JP5751361B2 - Information processing apparatus, information processing method, and program - Google Patents

Description

  The present invention relates to an information processing apparatus, an information processing method, and a program, and more particularly to an information processing apparatus, an information processing method, and a program that execute predetermined processing on image data scanned by an image forming apparatus.

  In recent years, an image forming apparatus called a multifunction peripheral or a multifunction peripheral is used not only as a device that executes printing, copying, scanning, or FAX transmission / reception, but as a component of a computer system built in a company. It has become. For example, image data scanned in the image forming apparatus is transferred to an application that operates on a PC (Personal Computer), and the application can execute various processes related to the image data using resources of the PC. (For example, patent document 1).

  A device capable of inputting image data is not limited to a multifunction device or the like. There are devices that can be handled more easily, such as digital cameras and mobile phones. If these devices and the application can be easily linked (for example, without changing the implementation of the application), the convenience of the application can be further improved.

  The present invention has been made in view of the above points, and an information processing apparatus capable of causing a program for processing image data scanned by an image forming apparatus to process image data input from another device An object is to provide an information processing method and a program.

  Therefore, in order to solve the above-described problem, the information processing apparatus waits for the transfer of the image data via the network and the image for transferring the scanned image data in order to perform data processing on the received image data. A first connection means for connecting to the forming apparatus via the network; a device for transferring image data recorded in the storage means; a second connection means for connecting via the network; and the data processing for the image data. In response to receiving the image data transferred from one of the image forming apparatus and the device in a state where the waiting unit is waiting for the transfer of the image data, Transfer means for transferring the image data to execution means, and the execution means is transferred from the transfer means. Executing the data processing to the image data.

  In such an information processing apparatus, a program for processing image data scanned by the image forming apparatus can process image data input from another device.

  According to the present invention, it is possible to cause a program that processes image data scanned by an image forming apparatus to process image data input from another device.

It is a figure which shows the structural example of the information processing system in embodiment of this invention. 1 is a diagram illustrating an example of a hardware configuration of an image forming apparatus according to an embodiment of the present invention. It is a figure which shows the hardware structural example of the user terminal in embodiment of this invention. It is a figure which shows the function structural example of the widget in 1st embodiment, a widget manager, and a provider application. It is a figure which shows the example of a display of the main screen of a scan widget. It is a figure which shows the example of the widget information of a scan widget. It is a sequence diagram for demonstrating the process sequence at the time of transmission of widget information. It is a figure which shows the structural example of a user management table. FIG. 10 is a sequence diagram for explaining a processing procedure when executing a scan widget. It is a figure which shows the example of a display of a user selection screen. It is a figure which shows the structural example of the widget information of the scan widget transmitted to a provider application from a widget manager. It is a figure which shows the example of a display of a widget selection screen. It is a figure which shows the structural example of the information processing system by which the digital camera was connected to the user terminal in 1st embodiment. It is a sequence diagram for demonstrating the process sequence in the case of making a scan widget process the image data acquired from a digital camera in 1st embodiment. It is a figure which shows the structural example of the information processing system in 2nd embodiment. It is a sequence diagram for demonstrating the process sequence in the case of making a scan widget process the image data acquired from a mobile device in 2nd embodiment. It is a figure which shows the structural example of the information processing system in 3rd embodiment. It is a sequence diagram for demonstrating the process sequence in the case of making a scan widget process the image data acquired from a mobile device in 3rd embodiment. It is a figure which shows the structural example of the information processing system in 4th Embodiment. It is a sequence diagram for demonstrating the process sequence in the case of making a scan widget process the image data acquired from a local environment in 4th Embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram illustrating a configuration example of an information processing system according to an embodiment of the present invention. In the information processing system 1 shown in FIG. 1, one or more image forming apparatuses 10 and one or more user terminals 20 may be a local area network (LAN) or the Internet (wired or wireless). ) Is connected through.

  The image forming apparatus 10 is a multifunction machine that implements functions such as printing, scanning, copying, and FAX transmission / reception with a single casing. However, an apparatus (printer, scanner, copier, facsimile, etc.) that realizes any one of the functions may be used as the image forming apparatus 10. In the present embodiment, it is only necessary to have hardware for realizing the scan function.

  The user terminal 20 is a personal terminal used by the user, and is not limited to a specific device as long as it can install and execute a software program and has a communication function. Specific examples of the user terminal 20 include a desktop PC (Personal Computer), a notebook PC, a PDA (Personal Digital Assistance), or a mobile phone.

  A software configuration of the user terminal 20 will be described. In FIG. 1, the user terminal 20 includes a scan widget 21a, a scan distribution widget 21b, a scan translation widget 21c, a print widget 21d, a widget manager 22, an OS 25, and the like.

  The scan widget 21a, the scan distribution widget 21b, the scan translation widget 21c, and the print widget 21d are application programs that are collectively referred to as “widget 21” in the present embodiment. In recent years, easy applications called widgets or gadgets have been distributed. In the present embodiment, these applications are referred to as widgets 21 in the sense of applications that can be easily installed and used (that is, not limited in terms of technical significance). However, in the present embodiment, each widget 21 uses a service provided on the network or the user terminal 20 to realize a predetermined function (for example, a series of processing flows such as a workflow). Common.

