JP2014225144A - Information processing apparatus, information processing method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device having sleep function, while improving power consumption reduction efficiency.SOLUTION: An information processing apparatus includes: first acquisition means which acquires estimated processing time information on processing time required for an image forming apparatus which performs communication over a network to process a print job; second acquisition means which acquires moving time information on moving time required for a user who issues an instruction to execute the print job to move to the image forming apparatus; third acquisition means which acquires recovery time information on recovery time required for the image forming apparatus to recover from a power-saving mode to a normal mode; changing means which changes the timing to transmit the print job to the image forming apparatus on the basis of the estimated processing time information acquired by the first acquisition means, the moving time information acquired by the second acquisition means, and the recovery time information acquired by the third acquisition means when the image forming apparatus is in the power-saving mode.

Description

  The present invention relates to an information processing apparatus, an information processing method, and a program.

In a workplace such as an office, an image forming apparatus (printer) such as a multifunction peripheral is connected to a network and arranged so as to be shared by a plurality of users. For this reason, when the user performs printing from a terminal such as a computer, a movement time is required until the user moves from the work place to the printer and acquires the output. In some cases, depending on the printing processing status of the printer, the printed matter is not output even when the user moves to the printer, and the user waits in front of the printer.
In the technique disclosed in Japanese Patent Application Laid-Open No. H10-228688, the estimated time of completion of a print job in the image forming apparatus is calculated, and the user moves to the image forming apparatus from the position of the portable terminal carried by the user of the client terminal that transmitted the print job. The estimated travel time required for this is calculated. In the technique disclosed in Patent Document 1, the time obtained by subtracting the travel time from the scheduled print job end time is calculated as the end notification time, and when the end notification time is reached, the immediately preceding end notification is sent to the portable terminal. ing.
In recent years, for the purpose of considering the environment, the image forming apparatus realizes a reduction in power consumption by suspending some functions of the apparatus when the image forming apparatus is not operating for a certain period of time. Such a function is generally called a sleep function. Such a sleep state is generally called a sleep state. However, the image forming apparatus connected to the network returns from sleep every time the user frequently performs printing. For this reason, there is a need for a technique that can maintain the sleep state as long as possible and increase the power consumption reduction efficiency without reducing the work productivity of the user.

Japanese Patent Laid-Open No. 2004-58631

In the technique disclosed in Patent Document 1, the user's work productivity is improved by taking the user's print processing completion time and travel time into consideration, but the power consumption reduction of the device having the sleep function is improved. Is not considered at all.
An object of the present invention is to provide a technique for improving the power consumption reduction efficiency in a device having a sleep function.

  Accordingly, the present invention provides a first acquisition unit that acquires processing time information related to a processing time for an image forming apparatus capable of communicating via a network to process a print job, and a user who instructs the execution of the print job. A second acquisition unit configured to acquire movement time information related to a movement time of moving to the image forming apparatus; and acquiring return time information related to a return time until the image forming apparatus returns from the power saving mode to the normal mode. When the third acquisition unit and the image forming apparatus are in a power saving mode, the predicted process time information acquired by the first acquisition unit, the travel time information acquired by the second acquisition unit, Changing means for changing the timing for transmitting the print job to the image forming apparatus based on the return time information acquired by the third acquisition means.

  ADVANTAGE OF THE INVENTION According to this invention, the power consumption reduction efficiency can be improved in the device which has a sleep function.

1 is a diagram illustrating an example of a system configuration of a print control system. It is a figure which shows an example of the hardware constitutions of a computer. 2 is a diagram illustrating an example of a hardware configuration of an image forming apparatus. FIG. It is a figure which shows an example of the hardware constitutions of a management server apparatus. It is a figure which shows an example of the software structure etc. of a computer. 2 is a diagram illustrating an example of a software configuration of an image forming apparatus. FIG. It is a figure which shows an example of a software structure etc. of a management server apparatus. It is a figure which shows an example of the table which a management server apparatus manages. 5 is a flowchart illustrating an example of processing in the first embodiment. It is a figure which shows an example of the user interface of a computer. It is a figure which shows an example of the timing of job transmission. FIG. 10 is a diagram (part 1) illustrating an example of a job transmission timing and a printing order. FIG. 10 is a second diagram illustrating an example of a job transmission timing and a printing order. FIG. 10 is a diagram illustrating an example of job transmission timing and printing order (part 3); 10 is a flowchart illustrating an example of processing in the second embodiment.

The best mode for carrying out the present invention will be described below with reference to the drawings.
<Embodiment 1>
FIG. 1 is a diagram illustrating an example of a system configuration in the print control system of the present embodiment.
The printing system according to this embodiment includes a computer 1, an image forming apparatus 2, a management server apparatus 3, and a network 4. The computer 1, the image forming apparatus 2, and the management server apparatus 3 are connected so as to be able to communicate with each other via a network 4.
The computer 1 transmits a print job to the image forming apparatus 2. At that time, the computer 1 determines the estimated processing time required for the image forming apparatus 2 to process the print job, the travel time for the user of the computer 1 to move to the image forming apparatus 2, and the image forming apparatus 2 is in the power saving mode. Get information about return time and return time. Then, the computer 1 changes the timing for transmitting the print job to the image forming apparatus 2 based on the information related to the predicted processing time, the travel time, and the return time. Here, the power saving mode refers to a state (power saving state) in which a part of the functions of the image forming apparatus 2 is stopped and is operated with lower power consumption than in the normal mode. Hereinafter, the power saving mode is referred to as a sleep mode. The computer 1 is an example of an information processing apparatus.
The image forming apparatus 2 executes print processing for a print job received from the computer 1.
The management server device 3 manages device information of the image forming device 2 and information related to the print job.
Note that the computer 1 and the management server device 3 in FIG. 1 may be the same device as long as the functions of the present embodiment are realized.

