JP2019119142A - Image formation apparatus, image formation method, image formation system and image formation program - Google Patents

Abstract

To provide an image formation apparatus which has the stable image quality on the basis of the stability of the image quality with respect to the variable factor such as the secular factor and environment change of the plurality of image formation apparatuses.SOLUTION: An image formation apparatus which can be used in image formation proxy processing includes: a retrieval processing unit which retrieves other image formation apparatuses other than a first image formation apparatus which can be used in image formation proxy processing when the image formation apparatus is set as the first image formation apparatus; and a proxy request unit which acquires the variation history amount of the adjustment amount in calibration of the first image formation apparatus, selects at least one of the second image formation apparatuses and requests the image formation proxy processing when the retrieved image formation apparatuses are set as the second image formation apparatuses. The proxy request unit acquires the variation history amount of the second image formation apparatus, selects the second image formation apparatus having the smaller variation history amount than the variation history amount of the first image formation apparatus and requests the image formation proxy processing to the selected second image formation apparatus.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an image forming apparatus, an image forming method, an image forming system, and an image forming program.

  In recent years, a technology has been proposed in which an image forming apparatus is selected to execute a printing process in an image forming system including a plurality of image forming apparatuses connected to a network. As such technology, for example, Patent Document 1 automatically selects an image forming apparatus with the least unevenness from among a plurality of image forming apparatuses, and performs printing stable in image quality in consideration of in-plane uneven color difference. We propose an imaging system to do. Patent Document 2 proposes a technique for selecting an image forming apparatus in accordance with a desired print condition including a time after image stabilization processing. The time after the image stabilization process is an elapsed time from the completion of the process for obtaining an image of a predetermined quality by correcting deterioration of various images such as a change in image quality and a shift of an image which occur over time.

JP 2007-86847 A Unexamined-Japanese-Patent No. 2011-221997

  However, the inventor of the present application claims that the image forming apparatus has a device with low stability in which the image quality is likely to fluctuate with changes in the environment and the number of printed sheets, and a device with high stability in which the image quality is unlikely to fluctuate. We found individual differences in stability.

  The present invention has been made in view of such a situation, and selects an image forming apparatus with stable image quality based on the stability of image quality with respect to fluctuation factors such as temporal factors of plural image forming apparatuses and environmental changes. The purpose is to provide technology.

  The present invention provides an image forming apparatus that can be used for image forming proxy processing. When the image forming apparatus is the first image forming apparatus, a search processing unit searches for an image forming apparatus other than the first image forming apparatus that can be used for the image forming proxy process. And, when acquiring the fluctuation history amount of the adjustment amount in the calibration of the first image forming apparatus, and using the searched image forming apparatus as a second image forming apparatus, one of the second image forming apparatuses The proxy request unit selects at least one and requests the image forming proxy process, and the proxy request unit further acquires the fluctuation history amount of the second image forming apparatus, and the first process The second image forming apparatus having the fluctuation history amount smaller than the fluctuation history amount of the image forming apparatus is selected, and the image forming proxy process is requested to the selected second image forming apparatus.

  The present invention provides an image forming system having a plurality of image forming apparatuses that can be used for image forming proxy processing. The image forming system includes a search processing unit in which one of the plurality of image forming apparatuses searches for an image forming apparatus other than the one of the plurality of image forming apparatuses. When the one image forming apparatus is a first image forming apparatus, the variation history amount of the adjustment amount in the calibration of the first image forming apparatus is acquired, and the searched image forming apparatus is a second image And a proxy request unit for selecting at least one of the second image forming apparatuses and requesting the image forming proxy process, and the proxy request unit further includes: And acquiring the fluctuation history amount of the image forming apparatus, selecting the second image forming apparatus having the fluctuation history amount smaller than the fluctuation history amount of the first image forming apparatus, and selecting the selected second image forming apparatus. In the second image forming apparatus And requests the image formation proxy process.