  The scan widget 21 a is a widget 21 that causes the image forming apparatus 10 to perform scanning and stores the scanned image data in the user terminal 20. The scan distribution widget 21b is a widget 21 that causes the image forming apparatus 10 to perform scanning and distributes scanned image data to a predetermined destination. The scan translation widget 21c causes the image forming apparatus 10 to perform scanning, performs OCR (Optical Character Recognition) processing on the scanned image data, and performs translation processing on text data output as a result of the OCR processing It is a widget 21 to do. The print widget 21d is a widget 21 that causes the image forming apparatus 10 to print document data stored in the user terminal 20.

  The widget manager 22 is positioned as a framework of the widget 21 and mediates communication between the widget 21 and the image forming apparatus 10. Each widget 21 needs to have an interface and a processing procedure defined by the widget manager 22. In other words, the application that operates in cooperation with the widget manager 22 is the widget 21 in the present embodiment.

  The OS 25 is a so-called OS (Operating System). Each software on the user terminal 20 operates as a process or thread on the OS 25.

  A software configuration of the image forming apparatus 10 will be described. In FIG. 1, the image forming apparatus 10 includes a standard application 121, an SDK application 122, an SDK platform 123, a control service 124, an OS 125, and the like.

  The standard application 121 is a set of applications that are mounted on the image forming apparatus 10 in a standard manner (in advance at the time of shipment). In the figure, a scan application 1211, a print application 1212, a copy application 1213, and a FAX application 1214 are illustrated. The scan application 1211 executes a scan job. The print application 1212 executes a print job. The copy application 1213 executes a copy job. The FAX application 1214 executes a FAX transmission job or reception job.

  The control service 124 is a software module group that provides a function for controlling various hardware resources and the like to a higher-level application. For example, a function related to network communication, a scanner control function, a printer control function, a memory Management function.

  The SDK application 122 is an application that is additionally installed as a plug-in for expanding the functions of the image forming apparatus 10 after the image forming apparatus 10 is shipped. In the figure, a provider application 1221 is illustrated as the SDK application 122. The provider application 1221 executes processing for enabling the widget 21 to be operated from the image forming apparatus 10.

  The SDK platform 123 provides an execution environment for the SDK application 122. Each SDK application 122 is developed using an API (Application Program Interface) provided by the SDK platform 123. For example, the SDK platform 123 provides the SDK application 122 with an interface for using the scan function, an interface for using the print function, an interface for using the copy function, and the like. The API of the SDK platform 123 is open to the public, and the SDK application 122 can be developed by a third vendor or the like.

  The OS 125 is a so-called OS (Operating System). Each software on the image forming apparatus 10 operates as a process or thread on the OS 125.

  Next, the hardware configuration of each device will be described. FIG. 2 is a diagram illustrating a hardware configuration example of the image forming apparatus according to the embodiment of the present invention. 2, the image forming apparatus 10 includes hardware such as a controller 11, a scanner 12, a printer 13, a modem 14, an operation panel 15, a network interface 16, and an SD card slot 17.

  The controller 11 includes a CPU 111, a RAM 112, a ROM 113, an HDD 114, and the like. The ROM 113 stores various programs and data used by the programs. The RAM 112 is used as a storage area for loading a program, a work area for the loaded program, and the like. The CPU 111 realizes various functions by processing a program loaded in the RAM 112. The HDD 114 records programs and various data used by the programs.

  The scanner 12 is hardware for reading image data from a document. The printer 13 is hardware for printing print data on printing paper. The modem 14 is hardware for connecting to a telephone line, and is used to execute transmission / reception of image data by FAX communication. The operation panel 15 is hardware including input means such as buttons for accepting input from a user and display means such as a liquid crystal panel. The network interface 16 is hardware for connecting to a network such as a LAN (whether wired or wireless). The SD card slot 17 is used for reading a program recorded on the SD card 80. That is, in the image forming apparatus 10, not only the program recorded in the ROM 113 but also the program recorded in the SD card 80 can be loaded into the RAM 112 and executed. The SD card 80 may be replaced by another recording medium (for example, a CD-ROM or a USB (Universal Serial Bus) memory). That is, the type of recording medium corresponding to the positioning of the SD card 80 is not limited to a predetermined one. In this case, the SD card slot 17 may be replaced by hardware corresponding to the type of recording medium.

  FIG. 3 is a diagram illustrating a hardware configuration example of the user terminal according to the embodiment of the present invention. The user terminal 20 shown in FIG. 3 includes a drive device 200, an auxiliary storage device 202, a memory device 203, a CPU 204, an interface device 205, a display device 206, and an input device 207 that are connected to each other via a bus B. And have.

  A program for realizing processing in the user terminal 20 is provided by a recording medium 201 such as a CD-ROM or a memory card. When the recording medium 201 on which the program is recorded is set in the drive device 200, the program is installed from the recording medium 201 to the auxiliary storage device 202 via the drive device 200. However, it is not always necessary to install the program from the recording medium 201, and the program may be downloaded from another computer via a network. The auxiliary storage device 202 stores the installed program and stores necessary files and data.

  The memory device 203 reads the program from the auxiliary storage device 202 and stores it when there is an instruction to start the program. The CPU 204 realizes functions related to the user terminal 20 in accordance with a program stored in the memory device 203. The interface device 205 is an interface for various communications such as an interface for network connection, an interface for USB (Universal Serial Bus) connection, and an interface for wireless communication such as Bluetooth (registered trademark). The display device 206 displays a GUI (Graphical User Interface) or the like by a program. The input device 207 includes a keyboard, a mouse, a button, or the like, and is used for inputting various operation instructions.