FIG. 2 is a diagram illustrating an example of a hardware configuration of the computer 1.
The CPU 101 executes a document processing program stored in an external memory 111 such as a program ROM in the ROM 103 or an external memory 111 such as a hard disk (HD), thereby mixing figures, images, characters, tables (including spreadsheets), and the like. The processed document processing is executed. When the CPU 101 executes the above-described program or the like, the functions (software configuration) of the computer 1 described later and processing related to the flowchart are realized.
The ROM 103 and the external memory 111 store various programs including an operating system (hereinafter referred to as OS) program executed by the CPU 101. The ROM 103 and the external memory 111 store various data including font data used when the CPU 101 executes the above-described document processing.
The RAM 102 functions as a main memory of the CPU 101, a work area, and the like.
A keyboard controller (KBC) 105 controls key input from a keyboard (KB) 109 or a pointing device. The KB 109 and the pointing device are examples of the operation unit.

A CRT controller (CRTC) 106 controls display on a CRT display (CRT) 110. The CRT 110 is an example of a display unit.
A disk controller (DKC) 107 controls access to an external memory 111 such as an HD or a flexible disk (FD).
The external memory 111 stores a boot program, various application programs, font data, user files, editing files, a printer control command generation program for realizing a printer driver, and the like.
A printer controller (PRTC) 108 is connected to the image forming apparatus 2 via a network I / F (NIC) 121 and executes communication control processing with the image forming apparatus 2.
The system bus 104 connects the above units.
In addition, the CPU 101 opens various windows registered based on commands instructed by a mouse cursor or the like on the CRT 110 and executes various data processing. When executing printing, the user can open a window relating to print settings, and perform settings for a print processing method provided by the printer driver, including printer settings and print mode selection.

FIG. 3 is a diagram illustrating an example of a hardware configuration of the image forming apparatus 2.
The CPU 301 outputs an image signal as output information to a printer 315 connected via a printer controller (PRTC) 314 by executing a control program or the like stored in an external memory 311 such as a ROM 303 or an HD. When the CPU 301 executes the above-described program or the like, the function (software configuration) of the image forming apparatus 2 described later is realized.
A scan control unit (SCCANC) 312 controls an optical scanner 313 provided in the image forming apparatus 2 to read a paper document.
The CPU 301 can perform communication processing with the computer 1 via the network I / F (NIC) 308 and can notify the computer 1 of information and the like in the image forming apparatus 2.
The RAM 302 functions as a main memory of the CPU 301, a work area, and the like. The RAM 302 is configured so that the memory capacity can be expanded by an optional RAM connected to the expansion port.

The ROM 303 is used for an output information expansion area, an environment data storage area, NVRAM, and the like.
A memory controller (MC) 307 controls access to an external memory 311 such as an HD or an IC card.
An external memory 311 such as an HD is connected as an option and stores font data, an emulation program, form data, and the like. Further, the number of external memories 311 is not limited to one, and a plurality of external memories 311 may be connected. Further, the external memory 311 may have NVRAM, and may store printer mode setting information received by the CPU 301 via the operation panel (Panel) 309.
A panel controller (Panel C) 305 controls an instruction input from the Panel 309.
A display controller (DispC) 306 controls the display of a display module (Display) 310 configured by, for example, a liquid crystal display.
A system bus 304 connects the above units.

FIG. 4 is a diagram illustrating an example of a hardware configuration of the management server device 3.
The CPU 400 executes application programs stored in the storage device 405, various control programs including an OS program, and the like. The CPU 400 temporarily stores information necessary for executing the above-described program, files, and the like in the RAM 402. When the CPU 400 executes the above-described program or the like, a function (software configuration) of the management server device 3 described later is realized.
The ROM 401 stores programs such as a basic I / O program, various data such as font data and template data used for document processing.
The RAM 402 functions as a main memory, work area, and the like for the CPU 400.
The input I / F 403 connects the system bus 407 to a pointing device such as a keyboard or a mouse for inputting instructions.
A display I / F 404 connects the system bus 407 to a display device such as a CRT or a liquid crystal display.
The storage device 405 has a storage medium such as a hard disk, and stores a program executed by the CPU 400.
A network I / F 406 communicates with the computer 1 and the image forming apparatus 2 via a wireless or wired network.
A system bus 407 connects the above units.

FIG. 5 is a diagram illustrating an example of the software configuration of the computer 1.
FIG. 5 shows a print processing unit 500 having a configuration in which print data from the application 501 is temporarily spooled with intermediate code data.
A user may add a program for realizing the functions of the application 501 and the printer driver 508 to the external memory 111 via an FD or a CD-ROM, or may add a program to the external memory 111 via a network. it can.
The application 501 outputs (draws) using the graphic engine 502 when printing is performed by the image forming apparatus 2.
When the graphic engine 502 does not have a spool configuration, the graphic engine 502 transmits the output from the application 501 to the printer driver 508 prepared for each printing apparatus. More specifically, the graphic engine 502 converts a GDI function received from the application 501 into a DDI function, and outputs the DDI function to the printer driver 508. Note that GDI is an abbreviation for Graphic Device Interface. DDI is an abbreviation for Device Driver interface.