  The present invention provides an image forming method using a plurality of image forming apparatuses that can be used for image forming proxy processing. The image forming method includes a search processing step in which one image forming apparatus among the plurality of image forming apparatuses searches for an image forming apparatus other than the one image forming apparatus among the plurality of image forming apparatuses. When the one image forming apparatus is a first image forming apparatus, the variation history amount of the adjustment amount in the calibration of the first image forming apparatus is acquired, and the searched image forming apparatus is a second image And a proxy request process of selecting at least one of the second image forming apparatuses and requesting the image forming proxy process, and the proxy request process further includes the second process. And acquiring the fluctuation history amount of the image forming apparatus, selecting the second image forming apparatus having the fluctuation history amount smaller than the fluctuation history amount of the first image forming apparatus, and selecting the selected second image forming apparatus. Before 2 image forming devices And requests the image formation proxy process.

  The present invention provides an image forming program for controlling an image forming apparatus that can be used for image forming proxy processing. When the image forming apparatus is used as a first image forming apparatus, the image forming program searches for another image forming apparatus other than the first image forming apparatus that can be used for the image forming proxy process. And when acquiring the fluctuation history amount of the adjustment amount in the calibration of the first image forming apparatus, and using the searched image forming apparatus as a second image forming apparatus, the second image forming apparatus The image forming apparatus is caused to function as a proxy request unit that selects at least one and requests the image forming proxy process, and the proxy request unit further acquires the fluctuation history amount of the second image forming apparatus. Selecting the second image forming apparatus having the variation history amount smaller than the variation history amount of the first image forming device, and performing the image forming proxy process on the selected second image forming device Rely on To.

  According to the present invention, there is provided a technology for selecting an image forming apparatus with stable image quality based on the stability of the image quality with respect to fluctuation factors such as temporal factors of plural image forming apparatuses and environmental changes.

FIG. 1 is a schematic configuration view showing an entire configuration of an image forming system according to an embodiment of the present invention. 5 is a flowchart showing the contents of an image forming proxy process according to an embodiment. It is a flowchart which shows the content of the apparatus selection process sequence which concerns on one Embodiment. It is an explanatory view showing the contents of apparatus selection processing concerning one embodiment. It is an explanatory view showing the contents of change history amount management processing procedure concerning one embodiment.

  Hereinafter, modes for carrying out the present invention (hereinafter, referred to as “embodiments”) will be described with reference to the drawings.

  FIG. 1 is a schematic configuration view showing an entire configuration of an image forming system 10 according to an embodiment of the present invention. In the present embodiment, the image forming system 10 includes four image forming apparatuses 100 (100a to 100d) and a local area network (simply referred to as a LAN) 300 connecting these. That is, the image forming system 10 is configured by connecting a plurality of image forming apparatuses 100 to one another via the LAN 300. The four image forming apparatuses 100 a to 100 c have the same configuration as the image forming apparatus 100. A plurality of personal computers 200 are also connected to the LAN 300.

  The image forming apparatus 100 includes a control unit 110, an image reading unit 120, an image forming unit 130, a storage unit 140, a communication interface unit 150 (also referred to as communication I / F), and an operation display unit 160. ing. The image reading unit 120 reads an image from a document, generates an image data ID which is digital data of RGB, and transmits the image data ID to the image forming unit 130. The image forming unit 130 can form an image on a print medium using toners of respective colors of cyan (C), yellow (Y), magenta (M), and black (K). The operation display unit 160 receives a user's operation input from a display (not shown) functioning as a touch panel, various buttons and switches (not shown).

  The control unit 110 includes a main storage unit such as a RAM and a ROM, and a control unit such as an MPU (Micro Processing Unit) and a CPU (Central Processing Unit). The control unit 110 also has a controller function related to interfaces such as various I / Os, USB (Universal Serial Bus), buses, and other hardware, and controls the entire image forming apparatus 100. The control unit 110 includes an image analysis unit 111, a search processing unit 112, and a substitution request unit 113.

  The image analysis unit 111 has an OCR processing function (character recognition function) and an ACS (Auto Color Selection) function. The ACS function automatically identifies the color or monochrome of each page of the image data ID, and is an automatic discrimination function for printing a color document in full color and printing a black and white document in grayscale (or black and white).