  Next, the widget 21, the widget manager 22, and the provider application 1221 will be described in more detail. FIG. 4 is a diagram illustrating a functional configuration example of the widget, the widget manager, and the provider application according to the first embodiment.

  As shown in the figure, each widget 21 includes a widget UI unit 211, a widget information transmission unit 212, a cooperation unit 213, a logic unit 214, an attribute information management file 215, and the like.

  The widget UI unit 211 displays various display screens related to the widget 21 on the display device 206 of the user terminal 20. The widget information transmission unit 212 transmits a widget information registration request to the widget manager 22 when the widget 21 is activated. The widget information includes information necessary for executing the widget 21. The cooperation unit 213 controls communication (information exchange and the like) for cooperation with the provider application 1221. The attribute information management file 215 is a file that stores setting information and the like for the widget 21. The logic unit 214 is a part where a function unique to each widget 21 is mounted. For example, the logic unit 215 of the scan widget 21a executes a process for storing scanned image data. The logic unit 215 of the scan distribution widget 21b executes a process for distributing scanned image data. The logic unit of the scan translation widget 21c executes OCR processing on the scanned image data and translation processing on the OCR result.

  The widget manager 22 includes a widget information registration unit 221, an advertisement unit 222, a widget information providing unit 223, an intermediary unit 224, an image input control unit 225, an image transfer unit 226, a widget information management table 227, and the like.

  The widget information registration unit 221 receives the widget information registration request transmitted from the widget 21 and stores the widget information in the widget information management table 227. The widget information management table 227 is a table in which the widget information of each widget 21 activated on the user terminal 20 is registered, and is recorded in the auxiliary storage device 202 of the user terminal 20.

  The advertisement unit 222 advertises (broadcasts or multicasts) the user ID and the like included in the widget information received by the widget information registration unit 221 on the network. Advertisements are issued in user units (user ID units). Specifically, after an advertisement is issued for the user A in response to the activation of a certain widget 21 in the user terminal 20, even if another widget 21 is activated in the user terminal 20, the widget information is displayed. The corresponding advertisement is not issued. In the present embodiment, for convenience, the user terminal 20 and the user correspond one-to-one. Therefore, the advertisement by the advertisement unit 222 is information for notifying the image forming apparatus 10 that a user who has become able to use any widget 21 has newly occurred. However, the advertisement may be performed in units of widget information. In this case, duplicate advertisements are issued for the same user, but the elimination of duplication may be performed on the image forming apparatus 10 side.

  The widget information providing unit 223 provides (transmits) the widget information registered in the widget information management table 227 to the image forming apparatus 10 in response to a request from the image forming apparatus 10. The mediation unit 224 mediates or relays communication between the widget 21 and the provider application 1221. The image input control unit 225 controls image data input processing or acquisition processing from an external device connected via the interface device 205. Examples of the external device connected via the interface device 205 include a digital camera (digital still camera) and a mobile device. The image transfer unit 226 determines the widget 21 that is a transfer destination of the image data input or acquired by the image input control unit 225, and transfers the image data to the widget 21.

  The provider application 1221 includes a user detection unit 131, a UI control unit 132, a widget information acquisition unit 133, a widget cooperation unit 134, a function control unit 135, a user management table 136, and the like.

  The user detection unit 131 detects the presence of a user who can use the widget 21 based on the advertisement issued from the widget manager 22 and registers the user ID and the like included in the advertisement in the user management table 136. The user management table 136 is a table for managing a list of users whose available widgets 21 exist on the network.

  The UI control unit 132 receives an input such as an operation instruction for the widget 21 from the user. That is, the widget 21 is arranged on the user terminal 20 but can also be operated from the operation panel of the image forming apparatus 10. The widget information acquisition unit 133 acquires widget information of the widget 21 belonging to the user selected from the users registered in the user management table 136 from the widget manager 22. The widget cooperation unit 134 controls communication with the widget 21. The function control unit 135 controls execution of the function requested from the widget 21. Processing for realizing the function is delegated to the standard application 121 or another SDK application 122.

  Hereinafter, a processing procedure of the information processing system 1 will be described. In the present embodiment, a processing procedure related to the scan widget 21a will be described as a representative example.

  The widget UI unit 211 displays the main screen of the scan widget 21a on the display device 206 in response to the activation instruction of the scan widget 21a input by the user on the user terminal 20.

  FIG. 5 is a diagram illustrating a display example of the main screen of the scan widget. In the figure, a scan setting screen 540 is attached to the right of the main screen 530 of the scan widget 21a. A detailed display example of the scan setting screen 540 is shown on the right side of the drawing. In the example shown in the figure, on the scan setting screen 540, the resolution, the color mode (color or monochrome), and the path name on the file system of the user terminal 20 as the storage location of the scanned image data (scanned image) are displayed. Setting is possible. However, these setting items are merely examples, and the types of setting items are not limited to predetermined ones.

  When the value of each setting item is set on the scan setting screen 540, the widget UI unit 211 records the set information (hereinafter referred to as “scan setting information”) in the memory device 203.

  Note that initial values displayed in each item of the scan setting screen 540 are acquired from the attribute information management file 215. That is, the attribute information management file 215 includes user-desired scan setting information in advance. Therefore, the scan setting screen 540 is not necessarily displayed. When the scan setting screen 540 is not displayed, the scan setting information acquired from the attribute information management file 215 may be loaded into the memory device 203.

  Subsequently, the widget information transmission unit 212 generates widget information of the scan widget 21a based on the information acquired in the above step, and sends a registration request for the widget information (scan execution request to the image forming apparatus 10) to the widget. Transmit to the manager 22.