Based on the DDI function received from the graphic engine 502, the printer driver 508 converts it into a control command that can be recognized by the printer, for example, PDL (Page Description Language). The printer driver 508 outputs the converted printer control command as print data to the image forming apparatus 2 via the system spooler 509 and the NIC 121.
In this embodiment, when the graphic engine 502 sends a DDI function to the printer driver 508, a spool file 505 composed of an intermediate code is once generated. The graphic engine 502 sends the DDI function to the dispatcher 503. If the DDI function received from the graphic engine 502 is a function based on the GDI function issued from the application 501 to the graphic engine 502, the dispatcher 503 sends the DDI function to the spooler 504.
The spooler 504 converts the received DDI function into an intermediate code and outputs it to the spool file 505. Further, the spooler 504 acquires processing setting information regarding print data set for the printer driver 508 from the printer driver 508 and stores the information in the spool file 505. The spooler 504 generates the spool file 505 as a file on the external memory 111, but may generate it on the RAM 102. Furthermore, the spooler 504 notifies the spool file manager 506 of the generation status of the spool file 505.
The spool file manager 506 determines whether printing can be performed according to the contents indicated by the processing setting information regarding the print data stored in the spool file 505. When the spool file manager 506 determines that printing can be performed using the graphic engine 502, the spool file manager 506 instructs the despooler 507 to perform printing processing of the intermediate code described in the spool file 505. Further, the spool file manager 506 notifies the management server apparatus 3 of information relating to the print job via the NIC 121 via the I / F unit 511.

The print processing unit 500 searches the management server device 3 connected on the network by the search unit 510 and associates it with the print job. Note that the print processing unit 500 may associate the management server device 3 with the print job from the user interface of the printer driver 508.
The despooler 507 processes the intermediate code included in the spool file 505 according to the content indicated by the processing setting information included in the spool file 505, and converts it into a GDI function. Then, the despooler 507 sends the converted GDI function to the graphic engine 502.
The graphic engine 502 converts the GDI function into a DDI function and outputs it.
The dispatcher 503 receives a DDI function from the graphic engine 502. When the received DDI function is a DDI function obtained by converting the GDI function issued from the despooler 507 to the graphic engine 502, the dispatcher 503 sends the DDI function to the printer driver 508 instead of the spooler 504.
The printer driver 508 generates a printer control command (PDL or the like) and outputs it to the image forming apparatus 2 via the system spooler 509.
As described above, the computer 1 shown in FIG. 5 converts the print job once converted into the intermediate code into the GDI function by the despooler 507 and then returns it to the graphic engine 502 again. Therefore, the computer 1 has an advantage that the configuration of the dispatcher 503, the spooler 504, the spool file 505, the spool file manager 506, and the despooler 507 need not be changed for each printer driver 508.

FIG. 6 is a diagram illustrating an example of the software configuration of the image forming apparatus 2.
The interface unit 601 receives a print job from the computer 1 via the network 4 and notifies the management server device 3 of the power supply state. Further, the interface unit 601 receives a device information acquisition request from the management server device 3 and transmits device information such as return time information from the sleep mode and engine speed information.
The print data storage unit 602 temporarily stores print job data in the RAM 302 or the external memory 311 in FIG.
The UI control unit 610 controls the Panel 309 via the Panel C 305 in FIG. 3 and accepts a user login request to the image forming apparatus 2, a copy instruction, a scan transmission instruction, and the like. When the UI control unit 610 receives a login request from the user via the Panel 309, the UI control unit 610 sends authentication information such as a user name and a password to the authentication processing unit 612 to make an authentication request. The UI control unit 610 receives an authentication ID when the authentication processing unit 612 succeeds in authentication. Thereafter, the UI control unit 610 holds the user name and the authentication ID until a logout request is received via the Panel 309. When a job operation such as copying is instructed by a user operation, the user is sent to the job management unit 603 together with the job issuance request. Send name and authentication ID. In addition, when the UI control unit 610 receives a logout request through the Panel 309, the UI control unit 610 performs logout processing. Furthermore, the UI control unit 610 has a “timeout time” predetermined as operation setting information, and performs logout processing when no operation is performed in the time set in the “timeout time” in the Panel 309. Note that the set value of “time-out time” can be referred from an external module (for example, an analysis server device or the like). In the logout process, the UI control unit 610 notifies the authentication processing unit 612 of logout together with the user name, authentication ID, and logout factor information, and discards the authentication information and authentication ID.

The job management unit 603 analyzes the print job, acquires print setting information such as a user name, the number of copies, double-sided printing, and color printing, and manages the information as job information together with information related to the job start time.
The authentication processing unit 612 receives print setting information and information such as a user name from the UI control unit 610 when a print job is issued by an operation of the Panel 309. On the other hand, when a job is issued from the Web browser, the authentication processing unit 612 receives print setting information and information such as a user name from the remote UI control unit 611.
The print data development unit 604 acquires print data from the print data storage unit 602 according to the job information stored in the job management unit 603, performs image generation processing, and generates image data.
The scanner control unit 605 controls the SCANC 312 in FIG. 3, scans a paper document, and creates image data.
The image storage unit 606 temporarily stores the image data generated by the print data development unit 604 and the scanner control unit 605 in the RAM 302 or the external memory 311.
The printer control unit 607 controls the printer engine 608 to print the image data stored in the image storage unit 606.
The printer engine 608 actually prints the image data stored in the image storage unit 606 on a medium such as printing paper using a printing technique such as an electrophotographic technique or an inkjet technique.

