of the present invention, there is provided storage means for storing image reproduction information of the image forming apparatus serving as a reference selected in advance, and second receiving means for receiving input of the image reproduction information for each of the plurality of image forming apparatuses. And the image selected as the preselected reference based on the image reproduction information stored in the storage unit and the image reproduction information of each of the plurality of image forming apparatuses received by the second receiving unit. The intra-group reference updating means for updating an image forming apparatus serving as a reference in the group from among the image forming apparatuses classified into the group for each of the groups not including the forming apparatus. 2. The information processing apparatus according to 2.

  The invention according to claim 4 further includes a classifying unit that classifies the plurality of image forming apparatuses into groups based on the image reproduction information of each of the plurality of image forming apparatuses. The information processing apparatus according to the item.

  The invention according to claim 5 is the information processing apparatus according to any one of claims 1 to 4 and a plurality of image forming apparatuses that form an image based on image information, the pre-selected A plurality of image forming apparatuses that perform adjustments related to image reproduction using image reproduction information of a reference image forming apparatus or image reproduction information of a reference image forming apparatus in the group. is there.

  According to a sixth aspect of the present invention, a computer is used for receiving image reproduction information regarding image reproduction of the image forming apparatus for each of the plurality of image forming apparatuses, and for image reproduction information of each of the plurality of image forming apparatuses. Based on each of the groups in which the plurality of image forming apparatuses are classified, each of the plurality of image forming apparatuses that does not include a pre-selected reference image forming apparatus is classified into the group. Among the image forming apparatuses, an image forming apparatus having image reproduction information corresponding to the image reproduction information of the reference image forming apparatus is a reference image forming apparatus in the group, and the group is included in the group. Selection to select as an image forming apparatus having image reproduction information that each of the classified image forming apparatuses uses as an adjustment target for image reproduction Is a program for functioning as a stage.

  According to the configurations of the first, fifth, and sixth aspects of the present invention, a plurality of image forming apparatuses have a plurality of image forming apparatuses as compared with a case where adjustment relating to image reproduction is performed with the target image forming apparatus selected in advance as a target. Adjustments relating to image reproduction in the image forming apparatus can be handled.

  According to the configuration of the second aspect of the present invention, the image reproduction information of the plurality of image forming apparatuses is brought closer to the image reproduction information of the image forming apparatus serving as a reference selected in advance as compared with the case where the present configuration is not provided. be able to.

  According to the configuration of the third aspect of the present invention, it is possible to maintain the correspondence of the adjustment relating to the image reproduction in the plurality of image forming apparatuses as compared with the case where the image forming apparatus serving as the reference in the group is not updated.

  According to the configuration of claim 4 of the present invention, a plurality of image forming apparatuses can be classified into groups based on the image reproduction information.

1 is a schematic diagram illustrating a configuration of an image forming system according to an exemplary embodiment. 1 is a schematic configuration diagram of an image forming apparatus. FIG. 2 is a schematic configuration diagram of a management server, an image quality adjustment computer, and a maintenance company server. 1 is a functional block diagram of an image forming system. FIG. 6 is an explanatory diagram illustrating a method in which a management server acquires measurement calculation data from a plurality of image forming apparatuses. It is a schematic block diagram of the management database memorize | stored in the management server. It is explanatory drawing for demonstrating the calculation method of a score. It is explanatory drawing for demonstrating the color gamut for every model group. FIG. 10 is an explanatory diagram for explaining an advantage of adjusting each of the image forming apparatuses based on a group reference machine. 5 is a flowchart illustrating an image quality adjustment processing routine in the image forming system according to the embodiment. 6 is a flowchart showing the first half of an image quality management processing routine in the image forming system according to the embodiment. 6 is a flowchart illustrating a second half of an image quality management processing routine in the image forming system according to the embodiment.

<Embodiment>
Hereinafter, an example of an embodiment according to the present invention will be described with reference to the drawings.

(Image forming system)
FIG. 1 shows an example of a schematic configuration of an image forming system 10 according to the present embodiment. As shown in FIG. 1, the image forming system 10 includes a plurality of image forming apparatuses 12, an image quality management server 14, an image quality adjustment computer 15, and a maintenance company server 17. A plurality of image forming apparatuses 12 and an image quality management server 14 are connected to each other via a communication unit 13. The image quality management server 14 and the maintenance company side server 17 are connected to each other via the communication means 16. The image quality adjustment computer 15 is connected to any one of the plurality of image forming apparatuses 12. The image quality management server 14 is an example of an information processing apparatus.

  FIG. 2 illustrates a schematic configuration of the plurality of image forming apparatuses 12. As shown in FIG. 1, the image forming apparatus 12 includes a computer 18, an operation display unit 20, an image reading unit 22, an image forming unit 24, a paper supply unit 26, a paper discharge unit 28, a communication interface (I / F) 30, A telephone line interface (I / F) 32 and a hard disk 34 are included.

  The computer 18 includes a CPU (Central Processing Unit) 18A, a ROM (Read Only Memory) 18B, a RAM (Random Access Memory) 18C, a nonvolatile memory 18D, and an input / output interface (I / O) 18E via a bus 18F. It is a connected configuration.