  FIG. 6 is a diagram illustrating an example of widget information of the scan widget. In the figure, the widget information of the scan widget 21a includes a widget ID, a user ID, a cooperation function identifier, a widget address, a display name, scan setting information, and the like.

  The widget ID is identification information that uniquely identifies each widget 21. The user ID is identification information of a user who is the owner of the scan widget 21a. The cooperation function identifier is information for identifying a function (in other words, a function used by the scan widget 21a) that the image forming apparatus 10 that cooperates with the scan widget 21a needs to have. Examples of the linkage function identifier include “print” and “scan”. “Print” indicates a print function. “Scan” indicates a scan function. The scan widget 21 a uses the scan function of the image forming apparatus 10. Therefore, in the example of FIG. 6, “scan” is the linkage function identifier. The widget address is identification information (for example, URL) for uniquely identifying each widget in network communication. The display name is a character string for displaying the name of the scan widget 21a. The widget ID, user ID, linkage function identifier, widget address, and display name are acquired from the attribute information management file 215, for example.

  The scan setting information is scan setting information set on the scan setting screen 540 or scan setting information acquired from the attribute information management file 215.

  Next, a processing procedure executed in response to transmission of widget information will be described. FIG. 7 is a sequence diagram for explaining a processing procedure when transmitting widget information.

  In step S111, the widget information (see FIG. 6) transmitted from the widget information transmission unit 212 of the scan widget 21a is received by the widget information registration unit 221 of the widget manager 22. The widget information registration unit 221 registers the widget information in the widget information management table 227 corresponding to the user ID included in the received widget information. When the widget information management table 227 corresponding to the user ID does not exist, the widget information registration unit 221 generates the widget information management table 227 corresponding to the user ID, and stores the widget information in the generated widget information management table 227. Register (S112).

  When the widget information management table 227 is newly generated (that is, when the widget information is registered for the first time for the user associated with the user ID included in the received widget information), the advertising unit 222 has received An advertisement including a user ID included in the widget information and a widget information acquisition URL (Uniform Resource Locator) is issued on the network (S113). The widget information acquisition URL is a unique URL for each widget information management table 227. For example, when the widget information registration unit 221 generates the widget information management table 227, the widget information registration unit 221 generates a widget information acquisition URL for the widget information management table 227. Here, the widget information management table 227 is generated for each user. Therefore, the URL for acquiring widget information is unique for each user.

  Subsequently, when receiving the advertisement, the user detection unit 131 of the provider application 1221 registers the user ID and the widget information acquisition URL included in the advertisement in the user management table 136 (S114).

  FIG. 8 is a diagram illustrating a configuration example of the user management table. As shown in the figure, the user management table 136 manages a pair of a user ID and a widget information acquisition URL. In the figure, an example in which records are registered for user A and user B is shown. The user management table 136 is stored in the HDD 114, for example.

  On the other hand, after transmitting the widget information, the scan widget 21a performs polling to confirm that the image data has been scanned in the image forming apparatus 10, and waits for transfer (reply) of the image data. Specifically, the cooperation unit 213 of the scan widget 21a transmits a request for acquiring scanned image data (scanned image) to the mediation unit 224 of the widget manager 22 (S115). The mediation unit 224 makes a response to the acquisition request (S116). At this stage, since the image data has not been scanned, a response indicating that there is no scanned image is returned. Thereafter, the scan image acquisition request (S115) is repeated at regular intervals. The widget ID may be included in the scan image acquisition request.

  The scan delivery widget 21b, the scan translation widget 21c, and the print widget 21d are also processed in the same manner as in FIG. However, the print widget 21d does not make a scan image acquisition request.

  After activating the scan widget 21a on the user terminal 20, the user moves to the installation location of the image forming apparatus 10 in order to use the scan widget 21a. When a plurality of image forming apparatuses 10 are connected to the network, the same advertisement is received by the user detection unit 131 of each image forming apparatus 10, and the user ID and the user ID are stored in the user management table 136 of each image forming apparatus 10. A widget information acquisition URL is registered. Therefore, the user can use each widget 21 from any of the plurality of image forming apparatuses 10.

  Next, processing executed in response to a user operation in the image forming apparatus 10 will be described. FIG. 9 is a sequence diagram for explaining a processing procedure when the scan widget is executed.

  When an instruction to use a widget is input by the user via the operation panel 15 (S201), the UI control unit 132 of the provider application 1221 displays the user selection screen on the operation panel based on information registered in the user management table 136. 15 is displayed (S202).

  FIG. 10 is a diagram illustrating a display example of the user selection screen. In the user selection screen 610 shown in the figure, a button is displayed for each user ID. In the figure, a button 611 corresponding to the user A and a button 612 corresponding to the user B are displayed.

  Subsequently, the user presses a button corresponding to his / her user ID on the user selection screen 610 (S203). In response to pressing of the button, the widget information acquisition unit 133 acquires the widget information acquisition URL associated with the user ID corresponding to the selected button from the user management table 136. Note that the user may be authenticated in response to pressing of the button corresponding to the user ID, and the subsequent processing may be executed only when the user is authenticated.

