JP5167979B2 - Image forming apparatus, image forming system, power saving mode shift control method, and computer program - Google Patents

Description

  The present invention relates to an image forming apparatus having an energy saving function and connected to a network, such as a copying machine, a printer, and a digital multifunction peripheral, an image forming system including the image forming apparatus connected to the network, and the image forming apparatus or the image forming system. And a computer program for executing the transition control method to the energy saving mode by a computer.

  In an image forming apparatus such as a copying machine, a printer, or a digital multifunction peripheral connected to a network, it is generally performed to appropriately shift to an energy saving mode (hereinafter referred to as an energy saving mode) according to a use frequency or a use interval. Yes. As such an apparatus or system, for example, the inventions described in Patent Documents 1 to 3 are known.

  Among these, Patent Document 1 discloses an image forming apparatus that performs power saving control according to the usage status of a connected network, and acquires and sets a reference value for shifting to the power saving mode from the current network environment and network usage status. In an image forming apparatus connected to a network and performing a printing process based on a print job received from the network, a traffic amount monitoring unit that monitors a traffic amount of data flowing on the network; Power saving control means for shifting to power saving control for cutting off power supply to at least a part based on the traffic volume of data flowing on the network monitored by the traffic volume monitoring means, and the traffic volume monitoring means for the network Broadcast regularly, The power saving control means is configured to set a reference number for transferring to the power saving control, and a reference number in which the response number monitored by the traffic amount monitoring means is set in the setting means. It is described that the apparatus includes a power saving transition unit that shifts to the power saving control in the following.

  Further, Patent Document 2 is connected to an image forming apparatus via a network for the purpose of providing a power monitoring apparatus or a power monitoring network system that achieves a power reduction target without reducing the use conditions of a customer. A monitoring storage unit that monitors and stores a usage state and / or usage conditions of the image forming apparatus for a predetermined period, and refers to a storage content of the monitoring storage unit to determine a constant level of the image forming apparatus. Power consumption calculating means for calculating power consumption for a period, input means for receiving an input of a power reduction target for a certain period, and use of the image forming apparatus to achieve a reduction target value input by the input means Temporary setting means for temporarily setting a state and / or use condition, temporary power calculating means for calculating power consumption based on temporary setting by the temporary setting means, A power calculating means, the reference to the result of the temporary power calculating means, and simulation means for simulating the power reduction target, the power monitoring device having a listed.

Further, Patent Document 3 aims to provide an image forming apparatus capable of realizing a power saving function commensurate with the amount of data communicated within a predetermined time on a connected network line. In the image forming apparatus connectable via the network, the image forming apparatus includes: a detecting unit that detects a data amount communicated within a predetermined time on the network line; and a unit that performs power saving setting according to the detected data amount. A forming apparatus is described.
Japanese Patent Laying-Open No. 2005-066894 JP 2008-015745 A JP 2001-034437 A

  By the way, in the invention described in Patent Document 1, the amount of network traffic and the number of online print clients are used to determine whether or not a printer is likely to be used in the near future. If a terminal that has not been used is only participating in the network, it is determined that the printer is likely to be used. Therefore, even if there is a terminal that has never used the printer, even if the possibility of using the printer is low, it is judged that the image forming apparatus is likely to be used. Absent.

  The invention described in Patent Document 2 relates to a power monitoring apparatus for achieving a power reduction target, and does not shift to an energy saving mode according to the use status of the image forming apparatus, the possibility of use, and the like. Absent.

  Furthermore, the invention described in Patent Document 3 detects the amount of data communicated within a predetermined time on a network line, and performs power saving settings according to the detected amount of data. It does not mean that the mode is shifted to the energy saving mode according to the use status of the image forming apparatus and the possibility of use.

  In any case, the situation where the device is used is not taken into consideration, and the relationship between the transition to the energy saving mode and the convenience of the user is not particularly considered.

