US20210344804A1 - Information processing system, control method, and storage medium - Google Patents
Information processing system, control method, and storage medium Download PDFInfo
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- US20210344804A1 US20210344804A1 US17/378,127 US202117378127A US2021344804A1 US 20210344804 A1 US20210344804 A1 US 20210344804A1 US 202117378127 A US202117378127 A US 202117378127A US 2021344804 A1 US2021344804 A1 US 2021344804A1
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Definitions
- the present invention relates to a technique for cooperation between a plurality of information processing apparatuses.
- a technique that allows, if the remaining battery level of a mobile terminal becomes low in making MFP setting operations from a screen of the mobile terminal, the mobile terminal to transmit handover information to the MFP, and the MFP to display a setting screen having been opened on the mobile terminal thereon has also been discussed (for example, Japanese Patent Application Laid-Open NO. 2015-207247). In such a manner, the setting operation can be handed over between an MFP and a mobile terminal.
- the timing at which the setting operation can be handed over between the mobile terminal and the MFP is limited.
- the setting operation can be handed over between the mobile terminal and the MFP even if there is a large distance between the mobile terminal and the MFP. In other words, handover can be performed against the intention of the user.
- the conventional techniques therefore do not always improve the convenience of the user.
- the present invention is directed to providing a technique for performing handover of the setting operation by the user bringing the mobile terminal close to the MFP without limiting the timing at which the setting operation can be handed over.
- an information processing system includes a web server configured to provide a sequence of operation screens, an image processing apparatus configured to access the web server, and an information processing apparatus configured to access the web server.
- the web server includes a first memory, and a first processor in communication with the first memory.
- the first processor performs registering first information indicating an operation screen operated on the information processing apparatus and a status of operation, and providing a second operation screen to the image processing apparatus.
- the image processing apparatus includes a second memory, and a second processor in communication with the second memory.
- the second processor performs receiving second information corresponding to the registered first information, and displaying the second operation screen provided by the web server.
- the second information corresponding to the registered first information is transmitted from the information processing apparatus to the image processing apparatus.
- the receiving includes receiving the transmitted second information
- the displaying includes displaying the second operation screen, provided by the web server, on which the status of operation is reflected, based on the registered first information corresponding to the transmitted second information.
- FIG. 1 is a diagram illustrating a configuration of an information processing system according to a first exemplary embodiment of the present invention.
- FIG. 2 is a block diagram illustrating a hardware configuration of a multifunction peripheral (MFP) according to the present exemplary embodiment.
- MFP multifunction peripheral
- FIG. 3 is a block diagram illustrating a hardware configuration of a mobile terminal according to the present exemplary embodiment.
- FIG. 4 is a block diagram illustrating a hardware configuration of a management server and an application server according to the present exemplary embodiment.
- FIG. 5 is a block diagram illustrating a software configuration of the MFP according to the present exemplary embodiment.
- FIG. 6 is a block diagram illustrating a software configuration of the application server according to the present exemplary embodiment.
- FIG. 7 is a block diagram illustrating a software configuration of the management server according to the present exemplary embodiment.
- FIG. 8 is a block diagram illustrating a software configuration of the mobile terminal according to the present exemplary embodiment.
- FIG. 9 is a sequence diagram illustrating a flow of a series of processes performed by the information processing system according to the present exemplary embodiment.
- FIG. 10 is a flowchart illustrating processing of the application server according to the present exemplary embodiment.
- FIGS. 11A, 11B, 11C, and 11D are flowcharts illustrating processing of the management server according to the present exemplary embodiment.
- FIGS. 12A and 12B are flowcharts illustrating processing of the mobile terminal according to the present exemplary embodiment.
- FIG. 13 is a flowchart illustrating processing of the MFP according to the present exemplary embodiment.
- FIG. 14 illustrates an example of a sequence management table according to the present exemplary embodiment.
- FIG. 15 illustrates an example of a handover management table according to the present exemplary embodiment.
- FIGS. 16A to 16F illustrate examples of user interfaces (UIs) for operation screens of a web application according to the present exemplary embodiment, with FIGS. 16A to 16C illustrating an example UI for the mobile terminal, and FIGS. 16D to F illustrating an example UI for the MFP.
- UIs user interfaces
- FIG. 1 is a diagram illustrating an example of a system configuration of an information processing system according to the present exemplary embodiment.
- the information processing system includes a multifunction peripheral (MFP) 101 connected to a local area network (LAN) 110 , a mobile terminal 102 wirelessly connected to the LAN 110 via a wireless access point 130 , and a management server 103 and an application server 104 connected to a wide area network (WAN) 120 .
- the apparatuses on the LAN 110 and the apparatuses on the WAN 120 can communicate with each other via each other's networks.
- FIG. 1 illustrates an example of a typical network configuration, and each apparatus may be connected to either the LAN 110 or the WAN 120 .
- the MFP 101 may be connected to the wireless access point 130 .
- the MFP 101 is an image processing apparatus including a scanner and a printer. While the present exemplary embodiment is described by using the MFP 101 as an example of the image processing apparatus, this is not restrictive.
- the image processing apparatus may be a single-function apparatus.
- the MFP 101 includes a web browser as an application program. While the information processing system illustrated in FIG. 1 includes only one MFP, the information processing system may include a plurality of MFPs.
- the mobile terminal 102 is a portable information processing apparatus.
- the mobile terminal 102 includes a mobile application that can display web contents.
- the mobile terminal 102 according to the present exemplary embodiment is assumed to be, but not limited to, a terminal device such as a smartphone and a tablet terminal.
- the MFP 101 and the mobile terminal 102 can perform communication by short-range wireless communication such as near field communication (NFC) and Bluetooth (registered trademark) communication.
- the management server 103 is a server for managing information for handing over an operation status of a web application provided by the application server 104 (described below) from the mobile terminal 102 to the MFP 101 .
- the application server 104 is a web server that provides the web application. The provided web application can be accessed from the MFP 101 and the mobile terminal 102 . By accessing the application server 104 , the MFP 101 and the mobile terminal 102 display an operation screen of the web application and return operation content received on the operation screen to the application server 104 .
- the present exemplary embodiment is characterized in that the status of the web application operated on the mobile terminal 102 can be handed over to the MFP 101 .
- the number of application servers is not limited to one, and there may be a plurality of application servers corresponding to the number of web applications to be used.
- FIG. 2 is a block diagram illustrating a hardware configuration of the MFP 101 .
- a control unit 210 including a central processing unit (CPU) 211 controls operation of the entire MFP 101 .
- the CPU 211 reads control programs stored in a read-only memory (ROM) 212 and a hard disk drive (HDD) 214 and performs various types of control processing such as read control and transmission control.
- a random access memory (RAM) 213 is used as a temporary storage area such as a main memory and a work area of the CPU 211 .
- the HDD 214 stores image data and various programs including an installed application program.
- a short-range wireless communication interface (I/F) 215 is an I/F for short-range wireless communication such as NFC and Bluetooth (registered trademark) communication.
- the short-range wireless communication I/F 215 communicates with and exchanges data with the mobile terminal 102 .
- the CPU 211 serves as an obtaining unit configured to notify the management server of the received second information.
- An operation unit I/F 216 connects an operation unit 221 with the control unit 210 .
- the operation unit 221 includes a liquid crystal display unit having a touch panel function and a keyboard.
- a printer I/F 217 connects a printer 222 with the control unit 210 . Image data to be printed by the printer 222 is transferred from the control unit 210 to the printer 222 via the printer I/F 217 , and printed on a recording medium by the printer 222 .
- a scanner I/F 218 connects a scanner 223 with the control unit 210 . The scanner 223 reads an image on a document to generate image data, and inputs the image data to the control unit 210 via the scanner I/F 218 .
- a sensor I/F 219 connects a contact detection sensor 224 with the control unit 210 .
- the contact detection sensor 224 is a sensor for detecting whether the mobile terminal 102 is in contact at a predetermined position on the MFP 101 .
- the MFP 101 includes a mobile terminal placing spot (not illustrated) for the mobile terminal 102 to be placed on.
- the contact detection sensor 224 detects whether the mobile terminal 102 is placed on the mobile terminal placing spot.
- a network I/F 220 connects the control unit 210 (MFP 101 ) to the LAN 110 .
- the network I/F 220 transmits and receives various types of information to/from other apparatuses on the LAN 110 or the WAN 120 .
- the network I/F 220 serves as a receiving unit, configured to receive second information corresponding to the first information registered by a registering unit from the information processing apparatus.
- the operation unit I/F 216 serves as a displaying unit configured to display the second operation screen provided by a providing unit.
- the detection sensor 224 serves as a detecting unit configured to detect whether the information processing apparatus is placed at a predetermined position.
- FIG. 3 is a block diagram illustrating a hardware configuration of the mobile terminal 102 .
- a control unit 310 including a CPU 311 controls operation of the entire device.
- the CPU 311 reads control programs stored in a ROM 312 and a flash memory 314 and performs various types of control processing.
- a RAM 313 is used as a temporary storage area such as a main memory and a work area of the CPU 311 .
- the flash memory 314 stores various programs and data.
- An operation unit I/F 315 connects an operation unit 318 with the control unit 310 .
- the operation unit 318 includes a liquid crystal display unit having a touch panel function.
- a short-range wireless communication I/F 316 is an I/F for short-range wireless communication such as NFC and Bluetooth (registered trademark) communication.
- the short-range wireless communication I/F 316 communicates with and exchanges data with the MFP 101 .
- a network I/F 317 connects the control unit 310 to the LAN 110 via the wireless access point 130 .
- the network I/F 317 is capable of wireless communication.
- the network I/F 317 transmits and receives various types of information to/from other apparatuses on the WAN 120 or the LAN 110 by wireless communication.
- FIG. 4 is a block diagram illustrating a hardware configuration of the management server 103 and the application server 104 .
- a control unit 410 including a CPU 411 controls operation of the entire apparatus.
- the CPU 411 reads control programs stored in a ROM 412 and an HDD 414 and performs various types of control processing.
- a RAM 413 is used as a temporary storage area such as a main memory and a work area of the CPU 411 .
- the HDD 414 stores various programs and data.
- the RAM 413 or HDD 414 of the application server 104 serves as a registration unit configured to register first information indicating: a first operation screen operated on the information processing apparatus, and a status operation.
- the CPU 411 of the application server 104 serves as an updating unit and an instructing unit.
- the updating unit 411 is configured to update the first information registered by the registering unit 413 each time the operation screen transitions based on a user operation.
- the instructing unit 411 is configured to give an instruction to register handover information associated with the first information registered by the registering unit 413 .
- a display unit I/F 415 connects a display unit 418 with the control unit 410 .
- a keyboard I/F 416 connects a keyboard 419 with the control unit 410 .
- the CPU 411 recognizes instructions given by the user via the keyboard 419 , and makes a screen displayed on the display unit 418 transition based on the recognized instructions.
- a network I/F 417 connects the control unit 410 to the WAN 120 .
- the network I/F 417 transmits and receives various types of information to/from other apparatuses on the WAN 120 or the LAN 110 .
- the network IF 417 of the application server 104 serves as a providing unit configured to provide a second operation screen.
- FIG. 5 is a software configuration diagram of the MFP 101 according to the present exemplary embodiment.
- This software configuration diagram is a functional block diagram of software implemented by the CPU 211 of the MFP 101 reading programs stored in the ROM 212 and the HDD 214 into the RAM 213 and executing the programs.
- a mobile terminal cooperation unit 501 performs processing for cooperating with the mobile terminal 102 .
- the mobile terminal cooperation unit 501 detects that the mobile terminal 102 is placed on the mobile terminal placing spot by using the contact detection sensor 224 , and communicates with the mobile terminal 102 by using the short-range wireless communication I/F 215 .
- the term “cooperation” refers to a state where the MFP 101 and the mobile terminal 102 can communicate with and exchange data with each other. The term will hereinafter be used for the same meaning.
- a menu display unit 502 displays buttons (hereinafter, application buttons) for calling applications on a menu screen.
- the application buttons are buttons for calling various functions such as an application installed on the MFP 101 and a web application.
- a web browser 503 accesses a web server to obtain web content.
- the MFP 101 may include other functions that are not illustrated in the drawings.
- FIG. 6 is a software configuration diagram of the application server 104 according to the present exemplary embodiment.
- This software configuration diagram is a functional block diagram of software implemented by the CPU 411 of the application server 104 reading programs stored in the ROM 412 and the HDD 414 into the RAM 413 and executing the programs.
- a web application 601 is a program running on the application server 104 .
- the web application 601 provides a screen (operation screen) for operating the web application 601 to the MFP 101 and the mobile terminal 102 , and the MFP 101 and the mobile terminal 102 display the operation screen on a web browser.