  Subsequently, the widget information acquisition unit 133 transmits a widget information acquisition request to the widget information acquisition URL corresponding to the selected user ID (S204). The widget information acquisition request is received by the widget information providing unit 223 of the widget manager 22. The widget information providing unit 223 lists widget information registered in the widget information management table 227 corresponding to the widget information acquisition URL (that is, the widget information management table 227 corresponding to the user who is operating the image forming apparatus 10). And the list is transmitted to the provider application 1221 (S205). When transmitting a list of widget information, the widget information providing unit 223 sets a URL for relaying communication between the provider application 1221 and each widget 21 (hereinafter referred to as “widget relay URL”) for each widget (for each widget information). ) Uniquely generated. The widget information providing unit 223 adds the widget relay URL generated for each widget to the widget information corresponding to each widget, and transmits a list of widget information to which the widget relay URL is added to the provider application 1221. Therefore, the widget information transmitted in step S205 has a configuration as shown in FIG. 11, for example.

  FIG. 11 is a diagram illustrating a configuration example of the widget information of the scan widget transmitted from the widget manager to the provider application.

  The widget information shown in FIG. 11 is obtained by adding a widget relay URL to the widget information of FIG. In step S205, a list of widget information as shown in the figure is transmitted. Here, items that contain only one piece of widget information are also referred to as a list of widget information.

  Subsequently, the UI control unit 132 of the provider application 1221 records the received widget information list in the RAM 112, and based on the widget information list, includes a screen including a list of widgets 21 available to the user ( Widget selection screen) is displayed (S206).

  FIG. 12 is a diagram illustrating a display example of the widget selection screen. In the figure, a button is displayed for each widget on the widget selection screen 620. In the figure, a button 621 corresponding to the scan widget 21a, a button 622 corresponding to the scan distribution widget 21b, and a button 623 corresponding to the scan translation widget 21c are displayed.

  When a document is set on the image forming apparatus 10 and the button 621 corresponding to the scan widget 21a is selected on the widget selection screen 620 (S207), the widget cooperation unit 134 of the provider application 1221 corresponds to the pressed button. Based on the cooperation function identifier (“scan”) included in the widget information (hereinafter referred to as “current widget information”), it is recognized that the scan should be executed. Therefore, the widget cooperation unit 134 requests the function control unit 135 to execute scanning.

  The function control unit 135 controls reading of the image data from the document based on the scan setting information included in the current widget information (S208). More specifically, the function control unit 135 causes the scanner 12 to scan a document set on the image forming apparatus 10 and outputs image data (scanned image) obtained as a result to the widget cooperation unit 134.

  The widget cooperation unit 134 transmits the scanned image to the widget relay URL included in the current widget information (S209). The scanned image transmitted to the widget relay URL is received by the mediation unit 224 of the widget manager 22. Subsequently, in response to the scan image acquisition request (S115) from the scan widget 21a corresponding to the widget relay URL received after receiving the scan image, the mediation unit 224 associates the scan image with the scan widget 21a. The data is transferred to the unit 213 (S121).

  When the cooperation unit 213 receives the scan image, the cooperation unit 213 inputs the scan image to the logic unit 214. The logic unit 214 executes processing (logic) mounted on itself for the scanned image as a processing target (S122). Specifically, the logic unit 214 stores the scanned image in the storage destination set in the attribute information management file 215. When the execution target widget 21 is the scan distribution widget 21b, the scanned image is distributed to a predetermined destination. When the execution target widget 21 is the scan translation widget 21c, the OCR process is executed on the scanned image, and the translation process is executed on the OCR result. That is, the processing procedure regarding the scan widget 21 (widget 21 whose linkage identifier is “scan”, such as the scan widget 21a, the scan distribution widget 21b, and the scan translation widget 21c) is the same except for the specific contents of step S122. Will be.

  Subsequently, in preparation for execution of the next scan widget 21a, the cooperation unit 213 resumes polling of the scan image acquisition request (S115) and waits for transfer of the scan image.

  Next, an example in which image data acquired from an external device other than the image forming apparatus 10 is a processing target of the scan widget 21a will be described. In the first embodiment, an example in which a digital camera is used as an image data acquisition source will be described.

  FIG. 13 is a diagram illustrating a configuration example of an information processing system in which a digital camera is connected to a user terminal in the first embodiment. In FIG. 13, the same parts as those in FIG. In the figure, an example in which the digital camera 50 is connected to the user terminal 20 via USB is shown. Assume that already captured image data is recorded in the digital camera 50.

  FIG. 14 is a sequence diagram for explaining a processing procedure when the scan widget processes image data acquired from the digital camera in the first embodiment. In the figure, it is assumed that the scan widget 21a is in a state of performing polling (S115, S116) of a scan image acquisition request.

  When the user connects the digital camera 50 to the user terminal 20 via USB (S301), the connection event is detected by the image input control unit 225 of the widget manager 22 via the OS 25 (S302, S303). In response to detection of the connection of the digital camera 50, the image input control unit 225 acquires image data recorded in the digital camera 50 (S304, S305). Acquisition of image data from the digital camera 50 may be performed based on a known protocol or the like. For example, if the digital camera 50 is compatible with USB mass storage, the image data may be acquired by a method according to the USB mass storage class.

  Subsequently, the image transfer unit 226 determines the widget 21 that is the transfer destination of the acquired image data (S306). Details of the determination process will be described later. Subsequently, the image transfer unit 226 transfers the image data as a response to the scan image acquisition request (S115) from the scan widget 21a determined as the transfer destination of the image data (S121). That is, the image transfer unit 226 transfers image data by the same communication procedure as the mediation unit 224 instead of the mediation unit 224. Thereafter, the processing as described in FIG. 9 is executed.