  The image analysis unit 111 can also analyze print data described in a page description language, and extract an object such as text (character), an image, or vector graphics included in the print data. The functions of the search processing unit 112 and the substitution request unit 113 will be described later.

  The storage unit 140 is a storage device including a hard disk drive or a flash memory, which is a non-temporary recording medium, and stores an image forming program and data executed by the control unit 110. The storage unit 140 stores an image forming apparatus database 141. In the image forming apparatus database 141, three other image forming apparatuses 100 capable of proxy processing of image forming processing are registered.

  FIG. 2 is a flowchart showing the contents of a printing proxy processing procedure according to an embodiment. The printing proxy process is also called an image forming proxy process, and when a print job occurs in any of the four image forming apparatuses 100a to 100d constituting the image forming system 10, various processes such as print target images and print settings are performed. This is processing for executing printing proxy using another image forming apparatus 100 among the four image forming apparatuses 100 a to 100 d according to the situation. In this example, it is assumed that the image forming apparatus 100a reads an image.

  In step S110, the user executes print setting processing on the image forming apparatus 100a. In the print setting process, the user sets the image quality priority mode via the operation display unit 160. The setting of the image quality priority mode is performed, for example, by putting a check in the check box (not shown) of the image quality priority printing on the print setting screen (not shown).

  In this example, when the image quality priority mode is set, the image forming apparatus 100 is configured to start a printing proxy processing procedure for improving the image quality. The image forming apparatus 100 may have, for example, a dedicated setting mode for designating activation of a printing proxy processing procedure for improving the image quality.

  In step S120, the image reading unit 120 of the image forming apparatus 100a reads an image from a document, generates an image data ID which is digital data having RGB pixel values, and transmits the image data ID to the image forming unit 130. Thus, the copy processing of the document is performed. The image reading unit 120 can function as an image data acquisition unit.

  In step S130, control unit 110 determines whether the operation mode of image forming apparatus 100a is set to the image quality priority mode. If the image quality priority mode is set, control unit 110 advances the process to step S140. If the image quality priority mode is not set, control unit 110 advances the process to step S195. In step S195, the image forming apparatus 100a executes an image forming process using the image data ID.

  In step S140, the image analysis unit 111 executes an image analysis process. In the image analysis process, the image analysis unit 111 requests the image reading unit 120 for the image data ID, and acquires the image data ID from the image reading unit 120. The image analysis unit 111 analyzes the image data ID using the OCR processing function and the ACS function.

  The image analysis unit 111 uses the ACS function to determine whether the image data ID represents a color image. If the image data ID does not represent a color image, the image analysis unit 111 determines that the image is a monochrome image.

  When the image data ID represents a color image, the image analysis unit 111 uses the ACS function to calculate the area of a color image area (also referred to as a color area), and uses the OCR processing function to calculate black. Calculate the area of the character area which is composed of the characters of. If the OCR processing function is used, it is possible to determine that the black character misrecognized as a color pixel due to the RGB color shift at the time of reading in the image reading unit 120 is a monochrome image.

  FIG. 3 is a flowchart showing the contents of a device selection processing procedure (step S150) according to one embodiment. FIG. 4 is an explanatory view showing the contents of a device selection process according to one embodiment. In the image forming system 10, the four image forming apparatuses 100a to 100d are image forming apparatuses that can be used for image forming proxy processing. The image forming proxy process is a function of proxying the image forming from the viewpoint of realizing stable image quality when an image forming job occurs in any of the other image forming apparatuses 100.

  In step S151, when the image data ID represents a color image, the substitution request unit 113 proceeds to step S152, and when the image data ID does not represent a color image, that is, represents a monochrome image. In the case, the process proceeds to step S155.

  In step S 155, proxy request unit 113 selects the K bias fluctuation history amount as a reference used to select image forming apparatus 100. The K bias fluctuation history amount is also referred to as a black bias fluctuation history amount, and is an integrated value of adjustment amounts in calibration of a developing bias voltage used for developing a black toner.