- the MFP 101 and the mobile terminal 102 display the operation screen of the web application 601 by accessing the application server 104 , accept the user's operations on the operation screen, and return the content of the accepted operations to the application server 104 .
- the user accesses the application server 104 via a web browser and makes settings on an operation screen for scan setting, provided by the web application 601 (in the present exemplary embodiment, the user accesses the application server 104 a plurality of times and makes settings on a plurality of operation screens).
- the user can then give a scan execution instruction on an operation screen for scan execution, provided by the web application 601 .
- application server (web server) 104 is configured to provide a sequence of operation screens.
- a sequence management table 602 is a table for managing situations (operation history) in a series of processes (hereinafter, sequence) where the user operates the web application 601 via a web browser.
- the sequence refers to a procedure involving screen transition from a start to end of processing defined for each web application.
- a sequence for a scan application ranges from an instruction for making scan settings to an instruction for executing the scan.
- the application server 104 may include other functions that are not illustrated in FIG. 6 .
- FIG. 14 illustrates an example of the sequence management table 602 according to the present exemplary embodiment.
- the sequence management table 602 includes three columns 1401 to 1403 .
- a SequenceID column 1401 is a column containing identification information (hereinafter, “sequence identifier (ID)”) for uniquely identifying a piece of sequence information. Sequence information is information including information defined in the columns 1401 to 1403 . The values in the SequenceID column 1401 also serve as IDs for uniquely specifying the rows of the sequence management table 602 . In the following description, the values in the SequenceID column 1401 are used to designate the rows of the sequence management table 602 . For example, the row where the value of the SequenceID column 1401 is “s001” will be referred to as “row s001”.
- a SequenceData column 1402 is a column describing the operation status at a point in time indicated by the SequenceID column 1401 in the sequence.
- the SequenceData column 1402 stores information (hereinafter, “sequence operation status data”) to be used to identify and restore an operation status of the sequence. Examples of the information to be used include an ID of an operation screen, a setting value set before the operation screen, and an operation history.
- a HandoverID column 1403 contains an ID (hereinafter, “handover ID”) for uniquely identifying a row of a handover management table 702 to be described below.
- the HandoverID column 1403 links the sequence management table 602 to the handover management table 702 .
- FIG. 7 is a software configuration diagram of the management server 103 according to the present exemplary embodiment.
- This software configuration diagram is a functional block diagram of software implemented by the CPU 411 of the management server 103 reading programs stored in the ROM 412 and the HDD 414 into the RAM 413 and executing the programs.
- a handover management unit 701 manages information (hereinafter, “handover information”) for handing over the sequence of the web application 601 from the mobile terminal 102 to the MFP 101 .
- the handover management table 702 is a table where the handover information is recorded.
- the handover management unit 701 and the handover management table 702 do not need to be included in the management server 103 .
- the handover management unit 701 and the handover management table 702 may be included in the application server 104 .
- the management server 103 may include other functions that are not illustrated in FIG. 7 .
- FIG. 15 illustrates an example of the handover management table 702 according to the present exemplary embodiment.
- the handover management table 702 includes three columns 1501 to 1503 .
- a HandoverID column 1501 is a column for defining an ID for uniquely identifying a piece of handover information, and corresponds to the HandoverID column 1403 of the sequence management table 602 .
- the values in the HandoverID column 1501 also serve as IDs for uniquely specifying the rows of the handover management table 702 .
- the values in the HandoverID column 1501 are used to designate the rows of the handover management table 702 . For example, the row where the value of the HandoverID column 1501 is “h001” will be referred to as “row h001”.
- a Uniform Resource Locator (URL) column 1502 contains a URL (hereinafter, “handover URL”) for the web browser 503 of the MFP 101 to access in handing over the sequence of the web application 601 to the MFP 101 .
- the values in the URL column 1502 are the URLs of web applications, which vary from one web application to another.
- the URL of a web application to which the value in the SequenceID column 1401 is attached as a query string is used as a handover URL. Since the value in the SequenceID column 1401 indicates the operation status of the sequence, the handover URL enables identification and restoration of the operation status of the sequence of the target web application.
- a HandedoverFlag column 1503 lists flags indicating whether the target sequences have been handed over to the MFP 101 .
- a value “TRUE” in the HandedoverFlag column 1503 indicates that the target sequence has been handed over. Other values than “TRUE” indicate that the target sequence has not been handed over.
- FIG. 8 is a software configuration diagram of the mobile terminal 102 according to the present exemplary embodiment.
- This software configuration diagram is a functional block diagram of software implemented by the CPU 311 of the mobile terminal 102 reading programs stored in the ROM 312 and the flash memory 314 into the RAM 313 and executing the programs.
- An MFP cooperation application 800 is an application for handing over operations to the MFP 101 , and includes a web content display unit 801 and an MFP cooperation unit 802 .
- the web content display unit 801 accesses the application server 104 and displays web content.
- the MFP cooperation unit 802 performs processing for exchanging data with the MFP 101 by using the short-range wireless communication I/F 215 .
- FIGS. 16A to 16F are diagrams illustrating a transition of a setting screen of the mobile terminal 102 .
- FIG. 16A illustrates a setting screen 1 (screen 1610 ) initially displayed when the web application is accessed.
- FIGS. 16D to 16F are diagrams illustrating a transition of a setting screen of the MFP 101 .
- FIGS. 16D to 16F illustrate similar setting screens to those illustrated in FIGS. 16A to 16C , with a similar screen transition.
- the user makes settings on the setting screen 1 of FIG. 16A on the mobile terminal 102 , and then presses the “NEXT” button 1601 to open the setting screen 2 of FIG. 16B and places the mobile terminal 102 on the mobile terminal placing spot of the MFP 101 to start short-range wireless communication between the MFP 101 and the mobile terminal 102 .
- the user can continue to make settings on a setting screen 2 (screen 1650 ) of FIG. 16E on the MFP 101 .
- the setting screen 1 of FIG. 16A or the setting screen 3 of FIG. 16C is open on the mobile terminal 102 , the user can similarly continue to make settings on a setting screen 1 (screen 1640 ) of FIG.
- FIG. 9 is a sequence diagram illustrating a flow of a series of processes that the MFP 101 , the mobile terminal 102 , the management server 103 , and the application server 104 according to the present exemplary embodiment perform in a cooperative manner.
- FIG. 9 illustrates an example where the web application 601 provided by the application server 104 is operated by using the mobile terminal 102 and then the sequence is handed over to the MFP 101 .
- the application server 104 is a server that provides the web application 601 .
- the web application 601 is called by the MFP 101 or the mobile terminal 102 .
- the management server 103 is a server used to manage information for handing over the operation status of the web application 601 from the mobile terminal 102 to the MFP 101 .
- step S 901 the mobile terminal 102 receives the user's instruction to access the web application 601 and accesses the application server 104 .
- the MFP cooperation application 800 sends a request by using a start URL with which the sequence is started.
- the request here refers to processing for requesting the operation screen (setting screen) of FIG. 16A .
- step S 902 the application server 104 registers new sequence information in the sequence management table 602 .
- the sequence information here includes status data on a sequence operation and a sequence ID.
- step S 903 the application server 104 transmits the URL of the web application 601 being accessed by the mobile terminal 102 and the sequence ID to the management server 103 , and instructs the management server 103 to register handover information.
- step S 904 the management server 103 registers new handover information in the handover management table 702 .
- step S 905 the management server 103 returns a response indicating a registration result of the handover information to the application server 104 .
- the response includes a handover ID from which the new handover information issued in step S 904 can be uniquely identified.
- the handover ID is issued by the management server 103 .
- the handover ID may be issued by the mobile terminal 102 .
- the mobile terminal 102 includes information unique to the mobile terminal 102 (such as a Media Access Control (MAC) address) into the query string in accessing the web application 601 , and notifies the application server 104 and the management server 103 of the information.
- MAC Media Access Control
- step S 906 the application server 104 performs processing corresponding to the request made in step S 901 .
- the application server 104 identifies the situation in the sequence from the sequence information, and performs processing appropriate to the request, i.e., generates the setting screen of FIG. 16A in response to a screen acquisition request.
- step S 907 the application server 104 updates the sequence management table 602 with sequence information on which the processing performed in step S 906 is reflected. Specifically, the application server 104 adds a value to or updates the value in the SequenceData column 1402 of the sequence management table 602 based on the request.
- step S 908 the application server 104 returns a response to the request made in step S 901 to the mobile terminal 102 (displays the setting screen of FIG. 16A ).
- the handover ID is included as part of the response.
- step S 909 the mobile terminal 102 receives the user's instructions (the user makes settings on the setting screen 1 of FIG. 16A and presses the “NEXT” button 1601 ), and transmits the next request to the application server 104 .
- the request includes information (handover ID) indicating the sequence.
- step S 910 the application server 104 transmits access information including a request URL to the management server 103 .
- step S 911 upon receiving the access information, the management server 103 checks that the request made in step S 909 is not one for a handed-over sequence.
- step S 912 the application server 104 performs processing corresponding to the request made in step S 909 .
- the application server 104 identifies the situation in the sequence based on the sequence information included in the request, and performs processing appropriate to the request, i.e., records settings such as “one-sided documents” and “full color” made on the setting screen of FIG. 16A , and generates the setting screen of FIG. 16B .
- step S 913 the application server 104 updates the sequence management table 602 with the sequence information on which the processing performed in step S 912 is reflected (setting information such as “one-sided document” and “full color” set on the setting screen of FIG. 16A ).
- step S 914 the application server 104 returns a response to the request made in step S 909 to the mobile terminal 102 (displays the setting screen of FIG. 16B ).
- the handover ID is included as part of the response.
- step S 909 to step S 914 The processing from step S 909 to step S 914 is performed each time the mobile terminal 102 accepts the user's operations on the MFP cooperation application 800 and accesses the application server 104 to make a request (in the following description, setting screen 2 of FIG. 16B is assumed to be displayed on the mobile terminal 102 here).
- step S 915 the MFP 101 detects that the mobile terminal 102 is placed on the mobile terminal placing spot by using the contact detection sensor 224 .
- step S 916 the MFP 101 and the mobile terminal 102 establish a connection by short-range wireless communication.
- step S 917 the mobile terminal 102 notifies the MFP 101 of the handover ID of the MFP cooperation application 800 that is being operated.
- step S 918 the MFP 101 obtains handover information corresponding to the handover ID notified in step S 917 from the handover management table 702 in the management server 103 .
- step S 919 the MFP 101 determines whether there is handover information. If there is handover information (YES in step S 919 ), the processing proceeds to step S 920 . If there is no handover information (NO in step S 919 ), the processing is ended.
- step S 920 the MFP 101 accesses a handover URL included in the handover information obtained in step S 918 by using the web browser 503 (makes an acquisition request for the setting screen of FIG. 16E ).
- step S 921 the application server 104 transmits access information to the management server 103 .
- step S 922 the management server 103 updates the handover information in the handover management table 702 . Specifically, the management server 103 updates the value in the HandedoverFlag column 1503 with “TRUE”.
- step S 923 the application server 104 performs processing corresponding to the request made in step S 920 .
- the application server 104 refers to the sequence management table 602 based on the sequence information included in the handover information, identifies the situation in the sequence (operation screen and operation history), and performs processing appropriate to the request, i.e., in response to the acquisition request for the setting screen of FIG. 16E , stores the operation history and generates the setting screen of FIG. 16E on which the operation history is reflected.
- step S 924 the application server 104 updates the sequence management table 602 with the sequence information on which the processing performed in step S 923 is reflected.
- step S 925 the application server 104 determines whether the sequence is completed. If the sequence is completed (YES in step S 925 ), the processing proceeds to step S 926 . If the sequence is not completed (NO in step S 925 ), the processing proceeds to step S 929 .
- step S 929 the application server 104 returns a response to the request made in step S 920 to the MFP 101 , i.e., displays the setting screen of FIG. 16E .
- This response may include the handover ID.
- the processing of steps S 920 to S 929 is performed each time the MFP 101 receives the user's operation on the web browser 503 and makes a request to the application server 104 .
- the processing for making a request in step S 920 for the second and subsequent times is performed based on the user's instruction via the MFP 101 . For example, the user presses a “NEXT” button 1605 on the setting screen of FIG. 16E to make an acquisition request for the setting screen 3 of FIG. 16F .
- step S 925 if the sequence is completed (if the user presses the “EXECUTE” button 1606 on the setting screen of FIG. 16F ) (YES in step S 925 ), the processing proceeds to step S 926 .
- step S 926 the application server 104 instructs the management server 103 to delete the handover information.
- step S 927 the management server 103 deletes the corresponding handover information from the handover management table 702 .
- step S 928 the application server 104 deletes the sequence information from the sequence management table 602 .