  As is clear from a comparison between FIG. 9 and FIG. 14, there is no change in the processing procedure related to the scan widget 21a. That is, in FIG. 14 as well, the scan widget 21a may receive image data returned as a polling response and execute predetermined processing on the image data. This is because the widget manager 22 absorbs the influence on the processing procedure due to the change of the image data input source from the image forming apparatus 10 to the digital camera 50. Therefore, image data acquired from the digital camera 50 can be processed by the scan widget 21a without changing the implementation of the scan widget 21a.

  Note that a USB device other than the digital camera 50 (for example, a USB memory) may be the image data acquisition destination. The processing procedure executed in this case may be that in which the digital camera 50 in FIG. 14 is replaced with the other USB device.

  Next, a second embodiment will be described. FIG. 15 is a diagram illustrating a configuration example of an information processing system according to the second embodiment. In FIG. 15, the same parts as those in FIG.

  As shown in FIG. 15, in the second embodiment, the mobile device 60 such as a mobile phone and the user terminal 20 are connected via Bluetooth. That is, in the second embodiment, the Bluetooth-connected mobile device 60 is the image data acquisition destination.

  FIG. 16 is a sequence diagram for explaining a processing procedure when the scan widget processes image data acquired from the mobile device in the second embodiment.

  The image input control unit 225 of the widget manager 22 displays information indicating a Bluetooth profile to be used (for example, BIP (Basic Imaging Profile) or FTP (File Transfer Profile)) when the widget manager 22 is started up. (S401). Note that the Bluetooth profile matches that used by the mobile device 60.

  When the user operates the mobile device 60 and inputs a search instruction for a device that can be connected to Bluetooth, the mobile device 60 performs pairing processing with the user terminal 20 (OS 25) (S403). Subsequently, the OS 25 sets the image input control unit 225 waiting for communication based on the Bluetooth profile used by the mobile device 60 as an end point of the Bluetooth connection (S404).

  Subsequently, when the user inputs an image data transfer instruction to the endpoint to the mobile device 60, the mobile device 60 transmits the image data to the image input control unit 225 by Bluetooth communication (S405).

  Step S406 and subsequent steps are the same as step S306 and subsequent steps in FIG.

  As described above, according to the second embodiment, image data acquired from an external device capable of Bluetooth connection can be a processing target of the scan widget 21. Note that image data is acquired from an external device that performs communication using a communication method (USB connection, communication method other than Bluetooth) described in the first embodiment and the second embodiment, and the image data is stored in the scan widget 21. May be the processing target.

  By the way, regarding the first and second embodiments, the same processing procedure as in FIG. 14 or FIG. 16 is applied to the scan widget 21 (scan distribution widget 21b or scan translation widget 21c) other than the scan widget 21a. be able to. This means that when a plurality of scan widgets 21 are activated in the same user terminal 20, there may be a plurality of candidates for transfer destinations of image data acquired from a USB device such as the digital camera 50. . In this case, it becomes a problem which of the plurality of candidates is the transfer destination. Therefore, details of step S306 and step S406 will be described.

  If a plurality of scan widgets 21 are activated in step S306 or S406, the image transfer unit 226 executes processing for narrowing down the widgets 21 to which image data is transferred. Note that the number of activated scan widgets 21 is determined based on the widget information management table 227.

  For example, based on the widget information management table 227, the image transfer unit 226 causes the display device 206 to display a list screen of the activated scan widgets 21 and causes the user to select the transfer destination widget 21 on the list screen. .

  Alternatively, the image data transfer destination widget 21 may be determined based on filtering information recorded in advance in the auxiliary storage device 202. As the filtering information, for example, the widget ID of a specific widget 21 that is a transfer destination of image data may be recorded. In this case, the image data is always transferred to the same widget 21 unless the filtering information is edited.

  Alternatively, the correspondence information between the image data format (data format) and the scan widget 21 may be filtering information. In this case, the image transfer unit 21 determines the scan-destination widget 21 of the transfer destination based on the data format of the image data acquired from the USB device and the filtering information. This determination method is effective when the data format to be processed (or processable) differs depending on the widget 21.

  Alternatively, the correspondence information between the use of the image data in each scan widget 21 and the data format or the type of the external device from which the image data is acquired may be used as filtering information. The usage of the image data is “save” for the scan widget 21a, “distribution” for the scan distribution widget 21b, and “OCR” or “translation” for the scan translation widget 21c. Accordingly, the filtering information is correspondence information between the keywords or identifiers indicating these uses and the type of the external device from which the data format or image data is acquired. In this case, the image transfer unit 226 inquires each activated scan widget 21 about the use of the image data. Alternatively, the use of the image data may be included in the widget information. The image transfer unit 226 transfers the scan-destination widget 21 of the transfer destination based on the use acquired from each scan-type widget 21, the data format of the image data or the type of the external device from which the image data is acquired, and the filtering information. Determine.

  Alternatively, the correspondence information between the data size or the number of pixels of the image data and the scan widget 21 may be used as filtering information. In this case, the image transfer unit 21 determines the scan-destination widget 21 to be transferred based on the data size or the number of pixels of the image data acquired from the external device and the filtering information.

  Alternatively, correspondence information between the scan widget 21 and the type of external device may be used as filtering information. In this case, the image transfer unit 21 determines the scan-destination widget 21 of the transfer destination based on the type of the external device from which the image data is acquired and the filtering information.