  Therefore, the problem to be solved by the present invention is to determine the possibility of using the device itself and to set the transition to the energy saving mode to improve the convenience for the user.

To solve the above problems, first means includes setting means for setting a power saving mode, the operation in the image forming apparatus in which a plurality of client devices are connected to the connected network, the previous chrysanthemums client device A recording unit for recording print history information of a user who performs the power saving mode since the setting unit has elapsed time since the last use of the image forming apparatus. When the power saving mode transition time, which is the set time until the transition to, has not been reached, the user operating the client device online on the network among the plurality of client devices is recognized and recorded in the recording unit quantify conditions for shifting to the power saving mode based on the print history information it recognized the user of the print history information that has been As a result of comparing the calculated degree of transition with a preset reference value for determining the power saving mode, it is determined that the client device is unlikely to be used within a predetermined time. In this case, it is determined to shift to the power saving mode.

The second means is the first means, wherein the recording unit records the use frequency of the user as the print history information, and the setting means calculates the shift degree based on the use frequency, and calculates As a result of the comparison between the transferred degree and the power saving mode transition determination reference value, when it is determined that the client device is unlikely to be used within a predetermined time, the transition to the power saving mode is performed. It is characterized by determining .

The third means is the first or second means, wherein the recording unit records the usage frequency for each time zone of the user as the print history information, and the setting means uses the usage frequency for each time zone. When the transition degree is calculated based on the result of the comparison, and it is determined that the client device is unlikely to be used within a predetermined time as a result of comparison between the calculated transition degree and the power saving mode transition determination reference value and determining to migrate to the power saving mode to.

Fourth means, in to the first no third any means, the recording unit, the frequency of use of each day of the week of the user is recorded as print history information, the setting means, the use of each of the day The degree of transition is calculated based on the frequency, and as a result of comparison between the calculated degree of transition and the power saving mode transition determination reference value, it is determined that the client device is unlikely to be used within a predetermined time. In this case, it is determined to shift to the power saving mode.

Fifth means, in to the first no fourth any means, said setting means calculates the transition of the preset calculation formula, the power-saving mode shift determination and the migration degree calculated As a result of comparison with a reference value, when it is determined that the client device is unlikely to be used within a predetermined time, it is determined to shift to the power saving mode.

Sixth means, in the first to fifth any means, the power-saving mode shift determination reference value, characterized in that the input set from an external input means.

According to a seventh means, in an image forming system in which a plurality of client devices and an image forming apparatus having a setting means for setting a power saving mode are connected to a network , the image forming apparatus is configured by a user operating the client equipment. A recording unit configured to record print history information, and the setting unit shifts to the power saving mode after the last use of the image forming apparatus. When the power saving mode transition time, which is the set time up to, has not been reached, the user operating the client device connected to the network among the plurality of client devices is recognized and recorded in the recording unit The condition for shifting to the power saving mode based on the recognized printing history information of the user among the printing history information is a numerical value. As a result of comparison between the calculated degree of transition and a preset reference value for determining the power saving mode, it is determined that the client device is unlikely to be used within a predetermined time. It characterized that you decide to shift to the power saving mode when.

An eighth means includes a setting means for setting a power saving mode , and in the power saving mode shift control method of an image forming apparatus connected to a network to which a plurality of client devices are connected, the image forming apparatus includes : a recording unit for recording the print history information of the user operating the client apparatus, the setting means, the elapsed time since the last the image forming apparatus is used, the end in the image forming apparatus is used When the power saving mode transition time, which is a set time until shifting to the power saving mode, has not been reached, the user operating the client device connected to the network among the plurality of client terminals is recognized, shifts to the power saving mode based on the print history information recognized the user of the recording unit print history information that is recorded in As a result of comparing the calculated degree of transition with the preset power-saving mode transition criterion value, it is possible to use the client apparatus within a predetermined time. When it is determined that the performance is low, it is determined to shift to the power saving mode.