  The I / O 18E includes an operation display unit 20, an image reading unit 22, an image forming unit 24, a paper supply unit 26, a paper discharge unit 28, a communication interface (I / F) 30, a telephone line interface (I / F) 32, Each functional unit such as the hard disk 34 is connected.

  The operation display unit 20 includes various buttons such as a start button for instructing the start of copying, various buttons such as a numeric keypad, a setting screen for setting various image forming conditions such as copy density, and the state of the apparatus. A touch panel for displaying a screen or the like is included.

  The image reading unit 22 includes an image reading sensor such as a line CCD and a scanning mechanism for scanning the image reading sensor, and reads an image of a document set on the apparatus.

  The image forming unit 24 forms an image on a recording medium by, for example, a so-called electrophotographic method. Specifically, the image forming unit 24 is a charging device for charging the photosensitive drum, and the charged photosensitive drum is exposed to light corresponding to the image to expose the static on the photosensitive drum according to the image. An exposure device that forms an electrostatic latent image, a developing device that develops toner with an electrostatic latent image formed on a photosensitive drum, and a transfer device that transfers a toner image corresponding to the image formed on the photosensitive drum to a recording medium The image forming apparatus includes a fixing device that fixes a toner image corresponding to the image transferred to the recording medium.

  Examples of the exposure apparatus include an optical scanning apparatus configured to include an optical system such as a semiconductor laser, a rotating polygon mirror, a collimator lens, a cylindrical lens, and an fθ lens, and an LED head composed of a plurality of LEDs.

  The paper supply unit 26 includes a paper storage unit that stores recording paper, a supply mechanism that supplies recording paper from the paper storage unit to the image forming unit 24, and the like.

  The paper discharge unit 28 includes a discharge unit for discharging the recording paper, a discharge mechanism for discharging the recording paper on which the image is formed by the image forming unit 24 onto the discharge unit, and the like.

  The communication I / F 30 is an interface for performing data communication with other devices such as the image quality management server 14 via the communication unit 13.

  The telephone line communication I / F 32 is an interface for performing facsimile communication with other image forming apparatuses connected via a telephone line (not shown).

  The hard disk 34 stores, for example, log data such as the status and operating status of each part of the apparatus, log data of processing results such as copying, facsimile communication, and printing, various setting data, control programs, and the like.

  In the present embodiment, the control program for each process is stored in advance in the hard disk 34 as an example, and is executed by the CPU 18A reading the control program stored in advance. Alternatively, the control program may be recorded on a recording medium such as a CD-ROM and executed by reading it with a CD-ROM drive or the like.

  FIG. 3 illustrates a schematic configuration of the image quality management server 14. As shown in the figure, the image quality management server 14 includes a computer 40.

  The computer 40 has a configuration in which a CPU 40A, a ROM 40B, a RAM 40C, a nonvolatile memory 40D, and an input / output interface (I / O) 40E are connected via a bus 40F.

  The I / O 40E includes a communication interface for data communication with other devices via the operation unit 42 including a keyboard and a mouse, the display unit 44 including a liquid crystal display, and the communication unit 13 or 16. An (I / F) 46 and a hard disk 48 for storing a control program for processing to be described later are connected.

  In the present embodiment, a control program related to a processing routine to be described later is stored in advance in the hard disk 48 as an example, and is executed by the CPU 40A reading the control program stored in advance. Alternatively, the control program may be recorded on a recording medium such as a CD-ROM and executed by reading it with a CD-ROM drive or the like.

  Similarly to the image quality management server 14, the image quality adjustment computer 15 and the maintenance company side server 17, as shown in FIG. 3, include a computer 40, an operation unit 42, a display unit 44, and a communication interface (I / F). 46 and a hard disk 48 and the like.

  Here, the image quality adjustment computer 15 is a computer carried by a customer engineer of a service maintenance company that manages and operates the image forming system 10. The customer engineer connects an image quality adjustment computer 15 to each of the image forming apparatuses 12 and adjusts the image quality of the image forming apparatus.

  The maintenance company server 17 is a computer that receives a signal issued by the image quality management server 14 when maintenance is required for the image forming apparatus.

  FIG. 4A shows a functional block diagram of the computer 18 of the image forming apparatus 12. FIG. 4B shows a functional block diagram of the computer 40 of the image quality management server 14.

  The computer 18 of the image forming apparatus 12 includes a scan data reception unit 120, a measurement calculation unit 122, an output unit 124, a reference data reception unit 126, and an image quality adjustment unit 128.

  The scan data receiving unit 120 receives scan data obtained by reading the management chart by the image reading unit 22.

  Here, as shown in FIG. 5, the management chart is a chart configured to include various colors, and is used to acquire information related to image reproduction of the image forming apparatus 12. Specifically, first, the image forming apparatus 12 performs management chart printing processing by an operation of a customer engineer or the like of a maintenance service company. Next, the customer management engineer scans the printed management chart by the image reading unit 22 of the image forming apparatus 12. The scan data receiving unit 120 receives an input of the scanned management chart image.