  Alternatively, information indicating whether each scan widget 21 outputs image data to the outside of the user terminal 20 may be filtering information. In this case, the image transfer unit 21 determines a scan widget 21 that does not output image data to the outside of the user terminal 20 as a transfer destination of image data based on the filtering information. According to this determination method, it is possible to prevent a personal image captured by the digital camera 50 or the like from being distributed via the network.

  Moreover, you may combine various filtering information mentioned above. In some cases, the filtering information cannot be narrowed down to one. In this case, all of the narrowed down scan-type widgets 21 may be used as the transfer destination, or the transfer-destination scan-type widget 21 may be selected based on information that can be reliably narrowed down to one.

  Examples of information that can be narrowed down to one reliably include the time when the widget 21 is used, the time when the setting information related to the widget 21 is changed, and the like. The use time may be determined by recording the time at which step S204 of FIG. For the widget 21 whose setting information has been changed, steps S111 and S112 in FIG. 7 are re-executed. Therefore, the time when the setting information is changed may be determined by recording the time at which step S112 is executed for each widget 21. In this case, the image transfer unit 226 determines the scan widget 21 recently used or the scan widget 21 whose setting information has been changed recently as the transfer destination of the image data. In particular, the setting information of the widget 21 is likely to be changed when the widget 21 is used. Therefore, it can be said that the widget 21 whose setting information has been recently changed is likely to be the widget 21 that the user expects as the transfer destination of the image data.

  It should be noted that all activated scan widgets 21 may be unconditionally used as transfer destinations of image data.

  On the other hand, if there is one activated scan widget 21 in step S206, the image transfer unit 226 may unconditionally transfer the image data to the activated scan widget 21. Whether transfer is possible may be determined based on various filter conditions.

  Next, a third embodiment will be described. FIG. 17 is a diagram illustrating a configuration example of an information processing system according to the third embodiment. In FIG. 17, the same parts as those in FIG.

  In FIG. 17, the user terminal 20 has an image input widget 21e. The image input widget 21e is different from the other widgets 21 in that it does not cooperate with the image forming apparatus 10. Accordingly, the processing procedure as shown in FIGS. 7 and 9 is not executed for the image input widget 21e. However, the image input widget 21e is also referred to as a “widget” in the present embodiment because it is common to the other widgets 21 in that it is an application that can be easily installed and used.

  The image input widget 21e controls acquisition of image data from the mobile device 60. Due to the presence of the image input widget 21e, the image input control unit 225 and the image transfer unit 226 in the widget manager 22 become unnecessary. This is because the image input widget 21e replaces the functions of the image input control unit 225 and the image transfer unit 226.

  FIG. 18 is a sequence diagram for explaining a processing procedure when the scan widget processes image data acquired from the mobile device in the third embodiment.

  In steps S501 to S505, image data is transmitted from the mobile device 60 to the image input widget 21e by Bluetooth communication based on the same processing procedure as in steps S401 to S405 of FIG. Subsequently, the image input widget 21e determines the scan widget 21 that is the transfer destination of the image data by the same determination method as in step S306 of FIG. 14 (S506). The image input widget 21e can refer to the widget information management table 227. Alternatively, the image input widget 21e may acquire the registered contents of the widget management table 227 from the widget manager 22.

  Subsequently, the image input widget 21e transmits the image data to the widget relay URL of the scan widget 21 determined as the transfer destination of the image data (S507). The communication procedure (communication protocol) here is the same as the communication procedure used when the widget cooperation unit 134 of the provider application 1221 transmits image data in step S209 of FIG. Therefore, the image data transmitted by the image input widget 21e is received by the mediation unit 224 of the widget manager 22.

  Subsequently, in response to the scan image acquisition request (S115) from the scan widget 21a corresponding to the widget relay URL, the mediation unit 224 receives the received image data after receiving the image data. It transfers to the cooperation part 213 of 21a (S121). The subsequent processing procedure is as described above.

  As described above, according to the third embodiment, the widget manager 22 does not need to perform a special process regarding acquisition of image data from the mobile device 60. This is because the special processing is absorbed by the image input widget 21e. Therefore, in the case of supporting an external device other than the mobile device 60 (for example, the digital camera 50), the image input widget 21e corresponding to the new external device may be created and distributed to each user terminal 20. There is no need to modify the implementation of the widget manager 22 already installed on the user terminal 20. Therefore, maintenance work can be simplified.

  Next, a fourth embodiment will be described. FIG. 19 is a diagram illustrating a configuration example of an information processing system according to the fourth embodiment. In FIG. 19, the same parts as those in FIG. 17 are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 19, the user terminal 20 has a local image input widget 21f. The local image input widget 21 f is different from the other widgets 21 in that it does not cooperate with the image forming apparatus 10. Therefore, the processing procedure as shown in FIGS. 7 and 9 is not executed for the local image input widget 21f. However, the local image input widget 21f is also referred to as a “widget” in the present embodiment because it is common to other widgets 21 in that it is an application that can be easily installed and used.

  The local image input widget 21f controls acquisition of image data recorded in the local environment (auxiliary storage device 102 of the user terminal 20). Due to the presence of the local image input widget 21f, the image input control unit 225 and the image transfer unit 226 in the widget manager 22 become unnecessary. This is because the local image input widget 21f replaces the functions of the image input control unit 225 and the image transfer unit 226.

  FIG. 20 is a sequence diagram for explaining a processing procedure when the scan widget processes image data acquired from the local environment in the fourth embodiment.