A job history management unit 609 manages job history information. Further, the job history management unit 609 transmits job history information to the management server device 3 in response to a request from the management server device 3.
When the job is completed, the job management unit 603 transmits job information to be managed to the job history management unit 609 as job history information.
The remote UI control unit 611 functions as an HTTP or HTTPS server, and accepts a request from a Web browser operating on the computer 1 or the like. When the remote UI control unit 611 receives a request from the Web browser, the remote UI control unit 611 acquires authentication information from the session information and inquires of the authentication processing unit 612 whether access is possible. The remote UI control unit 611 transmits the requested HTML data to the Web browser when access is permitted, and transmits HTML data for displaying a login form screen to the Web browser when access is not permitted. When the remote UI control unit 611 receives input data to the login form from the Web browser, the remote UI control unit 611 transmits an authentication request to the authentication processing unit 612. If the authentication is successful, the remote UI control unit 611 transmits the requested HTML data to the Web browser.
The authentication processing unit 612 performs authentication processing and management of the image forming apparatus 2. The authentication processing unit 612 performs user authentication based on a login name, a password, and the like input by the user to the Panel 309 or the login form of the Web browser. When the authentication processing unit 612 receives an authentication request from the printer driver 508, the authentication processing unit 612 verifies the user name and password. If the authentication is successful, the authentication processing unit 612 issues an authentication ID. Send back. The authentication processing unit 612 holds an authentication information table, and performs user authentication by comparing the input user name and password with the user name and password registered in the authentication information table. Note that the authentication processing unit 612 may communicate with the authentication server and perform user authentication using an authentication information table held on the authentication server side.

The power supply control unit 614 controls the power supply of the image forming apparatus 2 and manages three power supply states of the normal mode, the sleep mode, and the power supply OFF. The power supply control unit 614 may set the sleep mode in a plurality of stages, or may provide a sleep mode for each component module of the image forming apparatus 2. Moreover, the power supply control part 614 can be changed to each power supply state according to various conditions. For example, in the normal mode, the power supply control unit 614 enters the sleep mode when no operation is performed on the image forming apparatus 2 for a certain period of time and no print job, FAX reception, or command reception from the network is performed. Transition. Also, the power supply control unit 614 shifts to the normal mode when any operation is performed in the sleep mode, or when a print job is received, a FAX is received, a command is received from the network, or the like. The power supply control unit 614 notifies the power supply state notification unit 613 when changing the power supply state.
In response to the notification from the power control unit 614, the power state notification unit 613 notifies the management server device 3 of the power state via the interface unit 601. The power supply state notification unit 613 periodically notifies the power supply state even during operation in the normal mode. Further, when notifying the power state in the normal mode, the power state notifying unit 613 can also notify the remaining time until the sleep mode is entered. More specifically, the power supply state notification unit 613 notifies a power supply state notification including information related to types such as operating, power saving transition, power saving cancellation, power shutdown (off), and power on (on). The notification during operation indicates that the image forming apparatus 2 is operating in the normal mode, and is periodically notified during the operation in the normal mode. The notification of the power saving transition is notified when the image forming apparatus 2 shifts from the normal mode to the sleep mode. When notifying the power saving transition, the power status notifying unit 613 notifies the management server device 3 of time information from when the power saving is canceled until the printing process can be started based on the power status of the image forming apparatus 2. To be notified. The notification of canceling the power saving is notified when the image forming apparatus 2 shifts from the sleep mode to the normal mode. The notification of power-off is notified when the image forming apparatus 2 shifts to power-off. The power-on notification is notified when the image forming apparatus 2 is turned on from the power-off state and shifts to the normal mode. Note that the power supply state notification unit 613 also notifies the remaining time until shifting to power saving (time until shifting to the sleep mode) at the same time when notifying operation and canceling power saving.
Note that the communication protocol used when the power state notification unit 613 notifies via the interface unit 601 may be an original communication protocol or a publicly defined communication protocol. Further, the power state notification unit 613 may notify the management server device 3 designated in advance, or may notify a plurality of devices by multicast or broadcast.

FIG. 7 is a diagram illustrating an example of a software configuration of the management server device 3.
The management server device 3 includes an interface (I / F) unit 701, a power state monitoring unit 702, a device information management unit 703, a job information management unit 704, and a control unit 705.
The I / F unit 701 communicates with the computer 1 and the image forming apparatus 2 via the network I / F 406 in FIG. 4 and the network 4 in FIG.
The power status monitoring unit 702 receives a power status notification from the image forming apparatus 2 via the I / F unit 701, creates a power status history, and stores it in the power status management table 706. The power state management table 706 will be described later with reference to FIG.
The device information management unit 703 acquires device information such as the engine speed and the return time from the sleep mode from the image forming apparatus 2 via the I / F unit 701 and stores the device information in the device information management table 707. The device information management table 707 will be described later with reference to FIG.
The job information management unit 704 acquires print job information issued from the computer 1 via the I / F unit 701 and stores it in the job management table 708. The job management table 708 will be described later with reference to FIG.
The control unit 705 notifies the information stored in the power state management table 706, the device information management table 707, and the job management table 708 in response to a request from the computer 1 and the image forming apparatus 2 via the I / F unit 701. To do.

FIG. 8 is a diagram illustrating an example of a table managed by the management server device 3.
A power state management table 706 shown in FIG. 8A is a table in which the power state of the management target device is recorded.
The device ID 801 indicates identification information for identifying the image forming apparatus 2. Examples of the device ID 801 include a MAC address and an IP address.
A status 802 indicates the power status of the management target device.
Time 803 indicates the reception time of the latest status notification received from the image forming apparatus 2.