  In step S156, the search processing unit 112 searches for an image forming apparatus 100 that can perform an image forming proxy process. The search processing unit 112 searches the image forming apparatuses 100b to 100d using the image forming apparatus database 141 (see FIG. 1). In this example, the image forming apparatus 100a is also referred to as a first image forming apparatus, and the other image forming apparatuses 100b to 100d searched for are also referred to as a second image forming apparatus.

  In step S157, the substitution request unit 113 searches the image forming apparatuses 100b to 100d for an image forming apparatus 100 whose K bias fluctuation history amount and light amount fluctuation history amount are smaller than that of the image forming apparatus 100a. In the present embodiment, it is assumed that the light amount fluctuation history amount is always set as a reference used for selecting the image forming apparatus 100. The light amount fluctuation history amount is an integrated value of the adjustment amount in the calibration of the exposure light amount. In this example, the substitution request unit 113 can select the image forming apparatus 100 b and the image forming apparatus 100 d.

  On the other hand, in step S <b> 152, the substitution request unit 113 selects the CMYK bias fluctuation history amount as a reference used to select the image forming apparatus 100. The CMYK bias fluctuation history amount is also referred to as a bias fluctuation history amount, and is an integrated value of adjustment amounts in calibration of each developing bias voltage used for developing black toner (K) and color toner (CMY).

  In step S153, when the ratio of the area of the color area to the entire area of the image is equal to or greater than a preset threshold, the proxy request unit 113 proceeds to step S154 to select the color area of the entire area of the image. If the area ratio is less than the preset threshold value, the process proceeds to step S156.

  If the ratio of the color areas is less than the preset threshold value, the proxy request unit 113 selects the image forming apparatus 100 with the CMYK bias fluctuation history amount and the light amount fluctuation history amount smaller than the image forming device 100 a. A search is made from among 100b to 100d (step S156). In this example, the substitution request unit 113 can select the image forming apparatus 100 b and the image forming apparatus 100 d.

  In step S154, the substitution request unit 113 further selects the color shift fluctuation history amount selection as a reference used to select the image forming apparatus 100. The color shift fluctuation history amount is an integrated value of adjustment amounts in the calibration of the position of the image formed by the CMY toner with respect to the image formed by the black toner.

  The substitution request unit 113 searches the image forming apparatus 100b to the image forming apparatus 100d for an image forming apparatus 100 whose color misregistration variation history amount, CMYK bias variation history amount, and light amount variation history amount are smaller than the image forming device 100a Step S156).

  In this example, the substitution request unit 113 detects the image forming apparatus 100 d as the image forming apparatus 100 in which the color shift fluctuation history amount, the CMYK bias fluctuation history amount, and the light amount fluctuation history amount are smaller than the image forming device 100 a.

  In step S160, the substitution request unit 113 executes change availability confirmation processing. In the changeability confirmation process, the proxy request unit 113 changes the image forming apparatus 100a that has performed the image reading and forms an image with another image forming apparatus 100, and thus the image quality may be improved. It is displayed on the operation display unit 160 of the device 100a.

  Specifically, when the target of the copying process represents a monochrome image, or when the ratio of the color area is less than a preset threshold, the operation display unit 160 can display the image forming apparatus 100 b and the image forming apparatus. It is indicated that there is a possibility that the image quality can be improved in terms of reproduction of density and color by using 100d. On the other hand, when the ratio of the area of the color area is equal to or greater than a preset threshold, the operation display unit 160 has an image quality from the viewpoint of color misregistration reduction and reproduction of density and tint by using the image forming apparatus 100d. Indicate that there is a possibility of improvement.

  As described above, according to the present embodiment, the image forming apparatus 100 capable of stably improving the image quality can be selected from the plurality of image forming apparatuses 100 based on the analysis result of the image. As a result, in the present embodiment, concentration of proxy for image forming processing on a specific image forming apparatus 100 can be alleviated.

  When the target of copying processing represents a monochrome image or when the ratio of color areas is less than a preset threshold, it is recommended to use the image forming apparatus 100b having the necessary and sufficient stability. Alternatively, by not selecting the image forming apparatus 100d, concentration of proxy for image forming processing on a specific image forming apparatus 100 (in this example, the image forming apparatus 100d) can be eased.