  The measurement calculation unit 122 measures the color of the image of the management chart received by the scan data reception unit 120 and calculates measurement calculation data that is information related to image reproduction of the image forming apparatus 12. The measurement calculation data includes, for example, information about monochrome gradation reproduction (hereinafter, single-color gradation reproduction performance information), information about color reproduction (hereinafter, color reproduction performance information), and information about density reproduction (hereinafter, “color reproduction performance information”). , Density reproduction performance information). The measurement calculation data is an example of image reproduction information.

  The output unit 124 transmits the measurement calculation data calculated by the measurement calculation unit 122 to the image quality management server 14 via the communication unit 13 as shown in FIG.

  The reference data receiving unit 126 receives various data related to the image reproduction adjustment reference received from the image quality management server 14, and stores the received various data in the nonvolatile memory 18D.

  The image quality adjustment unit 128 performs adjustment related to image reproduction of the image forming apparatus 12 based on the adjustment signal input from the image quality adjustment computer 15. For example, the monochrome gradation reproduction performance, color reproduction performance, and density reproduction performance are adjusted.

  The image quality management server 14 includes a data receiving unit 140, a management database 142, a setting unit 144, an updating unit 152, and a data output unit 160. The data reception unit 140 is an example of a reception unit and a second reception unit. The management database 142 is an example of a storage unit.

  The data receiving unit 140 receives input of measurement calculation data transmitted from each of the plurality of image forming apparatuses 12.

  As shown in FIG. 6, various types of data including measurement calculation data received by the data receiving unit 140 are stored in the management database 142 for each image forming apparatus 12. Further, as shown in FIG. 6, the management database 142 stores various types of data relating to image reproduction adjustment standards. For example, the management database 142 stores measurement calculation data determined in advance by the user as a quality standard. In addition, the management database 142 includes information on single-color gradation reproduction (hereinafter, single-color gradation reproduction performance information), information on color reproduction (hereinafter, color reproduction performance information), and information on density reproduction. (Hereinafter, density reproduction performance information) and the like are stored.

  Here, the monochromatic gradation reproduction performance information, the color reproduction performance information, and the density reproduction performance information are determined in advance by the user. Of the plurality of image forming apparatuses 12, image formation that reproduces the information well. The apparatus is selected as an image forming apparatus (hereinafter referred to as a quality reference machine) that serves as the overall reference, and quality reference machine information is stored in the management database 142.

  Here, as a precondition for the quality standard machine to be selected, it is possible to manage and adjust the characteristics of the equipment in the image forming apparatus, that the equipment characteristics in the image forming apparatus are in compliance with the performance specifications. For example, it is possible to generate, apply, and manage color conversion profiles (color attributes of the input device and output device of the image forming apparatus), and to maintain and manage a single color gradation. It is done.

  In the image forming apparatus 12 selected as the quality standard machine, adjustments relating to image reproduction are performed so as to approach the single-color gradation reproduction performance information, color reproduction performance information, and density reproduction performance information. Then, measurement calculation data obtained from the image forming apparatus 12 that is a quality standard machine that has been adjusted for image reproduction is stored in the management database 142 as quality standard target data.

  The measurement calculation data for each image forming apparatus 12 stored in the management database 142 is updated each time measurement calculation data is transmitted from the image forming apparatus 12.

  In the management database 142, each data is managed for each of the image forming apparatuses 12 by a user ID, a model group ID, a serial number, and the like.

  The setting unit 144 includes a score calculation unit 146, a classification unit 148, and a selection unit 150.

  The score calculation unit 146 determines the degree of coincidence between the quality reference target data for each of the image forming apparatuses 12 based on the quality reference target data stored in the management database 142 and the measurement calculation data of the image forming apparatus 12. The score according to is calculated. Here, the score is calculated based on the weight based on the performance priority preset by the user.

  For example, when the priority of the performance set by the user is monochromatic gradation reproduction performance> color reproduction performance> density reproduction performance, the score is calculated as follows.

  FIG. 7 shows an example of score calculation. In FIG. 7, when the priority is monochrome gradation reproduction performance> color reproduction performance> density reproduction performance, for each weight, the weight for the monochrome reproduction performance is 1 and the weight for the color reproduction performance is 3/4. The weight for the density reproduction performance is set as 1/2. In this case, the quality standard target data is compared with the measurement calculation data of the image forming apparatus, and the score is determined based on the degree of coincidence for each of the monochrome gradation reproduction performance, color reproduction performance, and density reproduction performance. Calculated.

  Specifically, the score calculation unit 146 has a difference ΔE in the L * a * b * color space between the color reproduction performance information of the quality reference target data and the color reproduction performance information of the measurement calculation data of the image forming apparatus 12. * Calculate ab. Then, a score relating to the color reproduction performance is calculated according to the difference ΔE * ab. If the difference ΔE * ab is greater than or equal to a predetermined value, the score relating to color reproduction performance is set to zero.