The device information management table 707 shown in FIG. 8B is a table in which device information such as the engine speed acquired from the image forming apparatus 2 and the return time from the sleep mode is recorded.
The device ID 811 indicates identification information for identifying the image forming apparatus 2. Examples of the device ID 811 include a MAC address and an IP address.
The time 812 until the return to sleep indicates the time required for the managed device to return from the sleep mode to the normal mode. In the present embodiment, this time value is a fixed value for each device, but may be a variable value calculated based on the device configuration state, the state of the engine at the time of transition to sleep, and the like.
The engine speed 813 indicates the print processing speed in the managed device in units of PPM (Page Per Minutes). In this embodiment, the print processing speed is a fixed value for each device, but a plurality of fixed values may be prepared according to conditions such as single-sided printing or double-sided printing, color printing, or monochrome printing. The print processing unit 500 of the computer 1 may apply the plurality of fixed values to the calculation of the print processing predicted time. The engine speed 813 is an example of processing speed information.

A job management table 708 shown in FIG. 8C is a table in which print job information issued by the computer 1 is recorded, and for each device ID recorded in the power status management table 706 and the device information management table 707. Created on.
The job ID 821 is identification information that is executed by the print processing unit 500 of the computer 1 and identifies the notified print job.
The job submitter 822 indicates identification information such as the login name of the user who issued the print job.
A time 823 indicates a time when a print job issue notification is received.
The travel time 824 indicates the travel time required for the user who issued the print job from the computer 1 to travel from the computer 1 to the image forming apparatus 2 that processes the print job in seconds.
The estimated print process time 825 indicates the estimated print process time of the print job in seconds.

FIG. 9 is a flowchart illustrating an example of processing until the computer 1 inputs a print job to the image forming apparatus 2 in the present embodiment.
In step S901, the application 501 executes printing.
In step S902, the print processing unit 500 spools print data such as a document to be printed in the intermediate data format by the processing described with reference to FIG.
In step S903, the print processing unit 500 analyzes the intermediate data format and obtains print setting information of print data to be printed. More specifically, the print processing unit 500 acquires print setting information related to the number of pages, single-sided printing, double-sided printing, color printing, monochrome printing, and the like. Further, the print processing unit 500 acquires device information of the image forming apparatus 2 that prints the print data from the device information management table 707 managed by the management server device 3. More specifically, the print processing unit 500 searches the device information management table 707 based on the device ID that identifies the target image forming apparatus 2 and acquires the searched device information. Then, the print processing unit 500 calculates the estimated print processing time of the print data based on the print setting information and the information on the engine speed 813 included in the device information. Note that the process of S903 is an example of a first acquisition process for acquiring process predicted time information related to the processing time of the printing process.
In step S <b> 904, the print processing unit 500 calculates a movement time required for the user to move from the place where printing is performed to the image forming apparatus 2 to be output. Note that the processing of S904 is an example of second acquisition processing for acquiring travel time information related to travel time. Hereinafter, details of the process in which the print processing unit 500 calculates the travel time will be described.

FIG. 10 is a diagram illustrating an example of a user interface displayed by the printer driver 508 in order for the print processing unit 500 to calculate the movement time.
(A) of FIG. 10 is a figure which shows an example of the dialog 1001 which performs the setting regarding movement time.
The dialog 1001 is configured to allow the user to select with the radio button 1002 and the radio button 1003 whether to use the position information of the computer 1 and the position information of the image forming apparatus 2 or to input a fixed value for calculating the movement time. It has become. When the printer driver 508 receives the selection of the radio button 1002 in the dialog 1001, the printer driver 508 validates the input of the text box 1004 regarding the walking speed. The user inputs a walking speed value in the text box 1004. Then, the print processing unit 500 calculates the travel time by using the distance value calculated from the position information of the computer 1 and the position information of the image forming apparatus 2 and the value of the walking speed. Note that the walking speed value input by the user into the text box 1004 is an example of walking speed information.

FIG. 10B is a diagram illustrating an example of a dialog 1009 used when the moving distance is provided using the position information of the image forming apparatus 2.
The dialog 1009 includes a radio button 1010 for selecting “automatic acquisition from a printer”, a radio button 1011 for selecting “distance input from the current position”, and a radio button 1012 for selecting “register current terminal position information as a printer position”. have. The user can select one of these three settings.
When the print processing unit 500 receives selection of the radio button 1010, the print processing unit 500 calculates a distance from the position information of the computer 1 and the position information of the image forming apparatus 2. Note that the print processing unit 500 acquires the position information of the computer 1 and the position information of the image forming apparatus 2 by GPS or the like. Note that GPS is an example of position information acquisition means. The print processing unit 500 calculates the distance by the sum of the difference in latitude and the difference in longitude between the computer 1 and the image forming apparatus 2. The process in which the print processing unit 500 calculates the distance is an example of a fourth acquisition process for acquiring distance information. The same applies to processing in which the print processing unit 500 acquires distance information by another method described later. In addition, when the altitude information can be acquired, the print processing unit 500 may further add a difference in altitude between the computer 1 and the image forming apparatus 2. As for the position information of the image forming apparatus 2, when the corresponding printer driver 508 is installed, the computer 1 communicates with the image forming apparatus 2 via the network 4, and the device configuration such as a finisher or a paper feed cassette is used. Get along with information. In addition, it can also be acquired by making a device configuration information acquisition request from the user interface of the printer driver 508.