- the handover ID corresponding to the deleted handover information may be deleted from the mobile terminal 102 .
- a button for calling handover information may be displayed as one of the application buttons on the menu screen, and the web browser 503 may be configured to be activated by the user pressing the button.
- the detection of the mobile terminal 102 by the contact detection sensor 224 and the establishment of the short-range wireless communication trigger the subsequent processing. For example, if the contact detection sensor 224 detects that the mobile terminal 102 is placed on the mobile terminal placing spot, the MFP 101 issues a Bluetooth (registered trademark) beacon.
- the mobile terminal 102 receives the beacon and the radio field intensity of the beacon is higher than or equal to a predetermined value, the mobile terminal 102 establishes a Bluetooth (registered trademark) communication and then the processing proceeds to the next step.
- a Bluetooth registered trademark
- the mobile terminal placing spot is used as a unit for determining that the mobile terminal 102 is located near the MFP 101 .
- the mobile terminal placing spot is may not be provided in the MFP 101 , and any configuration may be used as long as the mobile terminal 102 and the MFP 101 can be found to be close to each other.
- the mobile terminal 102 may receive the beacon and determines that the MFP 101 is at a close distance based on the radio field intensity of the beacon. If the MFP 101 is determined to be at a close distance, the mobile terminal 102 may establish a Bluetooth (registered trademark) communication and transmit the handover ID to the MFP 101 .
- the mobile terminal 102 may receive wireless LAN connection information from the MFP 101 by using Bluetooth (registered trademark) packets, establish a wireless LAN communication with the MFP 101 by using the wireless LAN connection information, and then transmit the handover ID to the MFP 101 by the established wireless LAN communication.
- the mobile terminal 102 may determine that the MFP 101 is at a close distance based on successful establishment of NFC communication.
- the mobile terminal 102 may receive the wireless LAN connection information from the MFP 101 by using NFC communication, establish a wireless LAN communication with the MFP 101 based on the wireless LAN connection information, and then transmit the handover ID to the MFP 101 by the established wireless LAN communication.
- the handover ID may be notified by writing the handover ID to an NFC tag of the mobile terminal 102 , facing the mobile terminal 102 toward the MFP 101 , and the NFC tag reader of the MFP 101 reading the handover ID.
- the MFP 101 thus receives the handover ID if the mobile terminal 102 is located near the MFP 101 .
- FIG. 10 is a flowchart for describing processing of the application server 104 according to the present exemplary embodiment.
- FIG. 10 illustrates processing from reception of a request from the web browser of the MFP 101 or the mobile terminal 102 to returning of a response.
- the flowchart of FIG. 10 corresponds to the processing that the application server 104 performs in the series of processes illustrated in the sequence diagram of FIG. 9 .
- the steps in the flowchart of FIG. 10 are implemented by the CPU 411 of the application server 104 reading a program stored in the HDD 414 into the RAM 413 and executing the program.
- step S 1001 the web application 601 receives a Hypertext Transfer Protocol (HTTP) request from the web browser of the MFP 101 or the mobile terminal 102 .
- HTTP Hypertext Transfer Protocol
- the term “request” refers to the HTTP request received in step S 1001 .
- step S 1002 the web application 601 identifies the type of the requesting terminal (MFP 101 or mobile terminal 102 ) that has transmitted the request.
- step S 1003 the web application 601 determines whether the request includes information for identifying a sequence of the web application 601 .
- the determination is made by determining whether a sequence ID is attached to the request URL (URL for accessing the application server 104 ) as a query string, whereas other methods may be used.
- information from which the sequence can be identified may be included in a cookie or an HTTP header. If the request includes the information for identifying the sequence (YES in step S 1003 ), the processing proceeds to step S 1004 . If the request does not include the information for identifying the sequence (NO in step S 1003 ), the processing proceeds to step S 1020 .
- step S 1004 the web application 601 extracts sequence information including the sequence ID included in the query string of the request URL from the sequence management table 602 . Specifically, the web application 601 extracts a record having the value of the SequenceID column 1401 that coincides with the sequence ID included in the query string of the request URL.
- step S 1005 the web application 601 determines whether the sequence information is successfully extracted in step S 1004 . If the sequence information is successfully extracted (YES in step S 1005 ), the processing proceeds to step S 1006 . If not (NO in step S 1005 ), the processing proceeds to step S 1020 .
- step S 1006 the web application 601 transmits access information to the handover management unit 701 of the management server 103 .
- the access information includes the type of the requesting terminal identified in step S 1002 and the handover ID (the value in the HandoverID column 1403 ) included in the sequence information extracted in step S 1004 .
- step S 1007 the web application 601 receives a response to the access information transmitted in step S 1006 from the handover management unit 701 of the management server 103 .
- step S 1008 the web application 601 determines whether the response received in step S 1007 is an error. If the response is an error (YES in step S 1008 ), the processing proceeds to step S 1030 . If the response is not an error (NO in step S 1008 ), the processing proceeds to step S 1009 .
- step S 1009 the web application 601 identifies the operation status in the sequence from the sequence operation status data (the value in the SequenceData column 1402 ) included in the sequence information extracted in step S 1004 , and performs processing appropriate to the request.
- step S 1010 the web application 601 updates the sequence management table 602 with the status in the sequence on which the processing performed in step S 1009 is reflected as the sequence operation status data.
- step S 1011 the web application 601 determines whether the target sequence is completed based on the sequence operation status data. If the sequence is completed (YES in step S 1011 ), the processing proceeds to step S 1012 . If the sequence is not completed (NO in step S 1011 ), the processing proceeds to step S 1015 .
- step S 1012 the web application 601 transmits a delete instruction for the handover information to the handover management unit 701 of the management server 103 .
- the web application 601 includes the handover ID (the value in the HandoverID column 1403 ) included in the sequence information extracted in step S 1004 in the delete instruction as information for identifying the handover information to be deleted.
- step S 1013 the web application 601 receives a response to the delete instruction transmitted in step S 1012 from the handover management unit 701 of the management server 103 .
- step S 1014 the web application 601 deletes sequence information from the sequence management table 602 .
- the sequence information to be deleted is the sequence information where the SequenceID column 1401 contains the sequence ID included in the query string of the request URL.
- step S 1015 the web application 601 returns the result of the processing in step S 1009 to the requesting terminal as a response to the request received in step S 1001 , and the processing is ended.
- the handover ID (the value in the HandoverID column 1403 ) is included in the response here. In the present exemplary embodiment, the handover ID is included in the custom header of the HTTP response, whereas other methods may be used.
- step S 1020 the web application 601 issues a new sequence ID.
- step S 1021 the web application 601 registers new sequence information including the sequence ID issued in step S 1020 in the sequence management table 602 .
- the web application 601 registers the issued sequence ID in the SequenceID column 1401 , and the current sequence operation status data in the SequenceData column 1402 .
- the HandoverID column 1403 is blank at this point in time.
- step S 1022 the web application 601 transmits a registration instruction for handover information to the handover management unit 701 of the management server 103 .
- the web application 601 includes a handover URL (the URL of the web application 601 to which the sequence ID is attached as a query string) and the type of the requesting terminal identified in step S 1002 in the registration instruction as the handover information.
- step S 1023 the web application 601 receives a response to the registration instruction transmitted in step S 1022 from the handover management unit 701 of the management server 103 .
- the response includes a handover ID for identifying the registered handover information.
- step S 1024 the web application 601 registers the handover ID received in step S 1023 in the HandoverID column 1403 of the sequence management table 602 .
- the processing proceeds to step S 1009 , and the web application 601 performs the subsequent processing.
- step S 1030 the web application 601 returns error information prohibiting subsequent operations to the requesting terminal as a response to the request received in step S 1001 .
- the processing is ended.
- the application server 104 can register the handover ID and the user's operation status in the sequence of the web application 601 in association with each other, and obtain and update the registered information each time the user accesses the web application 601 via the web browser of the MFP 101 or the mobile terminal 102 .
- the application server 104 can also notify the management server 103 of the registered information.
- FIGS. 11A to 11D are flowcharts for describing processing of the management server 103 according to the present exemplary embodiment. The steps in the flowcharts of FIGS. 11A to 11D are implemented by the CPU 411 of the management server 103 reading programs stored in the ROM 412 and the HDD 414 into the RAM 413 and executing the programs.
- FIG. 11A is a flowchart for describing the processing performed by the 10198105 US 02 management server 103 when the management server 103 receives a registration instruction for handover information from the application server 104 .
- the flowchart of FIG. 11A corresponds to the processing of the management server 103 in steps S 903 to S 905 in the sequence diagram of FIG. 9 .
- step S 1101 the handover management unit 701 receives a registration instruction for handover information from the application server 104 .
- the registration instruction includes a handover URL and the type of requesting terminal identified in step S 1002 .
- step S 1102 the handover management unit 701 issues a new handover ID.
- step S 1103 the handover management unit 701 registers new handover information including the handover ID issued in step S 1102 in the handover management table 702 .
- the handover management unit 701 registers the handover ID in the HandoverID column 1501 , and the handover URL in the URL column 1502 . If the requesting terminal is an MFP, the handover management unit 701 registers “TRUE” in the HandedoverFlag column 1503 . If the requesting terminal is not an MFP, the handover management unit 701 registers “FALSE” in the HandedoverFlag column 1503 .
- step S 1104 the handover management unit 701 returns a response indicating the completion of the registration to the application server 104 as a response to the registration instruction received in step S 1101 .
- the processing is then ended.
- the response here includes the handover ID issued in step S 1102 .
- FIG. 11B is a flowchart for describing the processing performed by the management server 103 when the management server 103 receives access information from the application server 104 .
- the flowchart of FIG. 11B corresponds to the processing of the management server 103 in steps S 910 and S 911 and steps S 921 and S 922 in the sequence diagram of FIG. 9 .
- step S 1110 the handover management unit 701 receives access information from the application server 104 .
- the access information includes a handover ID and the 10198105 US 02 type of requesting terminal identified in step S 1002 .
- step S 1111 the handover management unit 701 extracts handover information including the received handover ID in the HandoverID column 1501 from the handover management table 702 .
- step S 1112 the handover management unit 701 determines whether the handover information is successfully extracted in step S 1111 . If the handover information is successfully extracted (YES in step S 1112 ), the processing proceeds to step S 1113 . If not (NO in step S 1112 ), the processing proceeds to step S 1130 . In step S 1130 , the handover management unit 701 returns a response indicating an error that the handover information is not found to the application server 104 . The processing is then ended.
- step S 1113 the handover management unit 701 determines whether the type of the requesting terminal received from the application server 104 in step S 1110 is an MFP. If the type of the requesting terminal is an MFP (YES in step S 1113 ), the processing proceeds to step S 1114 . If the type of the requesting terminal is not an MFP (NO in step S 1113 ), the processing proceeds to step S 1115 .
- step S 1114 the handover management unit 701 updates the handover management table 702 by setting “TRUE” in the HandedoverFlag column 1503 of the handover information extracted in step S 1111 .
- the processing proceeds to step S 1116 .
- step S 1115 the handover management unit 701 determines whether the value in the HandedoverFlag column 1503 of the handover information extracted in step S 1111 is “TRUE”. If the value in the HandedoverFlag column 1503 is “TRUE” (YES in step S 1115 ), the processing proceeds to step S 1120 . If the value is not “TRUE” (NO in step S 1115 ), the processing proceeds to step S 1116 .
- step S 1116 the handover management unit 701 returns a response indicating that the access information received in step S 1110 is normally accepted to the application server 104 . The processing is then ended.
- step S 1120 the handover management unit 701 returns a response indicating an error that operations are prohibited to the application server 104 .
- the processing is 10198105 US 02 then ended.
- FIG. 11C is a flowchart illustrating the processing performed by the management server 103 when the management server 103 receives a delete instruction for handover information from the application server 104 .
- the flowchart of FIG. 11C corresponds to the processing of the management server 103 in steps 5926 and 5927 in the sequence diagram of FIG. 9 .
- step S 1140 the handover management unit 701 receives a delete instruction for handover information from the application server 104 .
- the delete instruction includes a handover ID.
- step S 1141 the handover management unit 701 determines whether there is handover information for which the delete instruction is received in the handover management table 702 . Specifically, the handover management unit 701 determines whether there is a record having the value in column HandoverID 1501 that coincides with the value of the handover ID received in step S 1140 . If there is such handover information (YES in step S 1141 ), the processing proceeds to step S 1142 . If not (NO in step S 1141 ), the processing proceeds to step S 1150 . In step S 1150 , the handover management unit 701 returns a response indicating that there is no handover information to be deleted to the application server 104 . The processing is then ended.
- step S 1142 the handover management unit 701 deletes the record where the HandoverID column 1501 contains the value of handover ID received in step S 1140 from the handover management table 702 .