  The classification unit 148 classifies the plurality of image forming apparatuses 12 into groups based on the measurement calculation data of the plurality of image forming apparatuses 12. Specifically, the classification unit 148 first calculates the color gamut reproduced by the image forming apparatus based on the measurement calculation data stored in the management database 142 for each of the image forming apparatuses 12. Then, the classifying unit 148 calculates a hue difference ΔH * for each color of the color gamut based on the color gamut calculated for the pair of image forming apparatuses 12 for each pair of the image forming apparatuses 12, and the hue difference ΔH * is less than or equal to a predetermined value, and the L * value of 100% coverage black formed by Process (Yellow, Magenta, Cyan) is calculated, and the reproducible minimum brightness value between comparison targets is If the difference is less than or equal to a predetermined value, the pair is determined to be the same group. On the other hand, if the hue difference ΔH * or the difference in the minimum brightness value is larger than a predetermined value, the classification unit 148 determines that the pair is a different group. The classification unit 148 classifies the plurality of image forming apparatuses 12 into a plurality of groups based on the determination result for each pair of the image forming apparatuses 12. An example of the color gamut reproduced by the image forming apparatus is shown in FIG.

  FIG. 8 shows the color gamuts for model A, model B, and model C. FIG. 8 shows an a * b * color space, where Y represents Yellow, G represents Green, C represents Cyan, B represents Blue, M represents Magenda, and R represents Red. It represents the color gamut that the device 12 reproduces.

  8A and 8B show color gamuts reproduced by the image forming apparatuses 12 of the models A and B. FIG. When the color gamut of FIG. 8 (A) is superimposed and displayed on FIG. 8 (B), the hue is rotated, and the hue of model A and the hue of model B are different for each color of R, G, and B. , You can see that there is a gap. Further, since the color gamut of the model B is smaller than the color gamut of the model A, it can be seen that the color reproduction of the model B has a lower contrast than the color reproduction of the model A.

  Further, when the color gamut of FIG. 8A is superimposed and displayed on FIG. 8C, it can be seen that the color gamuts are similar and the contrast can be secured. However, it can be seen that the hue is shifted in the region B. Therefore, the model A and the model C are classified into different groups.

  Based on the measurement calculation data of each of the plurality of image forming apparatuses 12, the selection unit 150 classifies each of the groups classified by the classification unit 148 to the group to which the quality standard machine does not belong. From the image forming apparatuses 12, a reference machine (hereinafter referred to as a group reference machine) that is a reference image forming apparatus in the group is selected.

  Specifically, the selection unit 150 uses the score calculation unit 146 of the image forming apparatuses 12 belonging to the group for each of the groups classified by the classification unit 148 to which the quality standard machine does not belong. The image forming apparatus 12 with the highest calculated score is selected as the group reference machine.

  Further, the selection unit 150 stores information related to the image forming apparatus 12 selected as the group reference machine as group reference machine information in the management database 142 for each group, and the image forming apparatus 12 selected as the group reference machine. Are stored in the management database 142 for each group as group reference target data.

  The update unit 152 includes a score calculation unit 154, a reference update unit 156, and an in-group reference update unit 158.

  For each of the image forming apparatuses 12, the score calculation unit 154 is based on the quality standard target data stored in the management database 142 and the measurement calculation data of the image forming apparatus 12, similar to the score calculation unit 146. A score corresponding to the degree of coincidence with the quality standard target data is calculated.

  Based on the score calculated by the score calculation unit 146 for each of the image forming apparatuses 12 in the group to which the quality reference machine belongs, the reference updating unit 156 is the most out of each of the image forming apparatuses 12 in the group to which the quality reference machine belongs. The image forming apparatus 12 having a high score is updated as a quality standard machine.

  The intra-group reference updating unit 158 is configured to, for each group that does not include a quality reference machine, based on the score calculated by the score calculation unit 146 for each of the image forming apparatuses 12 that belong to the group. The image forming apparatus 12 having the highest score among each of the 12 is updated as the group reference machine of the group. In addition, if the score of the updated group reference machine is larger than the maximum score of the group reference machine in the past, the intra-group reference update unit 158 uses the updated measurement calculation data of the group reference machine as reference target data. Store in the management database 142.

  The data output unit 160 transmits the quality standard target data and quality standard machine information stored in the management database 142 to each of the image forming apparatuses 12 belonging to the group including the quality standard machine. In addition, the data output unit 160, for each group that does not include the quality reference machine, for each image forming apparatus 12 that belongs to the group, the group reference machine of the group to which the image forming apparatus stored in the management database 142 belongs. Transmit information and group reference target data.

  The image quality adjustment computer 15 reads the quality standard target data or standard target data and the measurement calculation data of the image forming apparatus 12 from the connected image forming apparatus 12, and the quality standard target data or standard target data, The measurement calculation data of the image forming apparatus 12 is displayed on the display unit 44. In response to the operation of the operation unit 42 of the customer engineer, the image quality adjustment computer 15 outputs an adjustment signal related to image reproduction to the image forming apparatus 12 and performs adjustment related to image reproduction of the image forming apparatus 12.

  Here, an adjustment procedure for a plurality of image forming apparatuses 12 by a customer engineer will be described.