A ninth means includes a setting means for setting a power saving mode, and a computer program for executing power saving mode shift control of an image forming apparatus connected to a network to which a plurality of client devices are connected by a computer . , before a step of the print history information of the user is recorded in the recording unit to operate the chrysanthemum client device, the elapsed time since the last on the image forming apparatus is used, the last to the image forming apparatus is used Recognizing a user operating a client device connected to the network among the plurality of client devices when the power saving mode transition time, which is a set time until shifting to the power saving mode, has not been reached, based on the print history information recognized the user of the print history information that has been recorded in the recording unit the power saving mode As a result of comparing the calculated degree of transition with a preset power-saving mode transition determination reference value within a predetermined time from the client device If the possibility of being utilized is determined to be low, characterized in that it comprises a and a procedure for determining to migrate to the power saving mode.

  In the embodiment described later, the setting unit is the control unit 7, the plurality of client devices are the print client 3, the network is the code 2, the image forming apparatus is the code 1, the recording unit is the code 6, and the print history information Corresponds to the print history data, the attribute corresponds to each item recorded in the print history data, and the external input means corresponds to the energy saving transition setting screen of the operation panel.

  According to the present invention, whether to shift to the power saving mode is determined based on the attribute of each client device recorded in the print history information. You can set up a migration. Thereby, it becomes possible to improve a user's convenience.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of an image forming apparatus according to an embodiment of the present invention and a network connection state with a print client. In FIG. 1, the image forming apparatus 1 includes a power source A 10, a power source A supply unit 13, a power source B, and a power source B supply unit 14, and is connected to the network 2 via a network I / F 4. Here, print clients A3a, B3b, and C3c are connected to the network 2.

  The power supply A supply unit 13 includes a recording unit 6 and a control unit 7, and the power supply B supply unit 14 includes an operation unit 8 and an image forming unit 9. Power is supplied from the power supply A10 to the power supply A supply unit 13, and power is supplied from the power supply B11 to the power supply B supply unit 14. The recording unit 6 of the power supply A supply unit 13 records the use history of the image forming apparatus 1 and the energy saving transition condition. Here, energy saving refers to cutting off the power supply from the power supply B11 to the power supply B supply unit 14. The connection / disconnection of the power supply is performed by opening / closing the switch 15 by the control unit of the power supply A supply unit 13.

  FIG. 2 is a diagram showing details of the use history (print history data) recorded in the recording unit 6 in a table format. As shown in the figure, the IP address, the number of times of printing, the user name, the number of times of printing by day of the week, and the number of times of printing by time zone are recorded, and the number of times of printing by IP address, the user name, the number of times of printing by day of the week, It has come to understand. The IP address corresponds to the print client 3, and this use history indicates the use history of the print client 3, here the print clients A, B, and C. The information of the print client 3 (A, B, C) is updated whenever a print job is transmitted to the image forming apparatus 1. The recording unit is constituted by a nonvolatile RAM, and the print history data is held as a table and updated as necessary as described above.

  When the image forming apparatus (hereinafter referred to as a printer) 1 is not used for a certain period of time, it is checked whether the IP address in the print history is currently online by broadcasting through the network I / F 4, and the number and the recording unit 6 Based on the recorded energy saving transition conditions, the control unit 7 determines whether to shift to the energy saving mode. For example, when the threshold value of the transfer condition is 5, when the client PCs in the usage history of the printer 1 are participating in the network, the shift is made to the energy saving mode, and when the client PC is 6, the shift is not performed.

  The control unit 7 also compares the user name, which is one of the print client information recorded in the recording unit 6, with the user name of the print client currently participating in the network. It is determined that the information on the print client to be stored is that of the print client currently participating in the network.

  For example, assume the following print client case.

  Case 1: Each of the five print clients 3 (A, B, C, D, E) prints once a week, and all the clients are currently online.

  Case 2: Five print clients 3 (A, B, C, D, E) are printing once, once, ten times, ten times, ten times, respectively, and currently clients C, D, E Is online.