- step S 1143 the handover management unit 701 notifies the application server 104 that the handover information is deleted as a response to the delete instruction received in step S 1140 . The processing is then ended.
- FIG. 11D is a flowchart illustrating the processing performed by the management server 103 when the management server 103 receives an acquisition request for handover information from the application server 104 .
- the flowchart of FIG. 11D corresponds to the processing of the management server 103 in step S 918 in the sequence diagram of FIG. 9 .
- step S 1160 the handover management unit 701 receives an acquisition request for handover information from the MFP 101 .
- the acquisition request includes a handover ID.
- step S 1161 the handover management unit 701 refers to the handover management table 702 and extracts handover information corresponding to the handover ID included in the acquisition request.
- step S 1162 the handover management unit 701 determines whether the handover information is successfully extracted in step S 1161 . If the handover information is successfully extracted (YES in step S 1162 ), the processing proceeds to step S 1163 . If not (NO in step S 1162 ), the processing proceeds to step S 1164 .
- step S 1163 the handover management unit 701 transmits the extracted handover information to the MFP 101 as a response to the acquisition request received in step S 1160 .
- the processing is then ended.
- step S 1164 the handover management unit 701 transmits a response indicating that there is no handover information to the MFP 101 as a response to the acquisition request received in step S 1160 . The processing is then ended.
- the sequence information registered in the management server 103 can be updated based on instructions from the web application 601 .
- the management server 103 can provide handover information to the MFP 101 in response to an acquisition request from the MFP 101 .
- FIGS. 12A and 12B are flowcharts illustrating processing of the mobile terminal 102 according to the present exemplary embodiment.
- the steps in the flowcharts of FIGS. 12A and 12B are implemented by the CPU 311 of the mobile terminal 102 reading programs stored in the ROM 312 and the flash memory 314 into the RAM 313 and executing the programs.
- FIG. 12A is a flowchart illustrating the processing of the mobile terminal 102 when the mobile terminal 102 receives a user operation.
- the flowchart of FIG. 12A corresponds to the processing of the mobile terminal 102 in steps S 901 to S 913 in the sequence diagram of FIG. 9 .
- step S 1201 the web content display unit 801 receives a start instruction for the web application 601 from the user, and accesses a start URL with which a sequence is started in the application server 104 (issues an acquisition request for web contents).
- step S 1202 the web content display unit 801 receives a response to the foregoing request from the application server 104 .
- step S 1203 the web content display unit 801 determines whether the response includes a handover ID. Specifically, the web content display unit 801 determines whether the HTTP custom header includes a handover ID. While in the present exemplary embodiment the HTTP custom header is used to deliver a handover ID, other methods may be used. If the response includes a handover ID (YES in step S 1203 ), the processing proceeds to step S 1204 . If the response does not include a handover ID (NO in step S 1203 ), the processing proceeds to step S 1205 .
- step S 1204 the web content display unit 801 stores the handover ID received in step S 1202 .
- the Web Storage API defined by Hypertext Markup Language version 5 (HTMLS) is used to store the handover ID in Session Storage.
- HTTP Hypertext Markup Language version 5
- other methods may be used.
- step S 1205 the web content display unit 801 displays the response (web content) received in step S 1202 on the operation unit 318 .
- step S 1206 the web content display unit 801 waits for the user's operation. If the web content display unit 801 accepts the user's operation, the processing proceeds to step S 1207 .
- step S 1207 the web content display unit 801 determines whether the accepted user operation is an operation on the web application 601 . If the accepted user operation is an operation on the web application 601 (YES in step S 1207 ), the processing proceeds to step S 1208 . If not (NO in step S 1207 ), the processing is ended.
- step S 1208 the web content display unit 801 transmits a request corresponding to the user operation to the application server 104 .
- FIG. 12B is a flowchart illustrating the processing of the mobile terminal 102 when the mobile terminal 102 receives a connection request from the MFP 101 .
- the flowchart of FIG. 12B corresponds to the processing of the mobile terminal 102 in steps S 916 and S 917 in the sequence diagram of FIG. 9 .
- step S 1211 upon receipt of a connection request from the MFP 101 , the MFP cooperation unit 802 establishes a connection with the MFP 101 by short-range wireless communication.
- step S 1212 the MFP cooperation unit 802 obtains a handover ID from Session Storage.
- step S 1213 the MFP cooperation unit 802 determines whether a handover ID is successfully obtained in step S 1212 . If a handover ID is successfully obtained (YES in step S 1213 ), the processing proceeds to step S 1214 . If not (NO in step S 1213 ), the processing is ended.
- step S 1214 the MFP cooperation unit 802 notifies the MFP 101 of the handover ID.
- step S 1215 the MFP cooperation unit 802 initializes the screen of the operation unit 318 . The processing is ended.
- the establishment of the connection in step S 1211 may be initiated by either the mobile terminal 102 or the MFP 101 .
- the mobile terminal 102 determines the distance from the MFP 101 based on the radio field intensity of a Bluetooth (registered trademark) beacon issued from the MFP 101 , the mobile terminal 102 initiates the connection to the MFP 101 .
- the mobile terminal 102 can obtain a handover ID by accessing the application server 104 , store the handover ID, and notify the MFP 101 of the handover ID.
- FIG. 13 is a flowchart illustrating the processing of the MFP 101 when the mobile terminal 102 is placed on the mobile terminal placing spot.
- the flowchart of FIG. 13 corresponds to the processing of the MFP 101 in steps S 915 to S 929 in the sequence diagram of FIG. 9 .
- the steps in the flowchart of FIG. 11 are implemented by the CPU 211 of the MFP 101 reading programs stored in the HDD 214 into the RAM 213 and executing the programs.
- step S 1301 the mobile terminal cooperation unit 501 detects that the mobile terminal 102 is placed on the mobile terminal placing spot by using the contact detection sensor 224 .
- the mobile terminal cooperation unit 501 may be configured to issue a Bluetooth (registered trademark) beacon if the mobile terminal 102 is detected to be placed.
- step S 1302 the mobile terminal cooperation unit 501 establishes a connection with the mobile terminal 102 by short-range wireless communication.
- step S 1303 the mobile terminal cooperation unit 501 waits for the reception of a handover ID from the mobile terminal 102 for a certain time. If a handover ID is received (YES in step S 1303 ), the processing proceeds to step S 1304 . If the certain time has elapsed without receiving a handover ID (NO in step S 1303 ), the processing is ended.
- step S 1304 the menu display unit 502 transmits an acquisition request for handover information corresponding to the handover ID received in step S 1303 to the handover management unit 701 of the management server 103 .
- step S 1305 the menu display unit 502 receives a response to the acquisition request for handover information from the handover management unit 701 of the management server 103 .
- step S 1306 the menu display unit 502 determines whether the response received in step S 1305 includes handover information. If handover information is included (YES in step S 1306 ), the processing proceeds to step S 1307 . If handover information is not included (NO in step S 1306 ), the processing is ended.
- step S 1307 the menu display unit 502 calls the web browser 503 to access a handover URL included in the handover information.
- step S 1308 the web browser 503 accesses the handover URL (web application 601 ). The web browser 503 then accepts the user's operations as appropriate, interacts with the web application 601 , and executes the web application 601 .
- the MFP 101 establishes a connection with the mobile terminal 102 , receives a handover ID from the mobile terminal 102 , and receives handover information corresponding to the handover ID from the management server 103 .
- the MFP 101 can then perform processing based on the handover information.
- the operation status of a web application cooperating with an MFP and being operated on a mobile terminal can be handed over to the MFP by simply moving the mobile terminal to a position at a predetermined distance from the MFP. This improves the convenience of the user.
- Embodiment(s) of the present invention can also be realized by a computer of a system or apparatus that reads out and executes computer executable instructions (e.g., one or more programs) recorded on a storage medium (which may also be referred to more fully as a ‘non-transitory computer-readable storage medium’) to perform the functions of one or more of the above-described embodiment(s) and/or that includes one or more circuits (e.g., application specific integrated circuit (ASIC)) for performing the functions of one or more of the above-described embodiment(s), and by a method performed by the computer of the system or apparatus by, for example, reading out and executing the computer executable instructions from the storage medium to perform the functions of one or more of the above-described embodiment(s) and/or controlling the one or more circuits to perform the functions of one or more of the above-described embodiment(s).
- computer executable instructions e.g., one or more programs
- a storage medium which may also be referred to more fully as a
- the computer may comprise one or more processors (e.g., central processing unit (CPU), micro processing unit (MPU)) and may include a network of separate computers or separate processors to read out and execute the computer executable instructions.
- the computer executable instructions may be provided to the computer, for example, from a network or the storage medium.
- the storage medium may include, for example, one or more of a hard disk, a random-access memory (RAM), a read only memory (ROM), a storage of distributed computing systems, an optical disk (such as a compact disc (CD), digital versatile disc (DVD), or Blu-ray Disc (BD)TM), a flash memory device, a memory card, and the like.
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Abstract
An information processing system allows an operation status of a web application cooperating with a multifunction peripheral (MFP) and being operated on a mobile terminal to be handed over to the MFP by simply causing the mobile terminal and the MFP to cooperate.
Description
- The present application is a continuation of U.S. patent application Ser. No. 16/884,625 filed on May 27, 2020, which claims priority from Japanese Patent Application No. 2019-102883, filed May 31, 2019, all of which are hereby incorporated by reference herein in their entirety.
- The present invention relates to a technique for cooperation between a plurality of information processing apparatuses.
- In recent years, an increasing number of image processing apparatuses (such as multifunction peripherals (MFPs)) installed in offices have a function of exchanging data with a mobile terminal. For example, there have been known a technique for transmitting print data from a mobile terminal to an MFP and executing print processing by the MFP and a technique for loading image data read by a scanner of an MFP into a mobile terminal. A technique for, when an MFP performs mail transmission processing, receiving transmission setting information indicating transmission settings from a mobile terminal, reflecting the received transmission setting information, and performing the mail transmission processing has been discussed (for example, Japanese Patent Application Laid-Open No. 2017-108338). A technique that allows, if the remaining battery level of a mobile terminal becomes low in making MFP setting operations from a screen of the mobile terminal, the mobile terminal to transmit handover information to the MFP, and the MFP to display a setting screen having been opened on the mobile terminal thereon has also been discussed (for example, Japanese Patent Application Laid-Open NO. 2015-207247). In such a manner, the setting operation can be handed over between an MFP and a mobile terminal.
- However, according to Japanese Patent Application Laid-Open No. 2017-108338, the timing at which the setting operation can be handed over between the mobile terminal and the MFP is limited. According to Japanese Patent Application Laid-Open No. 2015-207247, the setting operation can be handed over between the mobile terminal and the MFP even if there is a large distance between the mobile terminal and the MFP. In other words, handover can be performed against the intention of the user. The conventional techniques therefore do not always improve the convenience of the user. The present invention is directed to providing a technique for performing handover of the setting operation by the user bringing the mobile terminal close to the MFP without limiting the timing at which the setting operation can be handed over.
- According to an aspect of the present invention, an information processing system includes a web server configured to provide a sequence of operation screens, an image processing apparatus configured to access the web server, and an information processing apparatus configured to access the web server. The web server includes a first memory, and a first processor in communication with the first memory. The first processor performs registering first information indicating an operation screen operated on the information processing apparatus and a status of operation, and providing a second operation screen to the image processing apparatus. The image processing apparatus includes a second memory, and a second processor in communication with the second memory. The second processor performs receiving second information corresponding to the registered first information, and displaying the second operation screen provided by the web server. In a case where the image processing apparatus and the information processing apparatus are close to each other, the second information corresponding to the registered first information is transmitted from the information processing apparatus to the image processing apparatus. The receiving includes receiving the transmitted second information, and the displaying includes displaying the second operation screen, provided by the web server, on which the status of operation is reflected, based on the registered first information corresponding to the transmitted second information.
- Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
-
FIG. 1 is a diagram illustrating a configuration of an information processing system according to a first exemplary embodiment of the present invention. -
FIG. 2 is a block diagram illustrating a hardware configuration of a multifunction peripheral (MFP) according to the present exemplary embodiment. -
FIG. 3 is a block diagram illustrating a hardware configuration of a mobile terminal according to the present exemplary embodiment. -
FIG. 4 is a block diagram illustrating a hardware configuration of a management server and an application server according to the present exemplary embodiment. -
FIG. 5 is a block diagram illustrating a software configuration of the MFP according to the present exemplary embodiment. -
FIG. 6 is a block diagram illustrating a software configuration of the application server according to the present exemplary embodiment. -
FIG. 7 is a block diagram illustrating a software configuration of the management server according to the present exemplary embodiment. -
FIG. 8 is a block diagram illustrating a software configuration of the mobile terminal according to the present exemplary embodiment. -
FIG. 9 is a sequence diagram illustrating a flow of a series of processes performed by the information processing system according to the present exemplary embodiment. -
FIG. 10 is a flowchart illustrating processing of the application server according to the present exemplary embodiment. -
FIGS. 11A, 11B, 11C, and 11D are flowcharts illustrating processing of the management server according to the present exemplary embodiment. -
FIGS. 12A and 12B are flowcharts illustrating processing of the mobile terminal according to the present exemplary embodiment. -
FIG. 13 is a flowchart illustrating processing of the MFP according to the present exemplary embodiment. -
FIG. 14 illustrates an example of a sequence management table according to the present exemplary embodiment. -
FIG. 15 illustrates an example of a handover management table according to the present exemplary embodiment. -
FIGS. 16A to 16F illustrate examples of user interfaces (UIs) for operation screens of a web application according to the present exemplary embodiment, withFIGS. 16A to 16C illustrating an example UI for the mobile terminal, andFIGS. 16D to F illustrating an example UI for the MFP. - Exemplary embodiments of the present invention will be described below with reference to the drawings.
- The following exemplary embodiments are not intended to limit the inventions set forth in the claims. Not all combinations of features described in the exemplary embodiments are indispensable to the solving means of the present invention.
- A first exemplary embodiment will be described below.
FIG. 1 is a diagram illustrating an example of a system configuration of an information processing system according to the present exemplary embodiment. The information processing system includes a multifunction peripheral (MFP) 101 connected to a local area network (LAN) 110, amobile terminal 102 wirelessly connected to theLAN 110 via awireless access point 130, and amanagement server 103 and anapplication server 104 connected to a wide area network (WAN) 120. The apparatuses on theLAN 110 and the apparatuses on theWAN 120 can communicate with each other via each other's networks.FIG. 1 illustrates an example of a typical network configuration, and each apparatus may be connected to either theLAN 110 or theWAN 120. The MFP 101 may be connected to thewireless access point 130. - The MFP 101 is an image processing apparatus including a scanner and a printer. While the present exemplary embodiment is described by using the MFP 101 as an example of the image processing apparatus, this is not restrictive. The image processing apparatus may be a single-function apparatus. The MFP 101 includes a web browser as an application program. While the information processing system illustrated in
FIG. 1 includes only one MFP, the information processing system may include a plurality of MFPs. Themobile terminal 102 is a portable information processing apparatus. Themobile terminal 102 includes a mobile application that can display web contents. Themobile terminal 102 according to the present exemplary embodiment is assumed to be, but not limited to, a terminal device such as a smartphone and a tablet terminal. TheMFP 101 and themobile terminal 102 can perform communication by short-range wireless communication such as near field communication (NFC) and Bluetooth (registered trademark) communication. Themanagement server 103 is a server for managing information for handing over an operation status of a web application provided by the application server 104 (described below) from themobile terminal 102 to theMFP 101. Theapplication server 104 is a web server that provides the web application. The provided web application can be accessed from theMFP 101 and themobile terminal 102. By accessing theapplication server 104, theMFP 101 and themobile terminal 102 display an operation screen of the web application and return operation content received on the operation screen to theapplication server 104. The present exemplary embodiment is characterized in that the status of the web application operated on themobile terminal 102 can be handed over to theMFP 101. The number of application servers is not limited to one, and there may be a plurality of application servers corresponding to the number of web applications to be used. -
FIG. 2 is a block diagram illustrating a hardware configuration of theMFP 101. Acontrol unit 210 including a central processing unit (CPU) 211 controls operation of theentire MFP 101. TheCPU 211 reads control programs stored in a read-only memory (ROM) 212 and a hard disk drive (HDD) 214 and performs various types of control processing such as read control and transmission control. A random access memory (RAM) 213 is used as a temporary storage area such as a main memory and a work area of theCPU 211. TheHDD 214 stores image data and various programs including an installed application program. A short-range wireless communication interface (I/F) 215 is an I/F for short-range wireless communication such as NFC and Bluetooth (registered trademark) communication. The short-range wireless communication I/F 215 communicates with and exchanges data with themobile terminal 102. TheCPU 211 serves as an obtaining unit configured to notify the management server of the received second information. - An operation unit I/
F 216 connects anoperation unit 221 with thecontrol unit 210. Theoperation unit 221 includes a liquid crystal display unit having a touch panel function and a keyboard. A printer I/F 217 connects aprinter 222 with thecontrol unit 210. Image data to be printed by theprinter 222 is transferred from thecontrol unit 210 to theprinter 222 via the printer I/F 217, and printed on a recording medium by theprinter 222. A scanner I/F 218 connects ascanner 223 with thecontrol unit 210. Thescanner 223 reads an image on a document to generate image data, and inputs the image data to thecontrol unit 210 via the scanner I/F 218. A sensor I/F 219 connects acontact detection sensor 224 with thecontrol unit 210. Thecontact detection sensor 224 is a sensor for detecting whether themobile terminal 102 is in contact at a predetermined position on theMFP 101. In the present exemplary embodiment, theMFP 101 includes a mobile terminal placing spot (not illustrated) for themobile terminal 102 to be placed on. Thecontact detection sensor 224 detects whether themobile terminal 102 is placed on the mobile terminal placing spot. A network I/F 220 connects the control unit 210 (MFP 101) to theLAN 110. The network I/F 220 transmits and receives various types of information to/from other apparatuses on theLAN 110 or theWAN 120. The network I/F 220 serves as a receiving unit, configured to receive second information corresponding to the first information registered by a registering unit from the information processing apparatus. The operation unit I/F 216 serves as a displaying unit configured to display the second operation screen provided by a providing unit. Thedetection sensor 224 serves as a detecting unit configured to detect whether the information processing apparatus is placed at a predetermined position. -
FIG. 3 is a block diagram illustrating a hardware configuration of themobile terminal 102. Acontrol unit 310 including aCPU 311 controls operation of the entire device. TheCPU 311 reads control programs stored in aROM 312 and aflash memory 314 and performs various types of control processing. ARAM 313 is used as a temporary storage area such as a main memory and a work area of theCPU 311. Theflash memory 314 stores various programs and data. - An operation unit I/
F 315 connects anoperation unit 318 with thecontrol unit 310. Theoperation unit 318 includes a liquid crystal display unit having a touch panel function. A short-range wireless communication I/F 316 is an I/F for short-range wireless communication such as NFC and Bluetooth (registered trademark) communication. The short-range wireless communication I/F 316 communicates with and exchanges data with theMFP 101. A network I/F 317 connects thecontrol unit 310 to theLAN 110 via thewireless access point 130. The network I/F 317 is capable of wireless communication. The network I/F 317 transmits and receives various types of information to/from other apparatuses on theWAN 120 or theLAN 110 by wireless communication. -
FIG. 4 is a block diagram illustrating a hardware configuration of themanagement server 103 and theapplication server 104. Acontrol unit 410 including aCPU 411 controls operation of the entire apparatus. TheCPU 411 reads control programs stored in aROM 412 and anHDD 414 and performs various types of control processing. ARAM 413 is used as a temporary storage area such as a main memory and a work area of theCPU 411. TheHDD 414 stores various programs and data. TheRAM 413 orHDD 414 of theapplication server 104 serves as a registration unit configured to register first information indicating: a first operation screen operated on the information processing apparatus, and a status operation. TheCPU 411 of theapplication server 104 serves as an updating unit and an instructing unit. The updatingunit 411 is configured to update the first information registered by the registeringunit 413 each time the operation screen transitions based on a user operation. The instructingunit 411 is configured to give an instruction to register handover information associated with the first information registered by the registeringunit 413. - A display unit I/
F 415 connects adisplay unit 418 with thecontrol unit 410. A keyboard I/F 416 connects akeyboard 419 with thecontrol unit 410. TheCPU 411 recognizes instructions given by the user via thekeyboard 419, and makes a screen displayed on thedisplay unit 418 transition based on the recognized instructions. A network I/F 417 connects thecontrol unit 410 to theWAN 120. The network I/F 417 transmits and receives various types of information to/from other apparatuses on theWAN 120 or theLAN 110. The network IF 417 of theapplication server 104 serves as a providing unit configured to provide a second operation screen. -
FIG. 5 is a software configuration diagram of theMFP 101 according to the present exemplary embodiment. This software configuration diagram is a functional block diagram of software implemented by theCPU 211 of theMFP 101 reading programs stored in theROM 212 and theHDD 214 into theRAM 213 and executing the programs. - A mobile
terminal cooperation unit 501 performs processing for cooperating with themobile terminal 102. For example, the mobileterminal cooperation unit 501 detects that themobile terminal 102 is placed on the mobile terminal placing spot by using thecontact detection sensor 224, and communicates with themobile terminal 102 by using the short-range wireless communication I/F 215. Here, the term “cooperation” refers to a state where theMFP 101 and themobile terminal 102 can communicate with and exchange data with each other. The term will hereinafter be used for the same meaning. - A
menu display unit 502 displays buttons (hereinafter, application buttons) for calling applications on a menu screen. The application buttons are buttons for calling various functions such as an application installed on theMFP 101 and a web application. - A
web browser 503 accesses a web server to obtain web content. TheMFP 101 may include other functions that are not illustrated in the drawings. -
FIG. 6 is a software configuration diagram of theapplication server 104 according to the present exemplary embodiment. This software configuration diagram is a functional block diagram of software implemented by theCPU 411 of theapplication server 104 reading programs stored in theROM 412 and theHDD 414 into theRAM 413 and executing the programs. - A
web application 601 is a program running on theapplication server 104. Theweb application 601 provides a screen (operation screen) for operating theweb application 601 to theMFP 101 and themobile terminal 102, and theMFP 101 and themobile terminal 102 display the operation screen on a web browser. TheMFP 101 and themobile terminal 102 display the operation screen of theweb application 601 by accessing theapplication server 104, accept the user's operations on the operation screen, and return the content of the accepted operations to theapplication server 104. For example, in a case where theweb application 601 instructs theMFP 101 to execute a scan, the user accesses theapplication server 104 via a web browser and makes settings on an operation screen for scan setting, provided by the web application 601 (in the present exemplary embodiment, the user accesses the application server 104 a plurality of times and makes settings on a plurality of operation screens). The user can then give a scan execution instruction on an operation screen for scan execution, provided by theweb application 601. Thus, application server (web server) 104 is configured to provide a sequence of operation screens. - A sequence management table 602 is a table for managing situations (operation history) in a series of processes (hereinafter, sequence) where the user operates the
web application 601 via a web browser. The sequence refers to a procedure involving screen transition from a start to end of processing defined for each web application. For example, a sequence for a scan application ranges from an instruction for making scan settings to an instruction for executing the scan. Theapplication server 104 may include other functions that are not illustrated inFIG. 6 . -
FIG. 14 illustrates an example of the sequence management table 602 according to the present exemplary embodiment. The sequence management table 602 includes threecolumns 1401 to 1403. - A
SequenceID column 1401 is a column containing identification information (hereinafter, “sequence identifier (ID)”) for uniquely identifying a piece of sequence information. Sequence information is information including information defined in thecolumns 1401 to 1403. The values in theSequenceID column 1401 also serve as IDs for uniquely specifying the rows of the sequence management table 602. In the following description, the values in theSequenceID column 1401 are used to designate the rows of the sequence management table 602. For example, the row where the value of theSequenceID column 1401 is “s001” will be referred to as “row s001”. - A
SequenceData column 1402 is a column describing the operation status at a point in time indicated by theSequenceID column 1401 in the sequence. TheSequenceData column 1402 stores information (hereinafter, “sequence operation status data”) to be used to identify and restore an operation status of the sequence. Examples of the information to be used include an ID of an operation screen, a setting value set before the operation screen, and an operation history. - A
HandoverID column 1403 contains an ID (hereinafter, “handover ID”) for uniquely identifying a row of a handover management table 702 to be described below. TheHandoverID column 1403 links the sequence management table 602 to the handover management table 702. -
FIG. 7 is a software configuration diagram of themanagement server 103 according to the present exemplary embodiment. This software configuration diagram is a functional block diagram of software implemented by theCPU 411 of themanagement server 103 reading programs stored in theROM 412 and theHDD 414 into theRAM 413 and executing the programs. - A