  FIG. 9 shows a color tone diagram centering on a quality standard machine. In FIG. 9, the quality standard machine is a star mark, the image forming apparatus belonging to the same group A as the quality standard machine is marked with a cross in the circle, the image forming apparatus belonging to a different group B from the quality standard machine is marked with a triangle in the circle B group reference machine is represented by ◎.

  A case where the quality standard machine belongs to group A as shown in FIG.

  First, adjustment relating to image reproduction is performed for each of the plurality of image forming apparatuses 12 using the quality standard target data of the quality standard machine as a target. As a result, as shown in FIG. 9B, each of the image forming apparatuses belonging to group A and each of the image forming apparatuses belonging to group B are adjusted so as to approach the quality standard machine.

  The image forming apparatuses 12 belonging to the group A become a small group centering on the quality standard machine on the color diagram because there is a slight difference in the devices constituting the image forming apparatus.

  Next, for each of the image forming apparatuses 12 belonging to the group B, the group reference target data of the group reference machine of the group B selected based on the measurement calculation data obtained as a result of the adjustment is used as a target. Make adjustments related to image reproduction. Accordingly, as shown in FIG. 9C, each of the image forming apparatuses 12 belonging to the group B is adjusted so as to approach the group reference machine of the group B, and the entire group B is small with the group reference machine as the center. Become a collective. As a result, the small group of group A and the small group of group B are collected into a unified relationship.

  The maintenance company-side server 17 receives the notification transmitted from the image quality management server 14 and displays information indicating the received notification on the display unit 44.

<Operation of image forming system>

  Next, the operation of the image forming system 10 according to the present embodiment will be described. When the plurality of image forming apparatuses 12 and the image quality management server 14 are installed, the customer engineer connects the image quality adjusting computer 15 to the image forming apparatus 12 selected in advance as a quality standard machine, and the image quality adjusting computer 15 is connected. Is operated to output an adjustment signal, and the image forming apparatus 12 which is a quality standard machine is adjusted. Then, the customer engineer operates the image forming apparatus 12 which is a quality standard machine to output a management chart. Next, when the image forming apparatus 12 that is a quality standard machine scans the management chart and receives scan data of the management chart by the scan data reception unit 120 by the operation of the customer engineer, the measurement calculation data is received by the measurement calculation unit 122. The measurement calculation data of the quality standard machine is transmitted to the image quality management server 14 by the output unit 124.

  Next, when the image quality management server 14 receives the measurement calculation data transmitted from the image forming apparatus 12 which is a quality standard machine, it stores it in the management database 142 as quality standard target data. Then, the image quality management server 14 transmits the quality standard target data to each image forming apparatus 12.

  Each image forming apparatus 12 receives the quality reference target data transmitted by the image quality management server 14 and receives it by the reference data receiving unit 126.

  Then, the customer engineer connects the image quality adjustment computer 15 to the image forming apparatus 12 that is not the quality standard machine, and acquires quality standard target data from the image forming apparatus 12. Further, when the customer engineer operates the image forming apparatus 12, a management chart is output. Next, when the image forming apparatus 12 scans the management chart and receives scan data of the management chart by the scan data receiving unit 120 by the operation of the customer engineer, the measurement calculation data is calculated by the measurement calculation unit 122. A customer engineer operates the image quality adjustment computer 15 to acquire measurement calculation data from the image forming apparatus 12. The customer engineer calculates adjustment information related to image reproduction based on the measurement calculation data of the image forming apparatus 12 and the quality reference target data, and operates the image quality adjustment computer 15 in accordance with the adjustment information. Output a signal for As a result, the image quality adjustment unit 128 of the image forming apparatus 12 performs adjustment related to the image reproduction of the image forming apparatus 12. Then, a management chart is output from the image forming apparatus after completion of adjustment by the operation of the customer engineer. Next, when the image forming apparatus 12 scans the management chart and receives the scan data of the management chart by the scan data reception unit 120 by the operation of the customer engineer, the measurement calculation data is calculated by the measurement calculation unit 122 and output. The unit 124 transmits the measurement calculation data of the image forming apparatus 12 to the image quality management server 14. Upon receiving the measurement calculation data transmitted from the image forming apparatus 12, the image quality management server 14 stores the received measurement calculation data in the management database 142.

  The adjustment related to the image reproduction and the transmission of the measurement calculation data are repeated for each of the image forming apparatuses 12 that are not the quality standard machines.

  Then, the image quality management server 14 executes the image quality adjustment processing routine shown in FIG.

  First, in step S100, the score calculation unit 146 uses the quality reference target data stored in the management database 142 and the measurement calculation data of the image forming apparatus 12 for each of the image forming apparatuses 12, based on the quality reference target data. A score corresponding to the degree of coincidence with the target data is calculated.

  In step S <b> 102, the classification unit 148 classifies the plurality of image forming apparatuses 12 into groups based on the measurement calculation data of the image forming apparatuses 12 stored in the management database 142.

  In step S104, one group to be processed is set from the groups to which the image forming apparatus 12 that is the quality standard machine does not belong.