When the image forming apparatus 2 does not have position information, the user selects the radio button 1011 or the radio button 1012. When the radio button 1011 is selected by the user, the text box 1013 becomes valid. Then, the print processing unit 500 applies a value input to the text box 1013 by the user as distance information.
On the other hand, when the radio button 1012 is selected by the user, the distance information is calculated using the GPS function of the computer 1. More specifically, when the computer 1 is portable, the user carries the computer 1 to the point of the image forming apparatus 2 and acquires position information. Accordingly, the print processing unit 500 can calculate the distance using the position information even when the image forming apparatus 2 does not have the position information.
The description returns to (a) of FIG.
When the printer driver 508 accepts the selection of the radio button 1003 in the dialog 1001, the printer driver 508 validates the input in the text box 1005 regarding the travel time. Then, the print processing unit 500 calculates the travel time by inputting a fixed value. Here, the value input to the text box 1005 by the user is applied as the travel time. When the user selects an OK button 1007, the print processing unit 500 holds the applied settings. When the user selects the cancel button 1008, the print processing unit 500 discards the applied setting and returns to the setting before the setting.

Returning to FIG.
In step S <b> 905, the print processing unit 500 communicates with the management server apparatus 3 and acquires power state information regarding the state 802 corresponding to the device ID 801 of the target image forming apparatus 2 stored in the power state management table 706. Further, the print processing unit 500 acquires return time information regarding the time 812 until the sleep return corresponding to the device ID 801 of the target image forming apparatus 2 from the device information management table 707. Note that the print processing unit 500 uses the return time information in the process of S907 described later. The process in which the print processing unit 500 acquires return time information is an example of a third acquisition process. In addition, the process in which the print processing unit 500 acquires power state information is an example of a fifth acquisition process.
In step S906, the print processing unit 500 determines whether the image forming apparatus 2 is sleeping based on the power supply state information acquired in step S905. If it is determined that the image forming apparatus 2 is sleeping, the process advances to step S907. . On the other hand, if it is determined in S906 that the print processing unit 500 is not in the sleep mode, the process proceeds to S909, the job is input, and the process ends. The purpose of this process is to cause the subsequent sleep transition to occur early when the image forming apparatus 2 to be printed is not in the sleep state and the image forming apparatus 2 completes the print processing of the job early.
In step S907, the print processing unit 500 determines whether it is necessary to change the job input timing. More specifically, the print processing unit 500 determines the relationship between the travel time acquired and calculated in the processes from S903 to S905, the return time from the sleep mode, and the predicted print process time. In the present embodiment, the print processing unit 500 determines whether or not the total time of the return time and the predicted print processing time is longer than the travel time. If it is determined that the total time is longer, the process proceeds to S908 and is not long. If it is determined, the process proceeds to S910. That is, if the movement time <(recovery time + printing process prediction time), the print processing unit 500 advances the process to S908, and sets this case as CASE1. Further, if the movement time> = (return time + printing process prediction time), the print processing unit 500 advances the process to S910, and sets this case as CASE2.
FIG. 11 is a diagram illustrating an example of job transmission timing.
More specifically, FIG. 11A is a diagram illustrating an example of print timing in CASE 1. On the other hand, FIG. 11B is a diagram illustrating an example of printing timing in CASE2.

Returning to FIG.
The processing of S908 is processing when the print processing unit 500 determines CASE1 in S907. In this case, the print processing unit 500 calculates an estimated time (waiting time) that is waited in front of the image forming apparatus 2 when the user moves immediately according to the following calculation formula.
Wait time = return time + print processing prediction time−movement time The printer driver 508 displays the wait time on the CRT 110. In this case, the print processing unit 500 immediately transmits the print job to the image forming apparatus 2.
The process of S910 is a process when the print processing unit 500 determines CASE2 in S907. In this case, the print processing unit 500 calculates the job transmission timing by the following calculation formula in order to keep the sleep mode of the image forming apparatus 2 as long as possible.
-Job transmission wait time = movement time-(return time + estimated print processing time)

In step S911, the print processing unit 500 waits for transmission of a print job until the waiting time calculated in step S910 has elapsed. Then, when the waiting time calculated in S910 elapses, the print processing unit 500 advances the process to S909 and inputs a job. Note that when the image forming apparatus 2 is not in the sleep mode and the job is in a transmission waiting state by the processing of S910 and S911, the image forming apparatus 2 may enter the sleep during the job transmission waiting time. For this reason, when the image forming apparatus 2 is not in the sleep mode, the print processing unit 500 should promptly generate a subsequent sleep transition by immediately submitting a job regardless of the movement time.
As described above, according to the present embodiment, when the user prints on the image forming apparatus 2 in the sleep mode, the computer 1 takes into account the time until the user moves to the image forming apparatus 2 and transmits the job. Change the timing. More specifically, the computer 1 delays the job transmission timing within a range in which the user does not wait for printing output in front of the image forming apparatus 2. Thereby, the computer 1 can earn the sleep time of the image forming apparatus 2 within a range that does not impair the printing productivity for the user, and as a result, the power consumption reduction efficiency can be improved.

<Embodiment 2>
In the first exemplary embodiment, when the image forming apparatus 2 is in the sleep mode, the transmission timing at which the computer 1 transmits the print job is set according to the user travel time, the return time from the sleep mode, and the estimated print processing time. The process for delaying has been described.
In an environment in which a plurality of users execute printing on the image forming apparatus 2 connected on the network, as a result of the job transmission timing delay, the print execution order of each user, the job transmission order to the image forming apparatus 2, and There is a further demand for lower productivity due to the difference in More specifically, there may be a case where the user who has executed the printing process first skips the printing order by the user who has executed the printing process later, and waits in front of the image forming apparatus 2.
In the present embodiment, in an environment in which a plurality of users execute printing on the image forming apparatus 2 connected on the network, even if the job transmission timing is delayed in order to increase the sleep time, the printing order of the users is simulated. A method for maintaining the target will be described.