handover management unit 701 manages information (hereinafter, “handover information”) for handing over the sequence of theweb application 601 from themobile terminal 102 to theMFP 101. The handover management table 702 is a table where the handover information is recorded. Thehandover management unit 701 and the handover management table 702 do not need to be included in themanagement server 103. For example, thehandover management unit 701 and the handover management table 702 may be included in theapplication server 104. Themanagement server 103 may include other functions that are not illustrated inFIG. 7 . -
FIG. 15 illustrates an example of the handover management table 702 according to the present exemplary embodiment. The handover management table 702 includes threecolumns 1501 to 1503. - A
HandoverID column 1501 is a column for defining an ID for uniquely identifying a piece of handover information, and corresponds to theHandoverID column 1403 of the sequence management table 602. The values in theHandoverID column 1501 also serve as IDs for uniquely specifying the rows of the handover management table 702. In the following description, the values in theHandoverID column 1501 are used to designate the rows of the handover management table 702. For example, the row where the value of theHandoverID column 1501 is “h001” will be referred to as “row h001”. - A Uniform Resource Locator (URL)
column 1502 contains a URL (hereinafter, “handover URL”) for theweb browser 503 of theMFP 101 to access in handing over the sequence of theweb application 601 to theMFP 101. The values in theURL column 1502 are the URLs of web applications, which vary from one web application to another. For example, in the present exemplary embodiment, the URL of a web application to which the value in theSequenceID column 1401 is attached as a query string is used as a handover URL. Since the value in theSequenceID column 1401 indicates the operation status of the sequence, the handover URL enables identification and restoration of the operation status of the sequence of the target web application. - A
HandedoverFlag column 1503 lists flags indicating whether the target sequences have been handed over to theMFP 101. A value “TRUE” in theHandedoverFlag column 1503 indicates that the target sequence has been handed over. Other values than “TRUE” indicate that the target sequence has not been handed over. -
FIG. 8 is a software configuration diagram of themobile terminal 102 according to the present exemplary embodiment. This software configuration diagram is a functional block diagram of software implemented by theCPU 311 of themobile terminal 102 reading programs stored in theROM 312 and theflash memory 314 into theRAM 313 and executing the programs. - An
MFP cooperation application 800 is an application for handing over operations to theMFP 101, and includes a webcontent display unit 801 and an MFP cooperation unit 802. The webcontent display unit 801 accesses theapplication server 104 and displays web content. The MFP cooperation unit 802 performs processing for exchanging data with theMFP 101 by using the short-range wireless communication I/F 215. - Before describing the sequence diagram of
FIG. 9 , operation setting handover according to the present exemplary embodiment will be outlined with reference toFIGS. 16A to 16F . The following description is given by using the following case as an example: themobile terminal 102 and theMFP 101 can execute a web application that can give an instruction to transmit data generated by theMFP 101 scanning a document to a destination designated by user operations, and the settings of the web application are made on a screen of themobile terminal 102 or theMFP 101.FIGS. 16A to 16C are diagrams illustrating a transition of a setting screen of themobile terminal 102.FIG. 16A illustrates a setting screen 1 (screen 1610) initially displayed when the web application is accessed. If a “NEXT”button 1601 is pressed, the screen transitions to a setting screen 2 (screen 1620) illustrated inFIG. 16B . If the user makes settings on thesetting screen 2 and then presses a “NEXT”button 1602, the screen transitions to a setting screen 3 (screen 1630) illustrated inFIG. 16C . If an “EXECUTE”button 1603 is pressed, themobile terminal 102 transmits a scan execution instruction to theMFP 101.FIGS. 16D to 16F are diagrams illustrating a transition of a setting screen of theMFP 101.FIGS. 16D to 16F illustrate similar setting screens to those illustrated inFIGS. 16A to 16C , with a similar screen transition. Suppose, for example, that the user makes settings on thesetting screen 1 ofFIG. 16A on themobile terminal 102, and then presses the “NEXT”button 1601 to open thesetting screen 2 ofFIG. 16B and places themobile terminal 102 on the mobile terminal placing spot of theMFP 101 to start short-range wireless communication between theMFP 101 and themobile terminal 102. In such a case, the user can continue to make settings on a setting screen 2 (screen 1650) ofFIG. 16E on theMFP 101. If thesetting screen 1 ofFIG. 16A or thesetting screen 3 ofFIG. 16C is open on themobile terminal 102, the user can similarly continue to make settings on a setting screen 1 (screen 1640) ofFIG. 16D or a setting screen 3 (screen 1660) ofFIG. 16F on theMFP 101. If the user advances the handed-over setting screen on theMFP 101 and presses an “EXECUTE”button 1606 on settingscreen 3 ofFIG. 16F , theMFP 101 executes a scan and transmits a mail to the specified destination. -
FIG. 9 is a sequence diagram illustrating a flow of a series of processes that theMFP 101, themobile terminal 102, themanagement server 103, and theapplication server 104 according to the present exemplary embodiment perform in a cooperative manner.FIG. 9 illustrates an example where theweb application 601 provided by theapplication server 104 is operated by using themobile terminal 102 and then the sequence is handed over to theMFP 101. - The
application server 104 is a server that provides theweb application 601. Theweb application 601 is called by theMFP 101 or themobile terminal 102. Themanagement server 103 is a server used to manage information for handing over the operation status of theweb application 601 from themobile terminal 102 to theMFP 101. - In step S901, the
mobile terminal 102 receives the user's instruction to access theweb application 601 and accesses theapplication server 104. Here, theMFP cooperation application 800 sends a request by using a start URL with which the sequence is started. The request here refers to processing for requesting the operation screen (setting screen) ofFIG. 16A . - In step S902, the
application server 104 registers new sequence information in the sequence management table 602. The sequence information here includes status data on a sequence operation and a sequence ID. In step S903, theapplication server 104 transmits the URL of theweb application 601 being accessed by themobile terminal 102 and the sequence ID to themanagement server 103, and instructs themanagement server 103 to register handover information. In step S904, themanagement server 103 registers new handover information in the handover management table 702. In step S905, themanagement server 103 returns a response indicating a registration result of the handover information to theapplication server 104. The response includes a handover ID from which the new handover information issued in step S904 can be uniquely identified. In the present exemplary embodiment, the handover ID is issued by themanagement server 103. However, this is not restrictive. For example, the handover ID may be issued by themobile terminal 102. In such a case, themobile terminal 102 includes information unique to the mobile terminal 102 (such as a Media Access Control (MAC) address) into the query string in accessing theweb application 601, and notifies theapplication server 104 and themanagement server 103 of the information. - In step S906, the
application server 104 performs processing corresponding to the request made in step S901. Theapplication server 104 identifies the situation in the sequence from the sequence information, and performs processing appropriate to the request, i.e., generates the setting screen ofFIG. 16A in response to a screen acquisition request. In step S907, theapplication server 104 updates the sequence management table 602 with sequence information on which the processing performed in step S906 is reflected. Specifically, theapplication server 104 adds a value to or updates the value in theSequenceData column 1402 of the sequence management table 602 based on the request. In step S908, theapplication server 104 returns a response to the request made in step S901 to the mobile terminal 102 (displays the setting screen ofFIG. 16A ). Here, the handover ID is included as part of the response. - In step S909, the
mobile terminal 102 receives the user's instructions (the user makes settings on thesetting screen 1 ofFIG. 16A and presses the “NEXT” button 1601), and transmits the next request to theapplication server 104. The request includes information (handover ID) indicating the sequence. - In step S910, the
application server 104 transmits access information including a request URL to themanagement server 103. In step S911, upon receiving the access information, themanagement server 103 checks that the request made in step S909 is not one for a handed-over sequence. - In step S912, the
application server 104 performs processing corresponding to the request made in step S909. Theapplication server 104 identifies the situation in the sequence based on the sequence information included in the request, and performs processing appropriate to the request, i.e., records settings such as “one-sided documents” and “full color” made on the setting screen ofFIG. 16A , and generates the setting screen ofFIG. 16B . In step S913, theapplication server 104 updates the sequence management table 602 with the sequence information on which the processing performed in step S912 is reflected (setting information such as “one-sided document” and “full color” set on the setting screen ofFIG. 16A ). In step S914, theapplication server 104 returns a response to the request made in step S909 to the mobile terminal 102 (displays the setting screen ofFIG. 16B ). Here, the handover ID is included as part of the response. - The processing from step S909 to step S914 is performed each time the
mobile terminal 102 accepts the user's operations on theMFP cooperation application 800 and accesses theapplication server 104 to make a request (in the following description, settingscreen 2 ofFIG. 16B is assumed to be displayed on themobile terminal 102 here). - The following description will be given on the assumption that the user has placed the
mobile terminal 102 on the mobile terminal placing spot of theMFP 101. - In step S915, the
MFP 101 detects that themobile terminal 102 is placed on the mobile terminal placing spot by using thecontact detection sensor 224. In step S916, theMFP 101 and themobile terminal 102 establish a connection by short-range wireless communication. In step S917, themobile terminal 102 notifies theMFP 101 of the handover ID of theMFP cooperation application 800 that is being operated. - In step S918, the
MFP 101 obtains handover information corresponding to the handover ID notified in step S917 from the handover management table 702 in themanagement server 103. In step S919, theMFP 101 determines whether there is handover information. If there is handover information (YES in step S919), the processing proceeds to step S920. If there is no handover information (NO in step S919), the processing is ended. - In step S920, the
MFP 101 accesses a handover URL included in the handover information obtained in step S918 by using the web browser 503 (makes an acquisition request for the setting screen ofFIG. 16E ). - In step S921, the
application server 104 transmits access information to themanagement server 103. In step S922, themanagement server 103 updates the handover information in the handover management table 702. Specifically, themanagement server 103 updates the value in theHandedoverFlag column 1503 with “TRUE”. - In step S923, the
application server 104 performs processing corresponding to the request made in step S920. Theapplication server 104 refers to the sequence management table 602 based on the sequence information included in the handover information, identifies the situation in the sequence (operation screen and operation history), and performs processing appropriate to the request, i.e., in response to the acquisition request for the setting screen ofFIG. 16E , stores the operation history and generates the setting screen ofFIG. 16E on which the operation history is reflected. In step S924, theapplication server 104 updates the sequence management table 602 with the sequence information on which the processing performed in step S923 is reflected. - In step S925, the
application server 104 determines whether the sequence is completed. If the sequence is completed (YES in step S925), the processing proceeds to step S926. If the sequence is not completed (NO in step S925), the processing proceeds to step S929. - In step S929, the
application server 104 returns a response to the request made in step S920 to theMFP 101, i.e., displays the setting screen ofFIG. 16E . This response may include the handover ID. The processing of steps S920 to S929 is performed each time theMFP 101 receives the user's operation on theweb browser 503 and makes a request to theapplication server 104. The processing for making a request in step S920 for the second and subsequent times is performed based on the user's instruction via theMFP 101. For example, the user presses a “NEXT”button 1605 on the setting screen ofFIG. 16E to make an acquisition request for thesetting screen 3 ofFIG. 16F . The user presses the “EXECUTE”button 1606 on the setting screen ofFIG. 16F to instruct theMFP 101 to execute a scan. Given the execution instruction, theMFP 101 executes a scan under the set condition. In step S925, if the sequence is completed (if the user presses the “EXECUTE”button 1606 on the setting screen ofFIG. 16F ) (YES in step S925), the processing proceeds to step S926. In step S926, theapplication server 104 instructs themanagement server 103 to delete the handover information. In step S927, themanagement server 103 deletes the corresponding handover information from the handover management table 702. - In step S928, the
application server 104 deletes the sequence information from the sequence management table 602. Here, the handover ID corresponding to the deleted handover information may be deleted from themobile terminal 102. - While the
web browser 503 is described to be automatically activated if there is handover information obtained by theMFP 101 in step S919, this is not restrictive. A button for calling handover information may be displayed as one of the application buttons on the menu screen, and theweb browser 503 may be configured to be activated by the user pressing the button. In the sequence diagram, the detection of themobile terminal 102 by thecontact detection sensor 224 and the establishment of the short-range wireless communication trigger the subsequent processing. For example, if thecontact detection sensor 224 detects that themobile terminal 102 is placed on the mobile terminal placing spot, theMFP 101 issues a Bluetooth (registered trademark) beacon. If themobile terminal 102 receives the beacon and the radio field intensity of the beacon is higher than or equal to a predetermined value, themobile terminal 102 establishes a Bluetooth (registered trademark) communication and then the processing proceeds to the next step. This provides the effect that the operation can be handed over only when themobile terminal 102 is on the mobile terminal placing spot of theMFP 101. The mobile terminal placing spot is used as a unit for determining that themobile terminal 102 is located near theMFP 101. However, the mobile terminal placing spot is may not be provided in theMFP 101, and any configuration may be used as long as themobile terminal 102 and theMFP 101 can be found to be close to each other. For example, if theMFP 101 issues a Bluetooth (registered trademark) beacon, themobile terminal 102 may receive the beacon and determines that theMFP 101 is at a close distance based on the radio field intensity of the beacon. If theMFP 101 is determined to be at a close distance, themobile terminal 102 may establish a Bluetooth (registered trademark) communication and transmit the handover ID to theMFP 101. Themobile terminal 102 may receive wireless LAN connection information from theMFP 101 by using Bluetooth (registered trademark) packets, establish a wireless LAN communication with theMFP 101 by using the wireless LAN connection information, and then transmit the handover ID to theMFP 101 by the established wireless LAN communication. Taking advantage of the characteristic that NFC communication can only be performed between apparatuses communicating at a sufficiently close distance, themobile terminal 102 may determine that theMFP 101 is at a close distance based on successful establishment of NFC communication. Themobile terminal 102 may receive the wireless LAN connection information from theMFP 101 by using NFC communication, establish a wireless LAN communication with theMFP 101 based on the wireless LAN connection information, and then transmit the handover ID to theMFP 101 by the established wireless LAN communication. Moreover, if theMFP 101 includes an NFC tag reader, the handover ID may be notified by writing the handover ID to an NFC tag of themobile terminal 102, facing themobile terminal 102 toward theMFP 101, and the NFC tag reader of theMFP 101 reading the handover ID. TheMFP 101 thus receives the handover ID if themobile terminal 102 is located near theMFP 101. - The effect of the sequence diagram will be described. If the