  In step S106, a group reference is selected from among the image forming apparatuses 12 belonging to the processing target group based on the score calculated in step S100 of each of the image forming apparatuses 12 belonging to the processing target group by the selection unit 150. Select the machine.

  In step S108, information indicating the image forming apparatus 12 serving as the group reference machine selected in step S106 is stored in the management database 142 as group reference machine information, and the measurement calculation of the image forming apparatus 12 serving as the group reference machine is performed. The data is stored in the management database 142 as group reference target data.

  In step S110, it is determined whether or not the processes in steps S104 to S108 have been executed for all groups to which the image forming apparatus 12 that is a quality standard machine does not belong. If the processes in steps S104 to S108 have been executed for all groups to which the image forming apparatus 12 that is a quality standard machine does not belong, the process proceeds to step S126. On the other hand, if there is a group that has not executed the processes in steps S104 to S108, the process returns to step S104.

  In step S112, the group reference machine information and group reference target data of the group stored in the management database 142 for each group to which the image forming apparatus 12 that is a quality reference machine does not belong are displayed by the data output unit 160. Transmission to each image forming apparatus 12 belonging to the group, and the image quality adjustment processing routine ends.

  Each image forming apparatus 12 receives group reference machine information and group reference target data transmitted from the image quality management server 14 by the reference data receiving unit 126.

  Then, the customer engineer connects the image quality adjustment computer 15 to the image forming apparatus 12 belonging to the group that does not include the image forming apparatus 12 that is a quality reference machine, and acquires group reference target data from the image forming apparatus 12.

  Further, the customer engineer operates the image quality adjustment computer 15 to acquire measurement calculation data from the image forming apparatus 12. The customer engineer calculates adjustment information related to image reproduction based on the measurement calculation data of the image forming apparatus 12 and the group reference target data, and operates the image quality adjustment computer 15 in accordance with the adjustment information. Output a signal for As a result, the image quality adjustment unit 128 of the image forming apparatus 12 performs adjustment related to the image reproduction of the image forming apparatus 12. The above-described adjustment relating to image reproduction is repeated for each image forming apparatus 12 belonging to a group that does not include the image forming apparatus 12 that is a quality standard machine.

  Next, the image quality management processing routine shown in FIG. 11 will be described. The image quality management server 14 outputs a signal related to maintenance management to the maintenance company side server 17 for each predetermined period. When the maintenance company side server 17 receives a signal related to maintenance from the image quality management server 14, the customer engineer visits the installation locations of the plurality of image forming apparatuses 12.

  When the customer engineer operates the image forming apparatus 12, the management chart is output by the image forming apparatus 12. Next, when the image forming apparatus 12 scans the management chart and receives scan data of the management chart by the scan data receiving unit 120 by the operation of the customer engineer, the measurement calculation data is calculated by the measurement calculation unit 122. The output calculation unit 124 transmits measurement calculation data of the image forming apparatus to the image quality management server 14. Upon receiving the measurement calculation data transmitted from the image forming apparatus 12, the image quality management server 14 stores the received measurement calculation data in the management database 142.

  The transmission of the measurement calculation data is repeated for each image forming apparatus 12.

  Then, the image quality management processing routine shown in FIG. 11 is executed by the image quality management server 14.

  First, in step S200, the score calculation unit 154 uses the quality reference target data stored in the management database 142 and the measurement calculation data of the image forming apparatus 12 for each of the image forming apparatuses 12 based on the quality reference target data. A score corresponding to the degree of coincidence with the target data is calculated.

  In step S202, the image forming apparatus 12 having the highest score among the scores of the image forming apparatus 12 calculated in step S200 determines whether or not it is the current quality standard machine. If the image forming apparatus 12 having the highest score is the current quality standard machine, the process proceeds to step S210. On the other hand, if the image forming apparatus having the highest score is not the current quality standard machine, the process proceeds to step S204.

  In step S204, the image quality management server 14 outputs a signal to the maintenance company side server 17 to notify that the current quality standard machine requires maintenance.

  In step S206, based on the score calculated in step S200 for each image forming apparatus in the group to which the current quality reference machine belongs by the reference update unit 156, the image forming apparatus in the group to which the current quality reference machine belongs. Among them, the image forming apparatus 12 having the highest score is selected as a new quality standard machine.

  In step S208, the standard updating unit 156 stores the new quality standard machine selected in step S206 in the management database 142, and updates the quality standard machine.

  In step S210, one group to be processed is set from the groups to which the image forming apparatus 12 that is the quality standard machine does not belong.

  In step S212, based on the scores of the image forming apparatuses 12 belonging to the processing target group calculated in step S200, the image forming apparatus 12 having the highest score in the processing target group determines the current group reference machine. It is determined whether or not. If the image forming apparatus 12 having the highest score is the current group reference machine, the process proceeds to step S214. On the other hand, if the image forming apparatus 12 having the highest score is not the current group reference machine, the process proceeds to step S216.