  In step S170, substitution request unit 113 receives a user input from operation display unit 160. Specifically, for example, when the proxy request unit 113 receives a user input indicating use of the image forming apparatus 100d, the process proceeds to step S180, and the proxy process in another image forming apparatus 100 is not used. If the user input representing “H” is received, the process proceeds to step S195.

  In step S195, the proxy request unit 113 selects itself (the image forming apparatus 100a), and the image forming unit 130 of the image forming apparatus 100a performs an image forming process.

  In step S180, the proxy request unit 113 executes an image forming proxy request process. In the image forming proxy request process, the proxy request unit 113 transmits the image data ID and the print setting data (for example, the number of print sheets) to the image forming apparatus 100d, and requests (commands) a proxy for the image forming process.

  In step S190, the image forming apparatus 100d executes a transfer destination image forming process. In the transfer destination image forming process, the image forming apparatus 100d executes the image forming process using the transferred image data ID and the print setting data. Thereby, in the image forming system 10, for example, when the ratio of the area of the color area is equal to or more than the preset threshold value, the color shift fluctuation history amount, the CMYK bias fluctuation history amount, and the light amount fluctuation history amount The image forming process can be realized with stable high image quality by changing to proxy processing in the image forming apparatus 100 d smaller than 100 a.

  FIG. 5 is an explanatory view showing the contents of a change history amount management processing procedure according to one embodiment. FIG. 5A shows a flowchart of a change history amount management processing procedure according to one embodiment. The fluctuation history amount management process procedure is a process for generating the image forming apparatus database 141 used for selecting the image forming apparatus 100 capable of realizing the image forming process with high image quality stably.

  In step S210, the substitution request unit 113 executes management database registration processing. In the management database registration process, the proxy request unit 113 of the image forming apparatus 100a generates the image forming apparatus database 141, and the search processing unit 112 searches and registers the other three image forming apparatuses 100b to 100d. Do. On the other hand, the proxy request unit 113 of the image forming apparatus 100a permits registration of the image forming apparatus 100a in the image forming apparatus database 141 of the other three image forming apparatuses 100b to 100d.

  In step S220, the control unit 110 of the image forming apparatus 100a executes a calibration process (step S230) in response to the calibration request. In this example, the calibration process includes color misregistration calibration, CMYK bias calibration, and light intensity calibration. The calibration process is requested to be performed according to a user's instruction via the operation display unit 160, detection of environmental changes such as temperature and humidity inside and outside the image forming apparatus 100, and the number of printed sheets.

  FIG. 5B shows an example of the content of the image forming apparatus database 141 according to an embodiment. FIG. 5B shows the C value and the δ value of the adjustment amount in the calibration of CMY color misregistration in the past five times (one time before to five times ago) in pixel units. The C value is an adjustment amount to the nominal value. The δ value is a difference value indicating the fluctuation of the C value of each time (difference between N previous adjustment amount and (N + 1) previous adjustment amount, N is a natural number). The adjustment amount in the calibration of the developing bias voltage is in units of voltage (volt A), and the adjustment amount in the calibration of the exposure light amount can be expressed as a percentage with respect to the reference value.

  Specifically, for example, the immediately preceding C value and δ value of yellow are “+1” and “1”. The C value of "+1" indicates that the image position of K can be matched by shifting the image formation position of yellow to the "+1" side with respect to the nominal value. The δ value is the absolute value of the difference between the two previous C values “± 0” and the previous yellow C value. The total δ value is the sum of δ values for the past 5 times (one to five times before).

  In step S240, the substitution request unit 113 executes an adjustment amount registration process. In the adjustment amount registration process, the substitution request unit 113 of the image forming apparatus 100 a registers the adjustment amount in the image forming apparatus database 141 and transmits the adjustment amount to the other three image forming apparatuses 100. The other three image forming apparatuses 100b to 100d register the adjustment amount of the image forming apparatus 100a in each image forming apparatus database 141.