When there is such a case, for example, it is better not to shift to energy saving. Energy saving shift degree = number of online history users × number of times printed by each user (1)
In the case 1, the case 5 is shown, and the case 2 is 30.

  If the printer is in an idle state for a certain time and the energy saving transition threshold is 20, the printer 1 enters the energy saving mode in case 1 and does not enter the energy saving mode in case 2. This is because, in the case where the printing frequency is not taken into consideration, it is determined that Case 1 is more likely to be thrown in the near future than the number of online clients.

  As described above, the shift to the energy saving mode can be determined by using the frequency of use of the PC printer in the usage history by the above formula (1).

  Further, in the print history data of FIG. 2, a history of the number of times of printing by time zone is recorded. Therefore, it is possible to set to shift to the energy saving mode based on the number of times of printing by time. For example, the print client A prints 0, 100, 100, 100, and 100 times during 1 hour intervals from 12:00 to 17:00, and the print client B prints 10 times between 12:00 and 17:00, respectively. , 100, 100, 100, and 100 times of printing.

Here, the degree that it is better not to shift to energy saving is the degree of energy saving shift = number of online history users x number of printings for each user's time zone (one hour interval) (2)
When the numerical value is expressed by the following formula, it becomes 10 at 12:00 to 13:00 and becomes 200 at 1 hour intervals thereafter until 17:00.

  In this case, if the energy saving transition threshold is set to 100 when the engine is in an idle state for a certain period of time, energy saving is entered from 12:00 to 13:00 and energy saving is not entered from 13:00 to 17:00.

  As described above, the shift to the energy saving mode can be determined by using the frequency of use of the printer for each PC time zone in the use history as a determination material by the above-described equation (2).

  Also, the print history data for each day of the week is recorded in the print history data of FIG. Therefore, it can be set to shift to the energy saving mode based on the number of times of printing for each day of the week. For example, the print client A prints 0, 100, 100, 100, 100, 100, 100 times from Monday to Sunday, and the print client B, 10, 100, from Monday to Sunday, respectively. , 100, 100, 100, 100, 100 times printing.

Here, the degree that it is better not to shift to energy saving degree of energy saving shift = number of online history users x number of prints of each user (3)
When expressed in numerical form, it is 10 on Monday and 200 on Tuesday-Sunday.

In this case, if the energy saving transition threshold is set to 100 when the engine is in an idle state for a certain period of time, energy saving is entered on Mondays, and energy saving is not entered from Tuesday to Sunday.

  As described above, the shift to the energy saving mode can be determined by using the printer usage frequency for each PC day of the week in the usage history according to the expression (3).

  As described above, based on the usage frequency of the PC printer in the usage history, the usage frequency of the printer for each PC time zone in the usage history, and the usage frequency of the printer for each day of the PC in the usage history. The transition can be determined. The transition to the energy saving mode can be set from the operation screen of the operation panel of the operation unit 8. FIG. 3 is a diagram showing a setting screen for energy saving transition setting on the operation panel.

  In the figure, the energy saving transition setting screen 21 of the operation panel is provided with a number determination unit 22, a number of units and a use frequency determination unit 25, and a check box 28 for selecting whether or not to use a determination criterion for each time zone. In addition, a check box 29 for selecting whether or not to use the determination criteria for each day of the week and a check box 30 for selecting whether to enable or disable the online PC number determination mode are provided. The unit number determination unit 22 further includes a unit number input unit 23 for inputting the number of units serving as a threshold for shifting to energy saving, and a check box 24 for selecting whether to enable or disable the setting. , An energy saving transition degree input unit 26 for inputting an energy saving transition degree serving as a threshold value for shifting to the energy saving mode, and a check box 27 for selecting whether to enable or disable the setting.