  In step S214, it is determined whether or not the current score of the group reference machine of the processing target group calculated in step S200 is higher than the previous score of the group reference machine. If the current score of the group reference machine is higher than the previous score of the group reference machine, the process proceeds to step S226. On the other hand, if the score of the group reference machine calculated in step S200 is equal to or lower than the previous score of the group reference machine, the process proceeds to step S228.

  In step S216, it is determined whether or not the difference between the current score of the group reference machine of the processing target group calculated in step S200 and the previous score of the group reference machine is within a predetermined threshold. . If the difference is within a predetermined threshold, the process proceeds to step S220. When the difference is larger than a predetermined threshold value, the process proceeds to step S218.

  In step S218, the image quality management server 14 outputs a signal to the maintenance company server 17 to notify that the current group reference machine needs maintenance.

  In step S220, the image forming apparatus having the highest score in the processing target group based on the scores of the image forming apparatuses 12 belonging to the processing target group calculated in step S200 by the intra-group reference updating unit 158. 12 is selected as a new group reference machine for the group to be processed.

  In step S222, the group reference machine selected in step S220 is stored in the management database 142 by the intra-group reference update unit 158, and the group reference machine of the processing target group is updated.

  In step S224, it is determined whether the score of the new group reference machine of the group to be processed calculated in step S200 is a value equal to or less than the maximum score of the past group reference machine. If the score of the new group reference machine calculated in step S200 is equal to or less than the maximum score of the past group reference machine, the process proceeds to step S228. On the other hand, when the score of the new group reference machine calculated in step S200 is larger than the maximum score of the past group reference machine, the process proceeds to step S226.

  In step S226, the measurement calculation data of the group reference machine is stored in the management database 142 as group reference target data.

  In step S228, it is determined whether or not the processing in steps S210 to S228 has been executed for all groups to which the image forming apparatus 12 that is a quality standard machine does not belong. If the processes in steps S210 to S228 have been executed for all groups to which the image forming apparatus 12 that is a quality standard machine does not belong, the process proceeds to step S232. On the other hand, if there is a group that has not executed the processes in steps S210 to S228, the process returns to step S210.

  In step S230, the group reference machine information and group reference target data of the group stored in the management database 142 for each group to which the image forming apparatus 12 that is a quality reference machine does not belong are displayed by the data output unit 160. Transmission to each image forming apparatus 12 belonging to the group ends the image quality management processing routine.

  Each image forming apparatus 12 receives group reference machine information and group reference target data transmitted from the image quality management server 14 by the reference data receiving unit 126.

  Then, the customer engineer connects the image quality adjustment computer 15 to the image forming apparatus 12 belonging to the group that does not include the image forming apparatus 12 that is a quality reference machine, and acquires group reference target data from the image forming apparatus 12.

  Further, the customer engineer operates the image quality adjustment computer 15 to acquire measurement calculation data from the image forming apparatus 12. The customer engineer calculates adjustment information related to image reproduction based on the measurement calculation data of the image forming apparatus 12 and the group reference target data, and operates the image quality adjustment computer 15 in accordance with the adjustment information. Output a signal for As a result, the image quality adjustment unit 128 of the image forming apparatus 12 performs adjustment related to the image reproduction of the image forming apparatus 12. The above-described adjustment relating to image reproduction is repeated for each image forming apparatus 12 belonging to a group that does not include the image forming apparatus 12 that is a quality standard machine.

  As described above, among the groups in which the plurality of image forming apparatuses 12 are classified, for each of the groups that do not include the quality standard machine, from among the image forming apparatuses 12 classified in the group, as adjustment targets for image reproduction. Since the group reference machine having the measurement calculation data to be used is selected, the reproduction of the image quality is unified.

  Although the image forming system according to the present embodiment has been described above, the present invention is not limited to the above embodiment.

  For example, in the present embodiment, a case has been described in which the degree of coincidence of the single color gradation reproduction performance, the color reproduction performance, and the density reproduction performance is used when calculating the score. The degree of coincidence of other reproduction performance may be added to the degree of coincidence of performance, color reproduction performance, and density reproduction performance. For example, a degree of coincidence such as line reproduction performance or performance related to image density unevenness may be added.

  In this embodiment, the case where the monochrome gradation reproduction performance, the color reproduction performance, and the density reproduction performance are used as various data related to the image reproduction adjustment reference has been described as an example. Other reproduction performances may be added to the performance, color reproduction performance, and density reproduction performance. For example, line reproducibility or performance related to image density unevenness may be added. In this case, calculation of scores, adjustment information regarding image reproduction, and the like are performed in a state including other reproduction performance.

  In this embodiment, the case where the classification unit 148 classifies the plurality of image forming apparatuses 12 into groups has been described as an example. However, the present invention is not limited thereto, and a plurality of image forming apparatuses may be formed based on the model of the image forming apparatus. The devices 12 may be classified into groups.

  In the present embodiment, the case where the group reference machine is selected by the selection unit 150 has been described as an example, but the present invention is not limited to this. For example, the group reference machine may be selected by the selection unit 150, the selected group reference machine may be presented to the user, and the group reference machine may be finally selected by the user or the customer engineer.