mobile terminal 102 approaches theMFP 101, the operation status of theweb application 601 executed halfway on themobile terminal 102 can be handed over to theMFP 101. -
FIG. 10 is a flowchart for describing processing of theapplication server 104 according to the present exemplary embodiment.FIG. 10 illustrates processing from reception of a request from the web browser of theMFP 101 or themobile terminal 102 to returning of a response. The flowchart ofFIG. 10 corresponds to the processing that theapplication server 104 performs in the series of processes illustrated in the sequence diagram ofFIG. 9 . The steps in the flowchart ofFIG. 10 are implemented by theCPU 411 of theapplication server 104 reading a program stored in theHDD 414 into theRAM 413 and executing the program. - In step S1001, the
web application 601 receives a Hypertext Transfer Protocol (HTTP) request from the web browser of theMFP 101 or themobile terminal 102. In the following description of the flowchart, the term “request” refers to the HTTP request received in step S1001. - In step S1002, the
web application 601 identifies the type of the requesting terminal (MFP 101 or mobile terminal 102) that has transmitted the request. - In step S1003, the
web application 601 determines whether the request includes information for identifying a sequence of theweb application 601. In the present exemplary embodiment, an example is described in which the determination is made by determining whether a sequence ID is attached to the request URL (URL for accessing the application server 104) as a query string, whereas other methods may be used. For example, information from which the sequence can be identified may be included in a cookie or an HTTP header. If the request includes the information for identifying the sequence (YES in step S1003), the processing proceeds to step S1004. If the request does not include the information for identifying the sequence (NO in step S1003), the processing proceeds to step S1020. - In step S1004, the
web application 601 extracts sequence information including the sequence ID included in the query string of the request URL from the sequence management table 602. Specifically, theweb application 601 extracts a record having the value of theSequenceID column 1401 that coincides with the sequence ID included in the query string of the request URL. In step S1005, theweb application 601 determines whether the sequence information is successfully extracted in step S1004. If the sequence information is successfully extracted (YES in step S1005), the processing proceeds to step S1006. If not (NO in step S1005), the processing proceeds to step S1020. - In step S1006, the
web application 601 transmits access information to thehandover management unit 701 of themanagement server 103. The access information includes the type of the requesting terminal identified in step S1002 and the handover ID (the value in the HandoverID column 1403) included in the sequence information extracted in step S1004. In step S1007, theweb application 601 receives a response to the access information transmitted in step S1006 from thehandover management unit 701 of themanagement server 103. In step S1008, theweb application 601 determines whether the response received in step S1007 is an error. If the response is an error (YES in step S1008), the processing proceeds to step S1030. If the response is not an error (NO in step S1008), the processing proceeds to step S1009. - In step S1009, the
web application 601 identifies the operation status in the sequence from the sequence operation status data (the value in the SequenceData column 1402) included in the sequence information extracted in step S1004, and performs processing appropriate to the request. In step S1010, theweb application 601 updates the sequence management table 602 with the status in the sequence on which the processing performed in step S1009 is reflected as the sequence operation status data. - In step S1011, the
web application 601 determines whether the target sequence is completed based on the sequence operation status data. If the sequence is completed (YES in step S1011), the processing proceeds to step S1012. If the sequence is not completed (NO in step S1011), the processing proceeds to step S1015. - In step S1012, the
web application 601 transmits a delete instruction for the handover information to thehandover management unit 701 of themanagement server 103. Here, theweb application 601 includes the handover ID (the value in the HandoverID column 1403) included in the sequence information extracted in step S1004 in the delete instruction as information for identifying the handover information to be deleted. In step S1013, theweb application 601 receives a response to the delete instruction transmitted in step S1012 from thehandover management unit 701 of themanagement server 103. In step S1014, theweb application 601 deletes sequence information from the sequence management table 602. The sequence information to be deleted is the sequence information where theSequenceID column 1401 contains the sequence ID included in the query string of the request URL. - In step S1015, the
web application 601 returns the result of the processing in step S1009 to the requesting terminal as a response to the request received in step S1001, and the processing is ended. The handover ID (the value in the HandoverID column 1403) is included in the response here. In the present exemplary embodiment, the handover ID is included in the custom header of the HTTP response, whereas other methods may be used. - In step S1020, the
web application 601 issues a new sequence ID. In step S1021, theweb application 601 registers new sequence information including the sequence ID issued in step S1020 in the sequence management table 602. Theweb application 601 registers the issued sequence ID in theSequenceID column 1401, and the current sequence operation status data in theSequenceData column 1402. TheHandoverID column 1403 is blank at this point in time. - 10198105US02
- In step S1022, the
web application 601 transmits a registration instruction for handover information to thehandover management unit 701 of themanagement server 103. Here, theweb application 601 includes a handover URL (the URL of theweb application 601 to which the sequence ID is attached as a query string) and the type of the requesting terminal identified in step S1002 in the registration instruction as the handover information. In step S1023, theweb application 601 receives a response to the registration instruction transmitted in step S1022 from thehandover management unit 701 of themanagement server 103. The response includes a handover ID for identifying the registered handover information. In step S1024, theweb application 601 registers the handover ID received in step S1023 in theHandoverID column 1403 of the sequence management table 602. The processing proceeds to step S1009, and theweb application 601 performs the subsequent processing. - In step S1030, the
web application 601 returns error information prohibiting subsequent operations to the requesting terminal as a response to the request received in step S1001. The processing is ended. - The effects of the flowchart of
FIG. 10 will be described. Theapplication server 104 can register the handover ID and the user's operation status in the sequence of theweb application 601 in association with each other, and obtain and update the registered information each time the user accesses theweb application 601 via the web browser of theMFP 101 or themobile terminal 102. Theapplication server 104 can also notify themanagement server 103 of the registered information. -
FIGS. 11A to 11D are flowcharts for describing processing of themanagement server 103 according to the present exemplary embodiment. The steps in the flowcharts ofFIGS. 11A to 11D are implemented by theCPU 411 of themanagement server 103 reading programs stored in theROM 412 and theHDD 414 into theRAM 413 and executing the programs. -
FIG. 11A is a flowchart for describing the processing performed by the10198105 US02 management server 103 when themanagement server 103 receives a registration instruction for handover information from theapplication server 104. The flowchart ofFIG. 11A corresponds to the processing of themanagement server 103 in steps S903 to S905 in the sequence diagram ofFIG. 9 . - In step S1101, the
handover management unit 701 receives a registration instruction for handover information from theapplication server 104. The registration instruction includes a handover URL and the type of requesting terminal identified in step S1002. - In step S1102, the
handover management unit 701 issues a new handover ID. In step S1103, thehandover management unit 701 registers new handover information including the handover ID issued in step S1102 in the handover management table 702. Here, thehandover management unit 701 registers the handover ID in theHandoverID column 1501, and the handover URL in theURL column 1502. If the requesting terminal is an MFP, thehandover management unit 701 registers “TRUE” in theHandedoverFlag column 1503. If the requesting terminal is not an MFP, thehandover management unit 701 registers “FALSE” in theHandedoverFlag column 1503. - In step S1104, the
handover management unit 701 returns a response indicating the completion of the registration to theapplication server 104 as a response to the registration instruction received in step S1101. The processing is then ended. The response here includes the handover ID issued in step S1102. -
FIG. 11B is a flowchart for describing the processing performed by themanagement server 103 when themanagement server 103 receives access information from theapplication server 104. The flowchart ofFIG. 11B corresponds to the processing of themanagement server 103 in steps S910 and S911 and steps S921 and S922 in the sequence diagram ofFIG. 9 . - In step S1110, the
handover management unit 701 receives access information from theapplication server 104. The access information includes a handover ID and the 10198105US02 type of requesting terminal identified in step S1002. In step S1111, thehandover management unit 701 extracts handover information including the received handover ID in theHandoverID column 1501 from the handover management table 702. - In step S1112, the
handover management unit 701 determines whether the handover information is successfully extracted in step S1111. If the handover information is successfully extracted (YES in step S1112), the processing proceeds to step S1113. If not (NO in step S1112), the processing proceeds to step S1130. In step S1130, thehandover management unit 701 returns a response indicating an error that the handover information is not found to theapplication server 104. The processing is then ended. - In step S1113, the
handover management unit 701 determines whether the type of the requesting terminal received from theapplication server 104 in step S1110 is an MFP. If the type of the requesting terminal is an MFP (YES in step S1113), the processing proceeds to step S1114. If the type of the requesting terminal is not an MFP (NO in step S1113), the processing proceeds to step S1115. - In step S1114, the
handover management unit 701 updates the handover management table 702 by setting “TRUE” in theHandedoverFlag column 1503 of the handover information extracted in step S1111. The processing proceeds to step S1116. - In step S1115, the
handover management unit 701 determines whether the value in theHandedoverFlag column 1503 of the handover information extracted in step S1111 is “TRUE”. If the value in theHandedoverFlag column 1503 is “TRUE” (YES in step S1115), the processing proceeds to step S1120. If the value is not “TRUE” (NO in step S1115), the processing proceeds to step S1116. - In step S1116, the
handover management unit 701 returns a response indicating that the access information received in step S1110 is normally accepted to theapplication server 104. The processing is then ended. - In step S1120, the
handover management unit 701 returns a response indicating an error that operations are prohibited to theapplication server 104. The processing is 10198105US02 then ended. -
FIG. 11C is a flowchart illustrating the processing performed by themanagement server 103 when themanagement server 103 receives a delete instruction for handover information from theapplication server 104. The flowchart ofFIG. 11C corresponds to the processing of themanagement server 103 in steps 5926 and 5927 in the sequence diagram ofFIG. 9 . - In step S1140, the
handover management unit 701 receives a delete instruction for handover information from theapplication server 104. The delete instruction includes a handover ID. In step S1141, thehandover management unit 701 determines whether there is handover information for which the delete instruction is received in the handover management table 702. Specifically, thehandover management unit 701 determines whether there is a record having the value incolumn HandoverID 1501 that coincides with the value of the handover ID received in step S1140. If there is such handover information (YES in step S1141), the processing proceeds to step S1142. If not (NO in step S1141), the processing proceeds to step S1150. In step S1150, thehandover management unit 701 returns a response indicating that there is no handover information to be deleted to theapplication server 104. The processing is then ended. - In step S1142, the
handover management unit 701 deletes the record where theHandoverID column 1501 contains the value of handover ID received in step S1140 from the handover management table 702. - In step S1143, the
handover management unit 701 notifies theapplication server 104 that the handover information is deleted as a response to the delete instruction received in step S1140. The processing is then ended. -
FIG. 11D is a flowchart illustrating the processing performed by themanagement server 103 when themanagement server 103 receives an acquisition request for handover information from theapplication server 104. The flowchart ofFIG. 11D corresponds to the processing of themanagement server 103 in step S918 in the sequence diagram of FIG. 9. - In step S1160, the
handover management unit 701 receives an acquisition request for handover information from theMFP 101. The acquisition request includes a handover ID. - In step S1161, the
handover management unit 701 refers to the handover management table 702 and extracts handover information corresponding to the handover ID included in the acquisition request. - In step S1162, the
handover management unit 701 determines whether the handover information is successfully extracted in step S1161. If the handover information is successfully extracted (YES in step S1162), the processing proceeds to step S1163. If not (NO in step S1162), the processing proceeds to step S1164. - In step S1163, the
handover management unit 701 transmits the extracted handover information to theMFP 101 as a response to the acquisition request received in step S1160. The processing is then ended. - In step S1164, the
handover management unit 701 transmits a response indicating that there is no handover information to theMFP 101 as a response to the acquisition request received in step S1160. The processing is then ended. - The effects of the flowcharts of
FIGS. 11A to 11D will be described. The sequence information registered in themanagement server 103 can be updated based on instructions from theweb application 601. Themanagement server 103 can provide handover information to theMFP 101 in response to an acquisition request from theMFP 101. -