  The substitution request unit 113 registers the C value as the previous value according to the acquisition of the adjustment amount (C value), and the existing first to fourth C values and the δ value are obtained two times each to 5 Let it be the C value and δ value of the second time. In this example, the fluctuation history amount is calculated using the adjustment amounts of the past five times, but is not limited to five times and may be five times or more, and at least one time of the fluctuation history is used Good. The fluctuation history amount can be generally calculated by integrating the absolute value of the difference between the N (N is a natural number of 1 to a natural number) previous adjustment amounts and the (N + 1) previous adjustment amounts. With such a method of calculating the fluctuation history amount, the fluctuation history amount can be calculated as an amount that directly represents the fluctuation of the characteristics of the image forming apparatus 100 after the calibration process.

  In step S250, the substitution request unit 113 executes a fluctuation history amount calculation process. In the variation history amount calculation process, the substitution request unit 113 subtracts the C value (registered this time) one time before from the C value two times before and registers the absolute value as the δ value one time before, and the δ value Recalculate and update the sum.

  As described above, the image forming system 10 according to the present embodiment performs the image forming process to execute the image forming process based on the stability against the variation factor such as the temporal factor of the image quality or the environmental change in the plurality of image forming apparatuses 100. It can be selected. Thus, the image forming system 10 can realize the image forming process with high image quality stably.

  The present invention can be implemented not only in the above embodiment but also in the following modifications.

  Modification 1: In the above embodiment, the image analysis unit analyzes the image data ID generated by reading the image from the document using the OCR processing function or the ACS function, but the image analysis unit is, for example, a personal computer. Print data described in a page description language included in the print job received from the computer 200 can also be analyzed. That is, the image analysis unit can extract an object such as text (character), an image, and vector graphics included in print data, and analyze the object using the attribute and content of the object.

  Modified Example 2 In the above embodiment, the fluctuation history amount is calculated as an added value of the past 5 fluctuation histories, but is not necessarily limited to the added value of fluctuation history. For example, statistics that represent variations such as variance or standard deviation may be used.

  Modified Example 3 In the above embodiment, the fluctuation history amount is stored in the image forming apparatus database of each image forming apparatus, but the image forming apparatus database does not necessarily have to be provided in each image forming apparatus. The image forming system may be provided with a server storing an image forming apparatus database, and may be centrally managed by the server, or may be centrally managed by one image forming apparatus among a plurality of image forming apparatuses. .

  Modification 4: In the above embodiment, after one of the plurality of image forming apparatuses receives a print job, the image data is transferred to another image forming apparatus to request image forming proxy processing. Before accepting the request, the print job destination may be switched to request image forming proxy processing. Furthermore, the server may receive the print job, execute image analysis, and transmit the print job to at least one of the plurality of image forming apparatuses based on the image forming apparatus database. Thus, distributed printing is also possible by transmitting print jobs to a plurality of image forming apparatuses.

10 image forming system 100 image forming apparatus 110 control unit 111 image analysis unit 112 search processing unit 113 substitution request unit 120 image reading unit 130 image forming unit 140 storage unit 141 image forming apparatus database 150 communication interface unit 160 operation display unit

Claims (9)