Hereinafter, management of the print order to be solved in the present embodiment will be described with reference to FIGS.
FIG. 12 illustrates the job transmission timing, the print order, and the print order when the user who has executed the print process first skips the print order and waits in front of the image forming apparatus 2. It is a figure which shows an example of the relationship.
More specifically, user A performs printing (Ta1) first, but user B performs printing (Tb1) while waiting for job transmission (Ta2), and user B's job transmission (Tb2) precedes. May end up. In this case, the printing completion time (Tb4) of the user B delays the original printing start timing (Ta3) of the user A job. That is, the printing start timing (Ta3) of the user A is delayed until the delayed printing start timing (Ta3 ′). As a result, the printing completion time (Ta4) of the user A is shifted to the delay printing completion time (Ta4 ′), and the user A waits for the delay time W in front of the image forming apparatus 2.
On the other hand, FIG. 13 is a diagram illustrating an example of the relationship between the job transmission timing and the printing order when the printing order does not change even when the job transmission timing is changed.
More specifically, user A performs printing (Ta1) first, and user B performs printing (Tb1) while waiting for job transmission (Ta2), but user B's printing completion (Tb4) time is the user. It does not affect the print start timing (Ta3) of job A.
FIG. 14 shows a case where the user who has executed the printing process first prevents the user who has executed the printing process later from leaving the printing order in order to avoid the delay of the user A described with reference to FIG. FIG. 6 is a diagram illustrating an example of a relationship between job transmission timing and a printing order.
More specifically, even if user B executes printing (Tb1) while waiting for job transmission (Ta2) after user A first executes printing (Ta1), user B's job transmission (Tb2 ′) Does not precede User A's job transmission (Ta2).
In this way, by controlling so as to delay the job transmission timing of the user who executed printing later, the order of the print jobs of the user who executed printing first is maintained.

FIG. 15 is a flowchart illustrating an example of processing in the print processing unit 500 for realizing the print order management described with reference to FIGS. 12 to 14.
The processing from S1501 to S1504 is the same as the processing from S901 to S904 in FIG.
In step S <b> 1505, the print processing unit 500 transmits information on each item of the job management table 708 in the input job to the management server device 3. The management server device 3 stores the received information in the job management table 708.
In step S <b> 1506, the print processing unit 500 acquires device information in the image forming apparatus 2 to be printed from the management server apparatus 3. More specifically, the print processing unit 500 acquires power state information indicating a power state 802 in the image forming apparatus 2 to be printed and return time information indicating a time 812 until the return from sleep. Note that the power state information and the return time information are stored in the power state management table 706 and the device information management table 707, respectively, as described in the first embodiment. Further, the print processing unit 500 acquires information related to the start of job transmission among the job information held in the job management table 708. More specifically, information about the predicted print processing time 825, time 823, and travel time 824 is acquired. The print processing unit 500 uses a time 823 related to the start of print processing for each job in the subsequent processing.
In step S <b> 1507, the print processing unit 500 calculates the time until the end of printing of the print processing target job. More specifically, the print processing unit 500 compares the total time of the return time from the sleep mode and the estimated print processing time with the movement time, and sets the longer time as the time required for the end of printing. . This is because when the movement time is long, the print processing unit 500 delays the job transmission timing when the image forming apparatus 2 is in the sleep mode.

In step S1508, the print processing unit 500 determines whether the processes from S1515 to S1518 have been checked for all unprocessed jobs. If it is determined that the processes have been checked, the process advances to step S1509. On the other hand, if the print processing unit 500 determines in step S1508 that the check has not been made, the process advances to step S1515. Note that the processing from S1516 to S1518 is executed when the target image forming apparatus 2 is sleeping.
The processing in S1515 is the same as the processing in S906 in FIG.
In step S1516, the print processing unit 500 determines whether the target job is completed earlier than the print processing start time of the other comparison target job. If it is determined that the job is completed earlier, the process advances to step S1509. . On the other hand, if it is determined in S1516 that the print processing unit 500 does not complete early, the process advances to S1517. Note that the process of S1516 is an example of a time determination process.
The process of S1516 will be described more specifically using the examples of FIGS.
In the comparison process in S1516, the time of printing completion (Tb4) in the one job (job executed by user B) and the time of printing start (Ta3) in the other job (job executed by user A) are calculated. It means the processing to compare. Here, if the time when printing of the one job is completed (Tb4) is earlier than the time when printing of the other job is started (Ta3), the print processing unit 500 sets the one job as the preceding job. It is determined that printing can be executed prior to this job. Then, the print processing unit 500 advances the processing to S1509 without performing comparison with subsequent unprocessed jobs. This case is, for example, as shown in FIG. On the other hand, if the print completion time (Tb4) of the one job is later than the print start time (Ta3) of the other job, the print processing unit 500 advances the process to step S1517. This case is, for example, the case shown in FIG.

In step S <b> 1517, the print processing unit 500 affects the job transmission timing of the one job to the job transmission timing of the other job because the one job affects the other job that has been previously printed. Change immediately. In the example of FIG. 14, the print processing unit 500 uses the time of job transmission (Tb2 ′) in the one job executed by the user B as the job transmission (Ta2) in the other job executed by the user A. Change to be immediately after the time.
In step S1518, the print processing unit 500 moves the comparison target to the next unprocessed job. This is because the job transmission time of the one job whose job transmission timing is changed in S1517 may affect other unprocessed jobs.
When the print processing unit 500 finally performs the above-described influence check for all unprocessed jobs, the print processing unit 500 advances the process to step S1509, and sends information related to the print processing start updated as a result of the influence check to the management server apparatus 3. Send.
The processing from S1510 to S1514 is the same as the processing from S907 to S911 in FIG.
As described above, according to the present embodiment, the computer 1 is different in the print execution order of each user from the order in which jobs are transmitted to the image forming apparatus 2. The case where it waits in front can be prevented.