  On this energy saving transition setting screen 21, a determination criterion is set when the printer is in an idle state for a certain time and energy saving transition determination is performed. In the number determination unit 22, the number of online clients is set from the number input unit 23 to determine whether or not to shift to energy saving. The check box 24 selects whether the number determination function is enabled or disabled. In the number and usage frequency determination unit 25, the energy saving transition degree input unit 26 sets the energy saving transition determination value when the number of online clients and the usage frequency of each client are digitized as a criterion. In the check box 27, whether the energy saving transition function is enabled or disabled is selected based on the degree of energy saving transition.

  In the check box 28, valid / invalid of the above-described use frequency determination by time zone is selected, and in the check box 29, valid / invalid of the use frequency determination by day of the week is selected. The check box 30 selects whether to enable or disable the function of checking the online state of the client in the history and determining whether to save energy.

  FIG. 4 is a flowchart showing a processing procedure of energy saving transition in the image forming apparatus in which each part is configured as described above. This processing procedure is executed by a CPU (not shown) of the control unit 7 using a program stored in a ROM (not shown) using the RAM as a work area. In the energy saving mode, the controller 7 is supplied from the power source A with an amount of power necessary for driving the control circuit. On the other hand, in the energy saving mode, the power supply B to the power supply B supply unit 14 has the switch 15 opened by the control unit 7, so that the image forming unit (engine unit) 9 of the image forming apparatus 1 is set. And the operation unit 8 is not supplied with power. The return to the operation state from the energy saving mode is when a predetermined packet such as a print request packet is received for control from the client PC 3 side via the network I / F 4. Control is performed as shown in FIG. 4 on the premise of such an operation.

  In FIG. 4, when printing of the image forming apparatus 1 is completed (step S101), the idling duration monitoring timer is reset (step S102), and monitoring during idling duration is started. Then, the idling time is compared with the energy saving mode transition reference value (step S103). If the idling time is larger than the energy saving mode transition reference value, the energy saving mode is shifted (step S109), and the idling time is the energy saving mode transition reference. If the value has not been reached, it is determined whether or not the number determination mode is valid (step S104). If this determination is invalid, the mode shifts to the energy saving mode (step S109), and if valid, the online status of the client terminal is totaled from the print history data recorded in the recording unit 6 (step S105), and the history online The number of clients and the energy saving transition reference value are compared (step S106). As a result of the comparison, if the number of clients is less than the transition reference value, the mode shifts to the energy saving mode (step S109). Are compared (step S107). If the result of this comparison does not satisfy the reference value, the process shifts to the energy saving mode (step S109). If the result is greater than the reference value, whether or not a print request packet has been received is confirmed (step S108). The printing process is executed, and if not received, the process of step S103 is repeated.

  When the mode is shifted to the energy saving mode in step S109, it is always checked whether or not a print request packet has been received (step S110), and when the print request packet is received, the mode is returned from the energy saving mode (step S111). Enter the printing process.

  In the flowchart of FIG. 4, whether or not to shift to the energy saving mode is determined in step S107 based on the energy saving transition degree of the expression (1), but the energy saving transition degree of the expression (2) or (3). It is also possible to determine whether or not to shift to the energy saving mode based on the above, and by combining these, it is possible to determine by setting the priority.

  As described above, according to the present embodiment, the following effects can be obtained.

1) For example, in the invention described in Patent Document 1, although the number of PCs connected to the image forming apparatus or the amount of traffic on the network is used as a determination material, the power saving mode is entered, but in this case, it participates in the network. Therefore, even when there is a PC that does not use the image forming apparatus, the image forming apparatus determines that the apparatus itself is likely to be used and does not enter the energy saving mode.
In contrast, in the present embodiment, the image forming apparatus 1 refers to the print history data (attribute table) that is updated each time a print job is received from the print client 3, and is a PC that has a high possibility of using its own device. By examining the online status, the possibility of using the device itself is determined, so it is possible to determine whether or not the device will be used in the near future with higher accuracy. Can be increased.