An image forming apparatus that can be used for image forming proxy processing,
A search processing unit that searches for an image forming apparatus other than the first image forming apparatus that can be used for the image forming agency process when the image forming apparatus is the first image forming apparatus;
When acquiring the fluctuation history amount of the adjustment amount in the calibration of the first image forming apparatus and setting the searched image forming apparatus as a second image forming apparatus, at least one of the second image forming apparatuses A proxy request unit for selecting one of the image formation proxy processes and requesting the image formation proxy process;
Equipped with
The substitution request unit further acquires the fluctuation history amount of the second image forming apparatus, and the second image having the fluctuation history amount smaller than the fluctuation history amount of the first image forming apparatus An image forming apparatus which selects a forming apparatus and requests the selected second image forming apparatus to perform the image forming proxy process. The image forming apparatus according to claim 1,
The substitution request unit calculates the fluctuation history amount by integrating the absolute value of the difference between the N (N is a natural number from 1 to a predetermined natural number) previous adjustment amount and the (N + 1) previous adjustment amount. apparatus. The image forming apparatus according to claim 1, further comprising:
An image data acquisition unit for acquiring image data representing an image;
The proxy request unit transfers the image data from the first image forming apparatus to the selected second image forming apparatus, and requests the image forming proxy process. The image forming apparatus according to claim 3, further comprising:
An image analysis unit that analyzes the image;
The variation history amount includes a color shift variation history amount which is a variation history amount of the color shift adjustment amount, and
When the image includes a color image, the substitution request unit generates the second image having the color shift fluctuation history amount smaller than the color shift fluctuation history amount of the first image forming apparatus. Image forming apparatus for selecting an apparatus. The image forming apparatus according to claim 4,
The fluctuation history amount includes a black bias fluctuation history amount which is a fluctuation history amount of the adjustment amount of the developing bias voltage used for developing the black toner.
The substitution request unit, when the image is a monochrome image, includes the second image forming apparatus having the black bias fluctuation history amount smaller than the black bias fluctuation history amount of the first image forming apparatus. Image forming device to select. An image forming apparatus according to claim 4 or 5, wherein
The fluctuation history amount includes a bias fluctuation history amount which is a fluctuation history amount of the adjustment amount of the developing bias voltage used for developing the toner,
When the ratio of the area of a color image included in the image to the entire area of the image is equal to or more than a preset threshold, the substitution request unit determines the color shift fluctuation history amount of the first image forming apparatus And selecting the second image forming apparatus having the color shift fluctuation history amount and the bias fluctuation history amount smaller than the bias fluctuation history amount, and the first image is selected when the ratio is less than the threshold value. An image forming apparatus for selecting the second image forming apparatus having the bias fluctuation history amount smaller than the bias fluctuation history amount of the forming device; An image forming system having a plurality of image forming apparatuses that can be used for image forming proxy processing,
A search processing unit configured to search one of the plurality of image forming apparatuses for an image forming apparatus other than the one of the plurality of image forming apparatuses;
When the one image forming apparatus is the first image forming apparatus, the variation history amount of the adjustment amount in the calibration of the first image forming apparatus is acquired, and the searched image forming apparatus is the second image forming A substitution request unit which selects at least one of the second image forming apparatuses and requests the image forming proxy process when the apparatus is selected;
Equipped with
The substitution request unit further acquires the fluctuation history amount of the second image forming apparatus, and the second image having the fluctuation history amount smaller than the fluctuation history amount of the first image forming apparatus An image forming system which selects a forming apparatus and requests the selected second image forming apparatus to perform the image forming proxy process. An image forming method using a plurality of image forming apparatuses that can be used for image forming proxy processing, comprising:
A search processing step in which one of the plurality of image forming apparatuses searches for an image forming apparatus other than the one of the plurality of image forming apparatuses;
When the one image forming apparatus is the first image forming apparatus, the variation history amount of the adjustment amount in the calibration of the first image forming apparatus is acquired, and the searched image forming apparatus is the second image forming A substitution request process of selecting at least one of the second image forming apparatuses when requesting an apparatus, and requesting the image forming proxy process;
Equipped with
The substitution request process further acquires the fluctuation history amount of the second image forming apparatus, and the second image having the fluctuation history amount smaller than the fluctuation history amount of the first image forming apparatus An image forming method of selecting a forming apparatus and requesting the selected second image forming apparatus to perform the image forming proxy process; An image forming program for controlling an image forming apparatus usable for an image forming proxy process, comprising:
When the image forming apparatus is a first image forming apparatus, a search processing unit that searches for an image forming apparatus other than the first image forming apparatus that can be used for the image forming agency process, and the first When acquiring the fluctuation history amount of the adjustment amount in the calibration of the image forming apparatus and setting the searched image forming apparatus as a second image forming apparatus, at least one of the second image forming apparatuses is selected Causing the image forming apparatus to function as a proxy request unit for requesting the image forming proxy process;
The substitution request unit further acquires the fluctuation history amount of the second image forming apparatus, and the second image having the fluctuation history amount smaller than the fluctuation history amount of the first image forming apparatus An image forming program for selecting a forming apparatus and requesting the selected second image forming apparatus to perform the image forming proxy process.