<Other embodiments>
The present invention can also be realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media, and a computer (or CPU, MPU, etc.) of the system or apparatus reads the program. It is a process to be executed.

  As mentioned above, according to each embodiment mentioned above, in the device which has a sleep function, the power consumption reduction efficiency can be improved.

  The preferred embodiment of the present invention has been described in detail above, but the present embodiment is not limited to the specific embodiment, and various modifications can be made within the scope of the gist of the present invention described in the claims.・ Change is possible.

Claims (14)

A first acquisition unit that acquires predicted processing time information related to a processing time for an image forming apparatus capable of communicating via a network to process a print job;
A second acquisition unit that acquires movement time information related to a movement time when a user instructing execution of the print job moves to the image forming apparatus;
Third acquisition means for acquiring return time information relating to a return time until the image forming apparatus returns from the power saving mode to the normal mode;
When the image forming apparatus is in a power saving mode, the predicted process time information acquired by the first acquisition unit, the travel time information acquired by the second acquisition unit, and the third acquisition unit Changing means for changing the timing of transmitting the print job to the image forming apparatus based on the acquired return time information;
An information processing apparatus.   2. The information processing according to claim 1, wherein the first acquisition unit calculates the processing time based on print setting information of the print job and device information of the image forming apparatus and acquires the predicted processing time information. apparatus.   The first acquisition unit includes the number of pages included in the print setting information, information regarding whether double-sided printing is performed, whether color printing is performed, and processing speed information included in the device information. The information processing apparatus according to claim 2, wherein the processing time is calculated based on the information to obtain the predicted processing time information. A fourth acquisition unit configured to acquire distance information between the information processing apparatus and the image forming apparatus;
The second acquisition unit calculates the movement time based on the distance information acquired by the fourth acquisition unit and the walking speed information of the user input via the operation unit, and calculates the movement time information. The information processing apparatus according to claim 1, wherein the information processing apparatus acquires one of the following:   The fourth acquisition unit acquires the distance information based on the position information acquired by the position information acquisition unit of the information processing apparatus and the position information acquired by the position information acquisition unit of the image forming apparatus. The information processing apparatus according to claim 4.   The information processing apparatus according to claim 4, wherein the fourth acquisition unit acquires the distance information based on a distance value input via an operation unit.   The information processing apparatus according to claim 1, wherein the third acquisition unit acquires the return time information from device information of the image forming apparatus. A fifth acquisition unit configured to acquire power state information of the image forming apparatus;
When the power acquisition state information indicating that the image forming apparatus is in a power saving state is acquired by the fifth acquisition unit, the changing unit includes the processing time indicated by the predicted processing time information and the return time information. The information processing apparatus according to claim 1, wherein the timing is changed based on a total time of a return time indicated and a movement time indicated by the movement time information. A determination means for determining whether the total time is longer than the travel time;
When the determining unit determines that the total time is longer than the moving time, the changing unit does not change the timing, and the determining unit determines that the total time is not longer than the moving time. The information processing apparatus according to claim 8, wherein the timing is delayed based on a difference between the travel time and the total time.   10. The display unit according to claim 9, further comprising: a display unit configured to display a difference between the total time and the travel time as a user waiting time on a display unit when the determination unit determines that the total time is longer than the travel time. Information processing device. When there are a plurality of print jobs to be processed, there is further provided time determination means for determining whether the processing of one print job ends earlier than the time related to the start of printing of another print job,
The said changing means changes the said timing concerning said one print job after the said other print job is transmitted to the said image forming apparatus, when it determines with the said time determination means not ending early. Information processing device.   Whether the time determination unit finishes processing of one print job earlier than the time related to the start of printing of another print job based on the longer of the total time and the travel time The information processing apparatus according to claim 11, wherein the information is determined. An information processing method executed by an information processing apparatus,
A first acquisition step of acquiring predicted processing time information related to a processing time for an image forming apparatus capable of communicating via a network to process a print job;
A second acquisition step of acquiring movement time information relating to a movement time when a user instructing execution of the print job moves to the image forming apparatus;
A third acquisition step of acquiring return time information relating to a return time until the image forming apparatus returns from the power saving mode to the normal mode;
When the image forming apparatus is in a power saving mode, the predicted process time information acquired by the first acquisition step, the travel time information acquired by the second acquisition step, and the third acquisition step A change step of changing a timing for transmitting the print job to the image forming apparatus based on the acquired return time information;
An information processing method including: On the computer,
A first acquisition step of acquiring predicted processing time information related to a processing time for an image forming apparatus capable of communicating via a network to process a print job;
A second acquisition step of acquiring movement time information relating to a movement time when a user instructing execution of the print job moves to the image forming apparatus;
A third acquisition step of acquiring return time information relating to a return time until the image forming apparatus returns from the power saving mode to the normal mode;
When the image forming apparatus is in a power saving mode, the predicted process time information acquired by the first acquisition step, the travel time information acquired by the second acquisition step, and the third acquisition step A change step of changing a timing for transmitting the print job to the image forming apparatus based on the acquired return time information;
A program for running

Images