  In this embodiment, the case where the plurality of image forming apparatuses 12 and the image quality management server 14 transmit and receive various data via the communication unit 13 is described as an example. However, the present invention is not limited to this. Absent. For example, an image quality adjustment computer 15 carried by a customer engineer on the image forming apparatus 12 side may be connected to the communication means so as to transmit and receive various data with the image quality management server 14.

  In addition, when at least one of the quality reference machine and the group reference machine is updated, a notification that at least one of the quality reference machine and the group reference machine has been updated is sent to the user or the like via the communication means. Good.

  In each of the above embodiments, the L * a * b * color space is used as the color space. However, the present invention is not limited to this, and other color spaces may be used.

  Further, in each of the above embodiments, the present invention has been described by exemplifying an embodiment in which the present invention is applied to an electrophotographic image forming apparatus. .

  Furthermore, the flow of processing of the image quality adjustment processing routine and the image quality management processing routine described in the above embodiment (see FIGS. 10, 11, and 12) is an example, and is not necessary within the scope of the present invention. Steps may be deleted, new steps may be added, or the processing order may be changed.

  The present invention can be provided by being stored in a recording medium such as a CD-ROM as well as provided by communication means.

  The configuration of the image forming system 10 described in the present embodiment (see FIG. 1) is merely an example, and unnecessary portions are deleted or new portions are added within the scope not departing from the gist of the present invention. Needless to say.

  The present invention is not limited to the above-described embodiment, and various modifications, changes, and improvements can be made. For example, the above-described modified examples may be appropriately combined.

DESCRIPTION OF SYMBOLS 10 Image forming system 12 Image forming apparatus 13, 16 Communication means 14 Image quality management server 15 Image quality adjusting computer 17 Maintenance company side server 18 Computer 20 Operation display unit 22 Image reading unit 24 Image forming unit 34 Hard disk 40 Computer 42 Operation unit 44 Display Unit 120 scan data reception unit 122 measurement calculation unit 124 output unit 126 reference data reception unit 128 image quality adjustment unit 140 data reception unit 142 management database 144 setting unit 146 score calculation unit 148 classification unit 150 selection unit 152 update unit 154 score calculation unit 156 Reference update unit 158 In-group reference update unit 160 Data output unit

Claims (6)

Receiving means for receiving input of image reproduction information related to image reproduction of the image forming apparatus for each of a plurality of image forming apparatuses;
Based on the image reproduction information of each of the plurality of image forming apparatuses, an image forming apparatus serving as a preselected reference of the plurality of image forming apparatuses is selected from each group in which the plurality of image forming apparatuses are classified. For each of the groups not included, an image forming apparatus having image reproduction information corresponding to the image reproduction information of the reference image forming apparatus is selected from among the image forming apparatuses classified into the group as a reference in the group. Selecting means for selecting as an image forming apparatus having image reproduction information to be used as a target of adjustment relating to image reproduction by each of the image forming apparatuses classified into the group,
An information processing apparatus including:   The accepting unit uses the image reproduction information of the image forming apparatus serving as the reference selected in advance as an adjustment target relating to image reproduction, and performs adjustment relating to image reproduction of the image forming apparatus for each of the plurality of image forming apparatuses. The information processing apparatus according to claim 1, wherein an input of image reproduction information of each of the plurality of image forming apparatuses is received when performing the operation. Storage means for storing image reproduction information of the image forming apparatus serving as a reference selected in advance;
Second receiving means for receiving input of the image reproduction information for each of the plurality of image forming apparatuses;
Based on the image reproduction information stored in the storage unit and the image reproduction information of each of the plurality of image forming apparatuses received by the second receiving unit, the image forming apparatus serving as the preselected reference An intra-group reference updating unit for updating an image forming apparatus serving as a reference in the group from among the image forming apparatuses classified into the group for each of the groups not including
The information processing apparatus according to claim 1, further comprising:   The information processing apparatus according to any one of claims 1 to 3, further comprising a classifying unit that classifies the plurality of image forming apparatuses into groups based on image reproduction information of each of the plurality of image forming apparatuses. An information processing apparatus according to any one of claims 1 to 4,
A plurality of image forming apparatuses that form an image based on image information, the image reproduction information of the image forming apparatus serving as a reference selected in advance, or the image reproduction information of an image forming apparatus serving as a reference in the group A plurality of image forming apparatuses that perform adjustments related to image reproduction;
Including an image forming system. Computer
Accepting means for receiving input of image reproduction information relating to image reproduction of the image forming apparatus for each of the plurality of image forming apparatuses, and the plurality of image forming apparatuses based on the image reproduction information of each of the plurality of image forming apparatuses Among each of the classified groups, for each of the groups that do not include a preselected reference image forming apparatus among the plurality of image forming apparatuses, among the image forming apparatuses classified into the group, the reference and An image forming apparatus having image reproduction information corresponding to the image reproduction information of the image forming apparatus is a reference image forming apparatus in the group, and each of the image forming apparatuses classified into the group is an image. Program for functioning as a selection means for selecting as an image forming apparatus having image reproduction information used as an adjustment target for reproduction Beam.