2) When checking the IP address of the client currently connected to the network by broadcasting, in an environment where the IP address is automatically assigned by DHCP, the same IP address is different on another day and time. May have been used. As a result, if the data of each print client recorded in the image forming apparatus is linked based on the IP address, the recorded data of each print client may be linked to other than the original user. There is.
On the other hand, in the present embodiment, a user name is added to the print history data to correspond to the IP address. Based on this association, it is determined based on the user name whether the print client terminal in the history information is the same as the terminal currently connected to the network. It is possible to associate the client data of the recorded attribute table with higher accuracy.

3) Even when there are few PCs in the usage history, if the PCs are printing frequently, there is a high possibility that a print job will be transmitted and a return request will be generated even if the PC shifts to the energy saving mode.

  On the other hand, in this embodiment, since the frequency of use of the printer of the PC in the usage history is added to the determination material and the shift to the energy saving mode is determined, a more accurate energy saving shift determination can be made and the convenience of the user can be determined. Can be increased.

4) Even when a PC that frequently performs printing is online, there is a case where a regular meeting is included depending on the time zone, and there is a case where a job involving printing is not performed. Even in such a case, since the user who has a high printing frequency is online, the printer determines that there is a high possibility of printing in the near future and does not shift to the energy saving mode.
On the other hand, in this embodiment, since the printer usage frequency for each PC time zone in the usage history is added to the determination material and the shift to the energy saving mode is determined, a more accurate energy saving shift determination can be made and the user can be determined. It becomes possible to improve the convenience.

5) Even if the PC that frequently prints is online, depending on the day of the week, the schedule of the day is filled up and there is a case where the job involving printing is not performed. Even in that case, since the user who has a high printing frequency for one week is online, the printer determines that there is a high possibility of printing in the near future and does not shift to the energy saving mode.
In contrast, in the present embodiment, since the printer usage frequency for each PC day of the week in the usage history is added to the determination material and the shift to the energy saving mode is determined, more accurate energy saving shift determination is possible, and the user can Convenience can be improved.

6) When the set value is fixed, it is not possible to set a more efficient energy saving judgment standard according to the use environment.
On the other hand, in the present embodiment, the transition determination reference value to the energy saving mode can be flexibly changed from the setting screen of the operation panel in accordance with the usage environment of the image forming apparatus, so that the accuracy is higher according to the usage environment. Energy saving transition determination is possible, and user convenience can be improved.

  In addition, this invention is not limited to this embodiment, All the technical matters contained in the technical thought described in the claim are object.

1 is a block diagram illustrating a configuration of an image forming apparatus according to an embodiment of the present invention and a network connection state with a print client. It is a figure which shows the detail of the usage history currently recorded on the recording part in a table format. It is a figure which shows the setting screen of the energy saving transition setting of an operation panel. 6 is a flowchart illustrating a processing procedure for energy saving transition of the image forming apparatus according to the present exemplary embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Image forming apparatus 2 Network 3 Print client 6 Recording part 7 Control part 21 Energy saving transition setting screen 22 Number determination part 25 Number and use frequency determination part 24, 27, 28, 29, 30 Check box

Claims (9)