FIGS. 12A and 12B are flowcharts illustrating processing of themobile terminal 102 according to the present exemplary embodiment. The steps in the flowcharts ofFIGS. 12A and 12B are implemented by theCPU 311 of themobile terminal 102 reading programs stored in theROM 312 and theflash memory 314 into theRAM 313 and executing the programs.FIG. 12A is a flowchart illustrating the processing of themobile terminal 102 when themobile terminal 102 receives a user operation. The flowchart ofFIG. 12A corresponds to the processing of themobile terminal 102 in steps S901 to S913 in the sequence diagram ofFIG. 9 . - In step S1201, the web
content display unit 801 receives a start instruction for theweb application 601 from the user, and accesses a start URL with which a sequence is started in the application server 104 (issues an acquisition request for web contents). In step S1202, the webcontent display unit 801 receives a response to the foregoing request from theapplication server 104. In step S1203, the webcontent display unit 801 determines whether the response includes a handover ID. Specifically, the webcontent display unit 801 determines whether the HTTP custom header includes a handover ID. While in the present exemplary embodiment the HTTP custom header is used to deliver a handover ID, other methods may be used. If the response includes a handover ID (YES in step S1203), the processing proceeds to step S1204. If the response does not include a handover ID (NO in step S1203), the processing proceeds to step S1205. - In step S1204, the web
content display unit 801 stores the handover ID received in step S1202. In the present exemplary embodiment, the Web Storage API defined by Hypertext Markup Language version 5 (HTMLS) is used to store the handover ID in Session Storage. However, other methods may be used. - In step S1205, the web
content display unit 801 displays the response (web content) received in step S1202 on theoperation unit 318. In step S1206, the webcontent display unit 801 waits for the user's operation. If the webcontent display unit 801 accepts the user's operation, the processing proceeds to step S1207. In step S1207, the webcontent display unit 801 determines whether the accepted user operation is an operation on theweb application 601. If the accepted user operation is an operation on the web application 601 (YES in step S1207), the processing proceeds to step S1208. If not (NO in step S1207), the processing is ended. - In step S1208, the web
content display unit 801 transmits a request corresponding to the user operation to theapplication server 104. -
FIG. 12B is a flowchart illustrating the processing of themobile terminal 102 when themobile terminal 102 receives a connection request from theMFP 101. The flowchart ofFIG. 12B corresponds to the processing of themobile terminal 102 in steps S916 and S917 in the sequence diagram ofFIG. 9 . - In step S1211, upon receipt of a connection request from the
MFP 101, the MFP cooperation unit 802 establishes a connection with theMFP 101 by short-range wireless communication. In step S1212, the MFP cooperation unit 802 obtains a handover ID from Session Storage. In step S1213, the MFP cooperation unit 802 determines whether a handover ID is successfully obtained in step S1212. If a handover ID is successfully obtained (YES in step S1213), the processing proceeds to step S1214. If not (NO in step S1213), the processing is ended. - In step S1214, the MFP cooperation unit 802 notifies the
MFP 101 of the handover ID. In step S1215, the MFP cooperation unit 802 initializes the screen of theoperation unit 318. The processing is ended. - The establishment of the connection in step S1211 may be initiated by either the
mobile terminal 102 or theMFP 101. For example, in a configuration where themobile terminal 102 determines the distance from theMFP 101 based on the radio field intensity of a Bluetooth (registered trademark) beacon issued from theMFP 101, themobile terminal 102 initiates the connection to theMFP 101. - The effect of the flowchart of
FIG. 12 will be described. Themobile terminal 102 can obtain a handover ID by accessing theapplication server 104, store the handover ID, and notify theMFP 101 of the handover ID. -
FIG. 13 is a flowchart illustrating the processing of theMFP 101 when themobile terminal 102 is placed on the mobile terminal placing spot. The flowchart ofFIG. 13 corresponds to the processing of theMFP 101 in steps S915 to S929 in the sequence diagram ofFIG. 9 . The steps in the flowchart ofFIG. 11 are implemented by theCPU 211 of theMFP 101 reading programs stored in theHDD 214 into theRAM 213 and executing the programs. - In step S1301, the mobile
terminal cooperation unit 501 detects that themobile terminal 102 is placed on the mobile terminal placing spot by using thecontact detection sensor 224. The mobileterminal cooperation unit 501 may be configured to issue a Bluetooth (registered trademark) beacon if themobile terminal 102 is detected to be placed. In step S1302, the mobileterminal cooperation unit 501 establishes a connection with themobile terminal 102 by short-range wireless communication. - In step S1303, the mobile
terminal cooperation unit 501 waits for the reception of a handover ID from themobile terminal 102 for a certain time. If a handover ID is received (YES in step S1303), the processing proceeds to step S1304. If the certain time has elapsed without receiving a handover ID (NO in step S1303), the processing is ended. - In step S1304, the
menu display unit 502 transmits an acquisition request for handover information corresponding to the handover ID received in step S1303 to thehandover management unit 701 of themanagement server 103. - In step S1305, the
menu display unit 502 receives a response to the acquisition request for handover information from thehandover management unit 701 of themanagement server 103. - In step S1306, the
menu display unit 502 determines whether the response received in step S1305 includes handover information. If handover information is included (YES in step S1306), the processing proceeds to step S1307. If handover information is not included (NO in step S1306), the processing is ended. - In step S1307, the
menu display unit 502 calls theweb browser 503 to access a handover URL included in the handover information. In step S1308, theweb browser 503 accesses the handover URL (web application 601). Theweb browser 503 then accepts the user's operations as appropriate, interacts with theweb application 601, and executes theweb application 601. - The effect of the flowchart of
FIG. 13 will be described. TheMFP 101 establishes a connection with themobile terminal 102, receives a handover ID from themobile terminal 102, and receives handover information corresponding to the handover ID from themanagement server 103. TheMFP 101 can then perform processing based on the handover information. - In the procedure described in the present exemplary embodiment, the operation status of a web application cooperating with an MFP and being operated on a mobile terminal can be handed over to the MFP by simply moving the mobile terminal to a position at a predetermined distance from the MFP. This improves the convenience of the user.
- Embodiment(s) of the present invention can also be realized by a computer of a system or apparatus that reads out and executes computer executable instructions (e.g., one or more programs) recorded on a storage medium (which may also be referred to more fully as a ‘non-transitory computer-readable storage medium’) to perform the functions of one or more of the above-described embodiment(s) and/or that includes one or more circuits (e.g., application specific integrated circuit (ASIC)) for performing the functions of one or more of the above-described embodiment(s), and by a method performed by the computer of the system or apparatus by, for example, reading out and executing the computer executable instructions from the storage medium to perform the functions of one or more of the above-described embodiment(s) and/or controlling the one or more circuits to perform the functions of one or more of the above-described embodiment(s). The computer may comprise one or more processors (e.g., central processing unit (CPU), micro processing unit (MPU)) and may include a network of separate computers or separate processors to read out and execute the computer executable instructions. The computer executable instructions may be provided to the computer, for example, from a network or the storage medium. The storage medium may include, for example, one or more of a hard disk, a random-access memory (RAM), a read only memory (ROM), a storage of distributed computing systems, an optical disk (such as a compact disc (CD), digital versatile disc (DVD), or Blu-ray Disc (BD)™), a flash memory device, a memory card, and the like.
- While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
Claims (19)
1. (canceled)
2. An information processing system comprising:
a first device; and
a second device;
wherein the first device includes
at least one processor and at least a memory coupled to the at least one processor and having instructions stored thereon, and when executed by the at least one processor, acting as:
a first execution unit configured to execute an application; and
a transmitting unit configured to transmit, to the second device, first information for handing over a first screen which is a screen of the application and to which a transition occurred by performing an operation on the first device;
wherein second device includes
at least one processor and at least a memory coupled to the at least one processor and having instructions stored thereon, and when executed by the at least one processor, acting as:
a receiving unit configured to receive the first information; and
a second execution unit configured to execute the application;
wherein, based on execution of communication between the first device and the second device, the transmitting unit transmits the first information to the second device, and the second execution unit executes the application, with the first screen opened, by using the transmitted first information.
3. The information processing system according to claim 2 , wherein the application is a web application.
4. The information processing system according to claim 2 , wherein the second device is an image processing device that has at least one of a print function or a scan function.
5. The information processing system according to claim 2 , wherein the communication is near field communication (NFC) or Bluetooth communication.
6. The information processing system according to claim 2 , wherein the transmitting unit transmits the first information to the second device on condition that reception signal intensity of a Bluetooth signal transmitted from the second device is a predetermined level of intensity or higher.
7. The information processing system according to claim 6 , wherein
the at least one processor of the second device further comprises a detecting unit configured to detect that the first device is placed on a predetermined position, and
in a case where the first device is detected to be placed on the predetermined position, a Bluetooth (registered trademark) packet is transmitted.
8. The information processing system according to claim 2 , wherein the transmitting unit transmits the first information to the second device via wireless local area network (LAN) communication whose connection is established based on connection information acquired from the second device via NFC communication.
9. The information processing system according to claim 2 , wherein
the first information is information for handing over the screen of the application to which the transition occurred by performing an operation on the first device and handing over an operation state caused by the operation, and
upon transmission of the first information to the second device, the second execution unit opens the first screen, with the operation state held.
10. The information processing system according to claim 2 , wherein the first information is information for calling up an identifier of the operation screen and a setting value that was set on a previous screen before the operation screen.
11. The information processing system according to claim 2 , further comprising a web server that provides the application;
wherein the web server includes
at least one processor and at least a memory coupled to the at least one processor and having instructions stored thereon, and when executed by the at least one processor, acting as;
a providing unit configured to provide the screen of the application; and
a registering unit configured to register second information in association with the first information, the second information including information indicating the screen of the application to which the transition occurred by performing the operation on the first device;
wherein, upon transmission of the first information to the second device, the second execution unit accesses the web server by using the first information, and the providing unit provides the first screen to the first device based on the second information associated with the first information.
12. The information processing system according to claim 11 , wherein the registering unit registers, in association with the first information, an identifier of an operation screen and a setting value that was set on a previous screen before the operation screen.
13. The information processing system according to claim 11 , wherein the web server transmits the first information to the first device.
14. The information processing system according to claim 11 , further comprising a management server configured to manage the first information;
wherein the at least one processor and the at least memory further act as;
a storing unit configured to store the first information in association with a uniform resource locator (URL) for accessing the web server;
wherein, upon the transmission of the first information to the second device, the second execution unit acquires the URL associated with the first information and accesses the web server based on the URL.
15. The information processing system according to claim 2 , wherein
the application is an application for causing the second device to perform processing, and
the application provides a plurality of screens including a setting screen for making settings for causing the second device to perform the processing.
16. The information processing system according to claim 2 , wherein, based on execution of short-range wireless communication between the first device and the second device, the transmitting unit transmits the first information to the second device.
17. A method for an first device and an second device, the method comprising;
transmitting, to the second device, first information for handing over a first screen which is a screen of the application and to which a transition occurred by performing an operation on the first device;
receiving the first information by the second device; and
executing the application by the second device;
wherein, based on execution of communication between the first device and the second device, the first information is transmitted from the first device to the second device, and, in the executing, the application is executed, with the first screen opened, by using the transmitted first information.
18. A first device comprising:
at least one processor and at least a memory coupled to the at least one processor and having instructions stored thereon, and when executed by the at least one processor, acting as;
a first execution unit configured to execute an application; and
a transmitting unit configured to transmit, to the second device, first information for handing over a first screen which is a screen of the application and to which a transition occurred by performing an operation on the first device; wherein, based on execution of communication between the first device and the second device, the transmitting unit transmits the first information to the second device.
19. A method for a first device comprising;
executing an application; and
transmitting, to a second device, first information for handing over a first screen which is a screen of the application and to which a transition occurred by performing an operation on the first device;
wherein, based on execution of communication between the first device and the second device, the first information is transmitted to the second device.
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US20200382657A1 (en) | 2020-12-03 |
CN112019695A (en) | 2020-12-01 |
KR20200138033A (en) | 2020-12-09 |
US11102359B2 (en) | 2021-08-24 |
EP3745699A1 (en) | 2020-12-02 |
JP7330767B2 (en) | 2023-08-22 |
JP2020198508A (en) | 2020-12-10 |
CN112019695B (en) | 2023-03-24 |
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