In an image forming apparatus having setting means for setting a power saving mode and connected to a network to which a plurality of client devices are connected,
A recording unit for recording the print history information of the user operating the front chrysanthemum client device,
The setting means includes a power saving mode transition time which is a set time from the last use of the image forming apparatus to the power saving mode after the last use of the image forming apparatus. If you are not reached, and recognizing a user operating the client device is online on the network of the plurality of client devices, the user recognized among the recording unit print history information that is recorded in comparison with the print history information based on to calculate the migration degree of digitizing conditions for shifting to the power saving mode, calculated the transition of the preset power saving mode transition determination reference value has results, wherein if the possibility of being utilized by the client device within a predetermined time is determined to lower decides to shift to the power saving mode and That the image forming apparatus. The image forming apparatus according to claim 1.
The recording unit records the use frequency of the user as the print history information,
The setting means calculates the degree of transition based on the use frequency, and is used from the client device within a predetermined time as a result of comparison between the calculated degree of transition and the power saving mode transition determination reference value. An image forming apparatus, wherein when it is determined that the possibility is low, it is determined to shift to the power saving mode . The image forming apparatus according to claim 1, wherein
The recording unit records the frequency of use of each time period of the user as the print history information,
The setting means calculates the transition degree based on the usage frequency for each time period, and as a result of comparing the calculated transition degree and the power saving mode transition determination reference value, the client device within a predetermined time period. image forming apparatus and determines that the shift to the power saving mode when the possibility of being utilized is determined to be low. The image forming apparatus according to any one of claims 1 to 3 ,
The recording unit records the frequency of use of each day of the week of the user as the print history information,
The setting means calculates the degree of transition based on the usage frequency for each day of the week , and as a result of comparison between the calculated degree of transition and the power saving mode transition determination reference value within a predetermined time from the client device. image forming apparatus and determines that the shift to the power saving mode when the possibility of being utilized is determined to be low. 5. The image forming apparatus according to claim 1, wherein:
The setting unit calculates the degree of transition using a preset calculation formula, and is used from the client device within a predetermined time as a result of comparison between the calculated degree of transition and the power saving mode transition determination reference value. the image forming apparatus in a case where the possibility that it is determined that the lower and determines to transition to the power saving mode. The image forming apparatus according to any one of claims 1 to 5,
The image forming apparatus, wherein the power saving mode transition determination reference value is input from an external input unit . In an image forming system in which a plurality of client devices and an image forming apparatus having a setting unit for setting a power saving mode are network-connected ,
The image forming apparatus includes a recording unit that records print history information of a user who operates the client device,
The setting means includes a power saving mode transition time which is a set time from the last use of the image forming apparatus to the power saving mode after the last use of the image forming apparatus. The user who operates the client device connected to the network among the plurality of client devices is recognized, and the recognized user of the print history information recorded in the recording unit is recognized. As a result of calculating the degree of transition obtained by quantifying the condition for transitioning to the power saving mode based on the print history information, and comparing the calculated degree of transition with a preset power saving mode transition criterion value characterized that you decided to shift to the power saving mode when the possibility of being utilized from the client device within a predetermined time is determined to lower Imaging systems. In a power saving mode transition control method for an image forming apparatus connected to a network to which a plurality of client devices are connected , having setting means for setting a power saving mode ,
The image forming apparatus includes a recording unit for recording the print history information of the user operating the client device,
The setting means includes a power saving mode transition time which is a set time from the last use of the image forming apparatus to the power saving mode after the last use of the image forming apparatus. If you are not reached, the user recognized among the plurality of client terminals to recognize a user who operates the client device connected to the network, print history information that has been recorded in the recording unit comparison with the print history information based on to calculate the migration degree of digitizing conditions for shifting to the power saving mode, calculated the transition of the preset power saving mode transition determination reference value has and determining to migrate to the power saving mode if the results were determined from the client device and is less likely to be utilized within a predetermined time Power mode transition control method. In a computer program for executing power saving mode transition control of an image forming apparatus connected to a network to which a plurality of client devices are connected, having setting means for setting a power saving mode,
A step of printing history information of the user is recorded in the recording unit to operate the front chrysanthemum client device,
The elapsed time since the last use of the image forming apparatus has not reached the power saving mode transition time, which is a set time from the last use of the image forming apparatus to the transition to the power saving mode. to, to the user who operates the client devices connected to the network recognizes among the plurality of client devices, the print history information of the recognized the user of the recording unit print history information that is recorded in calculating a transition degree of digitizing conditions for migration based on the power saving mode, the result of the comparison between the calculated the transition of the preset power saving mode transition determination reference value is, the client a step of determining to migrate to the power saving mode when the possibility of being utilized from the device within a predetermined time is determined to be low,
Computer program, characterized in that it comprises.

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