  In step S601, the local image input widget 21f receives designation of image data to be processed from the user. The image data can be specified by specifying the file name of the file storing the image data on the screen displayed by the local image input widget 21f on the display device 206, or by dragging and dropping the icon of the file. Also good.

  Subsequently, the local image input widget 21f determines the scan-system widget 21 that is the transfer destination of the image data by the same determination method as in step S306 in FIG. 14 (S602). It is assumed that the local image input widget 21f can refer to the widget information management table 227. Alternatively, the local image input widget 21 f may acquire the registered contents of the widget management table 227 from the widget manager 22.

  Subsequently, the local image input widget 21f acquires the designated image data from the auxiliary storage device 102, and transmits the image data to the widget relay URL of the scan widget 21 determined as the image data transfer destination. (S603). Therefore, the image data is received by the mediation unit 224 of the widget manager 22.

  The subsequent processing is the same as in FIG.

  As described above, according to the fourth embodiment, the same effect as that of the third embodiment can be obtained with respect to the image data recorded in the auxiliary storage device 102. That is, the image data recorded in the auxiliary storage device 102 can be processed by the scan widget 21 without modifying the implementation of the widget manager 22.

  As mentioned above, although the Example of this invention was explained in full detail, this invention is not limited to such specific embodiment, In the range of the summary of this invention described in the claim, various deformation | transformation・ Change is possible.

DESCRIPTION OF SYMBOLS 1 Information processing system 10 Image forming apparatus 11 Controller 12 Scanner 13 Printer 14 Modem 15 Operation panel 16 Network interface 17 SD card slot 20 User terminal 21a Scan widget 21b Scan distribution widget 21c Scan translation widget 21d Print widget 21e Image input widget 21f Local image Input widget 22 Widget manager 25 OS
80 SD card 111 CPU
112 RAM
113 ROM
114 HDD
121 Standard application 122 SDK application 123 SDK platform 124 Control service 125 OS
131 User Detection Unit 132 UI Control Unit 133 Widget Information Acquisition Unit 134 Widget Cooperation Unit 135 Function Control Unit 136 User Management Table 200 Drive Device 201 Recording Medium 202 Auxiliary Storage Device 203 Memory Device 204 CPU
205 Interface device 206 Display device 207 Input device 211 Widget UI unit 212 Widget information transmission unit 213 Cooperation unit 214 Logic unit 215 Attribute information management file 221 Widget information registration unit 222 Advertising unit 223 Widget information provision unit 224 Mediation unit 225 Image input control unit 226 Image transfer unit 227 Widget information management table 1211 Scan application 1212 Print application 1213 Copy application 1214 FAX application 1221 Provider application

JP 2009-070386 A

Claims (17)

Receiving means for receiving images data via the network,
A first connection means for connecting to the image forming apparatus for transmitting scanned image data via the network;
A second connection means for connecting the device for transmitting the image data recorded in the storage means with the network;
Executing means for executing data processing against the received image data by said receiving means,
In a state where the image data to which the execution unit is received by the receiving unit is waiting to be transferred, images data transmitted from any of the image forming apparatus and the device is received by said receiving means If that, the transfer means to transfer the received image data to the execution unit,
Have
The execution means, the information processing apparatus for executing the data processing in pairs to the transferred images data from said transfer means. A plurality of execution means for executing different data processing,
Said transfer means, an information processing apparatus according to claim 1, the received image data is transferred to one of a plurality of said execution means. Transfer the transfer means, the images data transmitted from the device is received by said receiving means, among a plurality of said execution means, a particular said execution means prerecorded as a transfer destination, the image data The information processing apparatus according to claim 2. Said transfer means, the images data transmitted from the device is received by said receiving means, on the basis of the data format of the image data to identify the execution means of the transfer destination from the plurality of execution means, The information processing apparatus according to claim 2, wherein the image data is transferred to the specified execution unit. Said transfer means, the images data transmitted from the device is received by said receiving means, based on the content of the data processing the data format and the execution unit of the image data is performed, a plurality of the The information processing apparatus according to claim 2, wherein the execution unit as a transfer destination is specified from an execution unit, and the image data is transferred to the specified execution unit. It said transfer means, the images data transmitted from the device is received by said receiving means, based on the content of the data processing type and said execution means of the device that transmitted the image data to be executed The information processing apparatus according to claim 2, wherein the execution means as a transfer destination is specified from a plurality of execution means, and the image data is transferred to the specified execution means. Said transfer means, the images data transmitted from the device is received by said receiving means, based on the correspondence information that associates a type with the execution unit of the device, a plurality of said execution means, said The information processing apparatus according to claim 2, wherein the execution unit associated with the type of the device that transmitted the image data is specified, and the image data is transferred to the specified execution unit. Said transfer means, when the pre-images data transmitted from the device is received by the receiving unit, the data size or number of pixels of the image data, based on the correspondence information that associates said execution means, a plurality of said execution means, an information processing apparatus according to claim 2, identifies the execution unit stick corresponding to the data size or number of pixels of the image data, and transfers the image data to the identified said execution means. 9. The execution unit according to claim 1, wherein when the execution request for the data processing by the execution unit is registered in response to a user operation, the execution unit starts waiting for transfer of image data by the transfer unit. The information processing apparatus described in 1.   The information processing apparatus according to claim 1, wherein the data processing includes at least one of distribution processing of the received image data and translation processing of the received image data.   The information processing apparatus according to claim 1, wherein the device includes at least one of a digital camera, a USB device, and a mobile device.   The information processing apparatus according to claim 1, wherein the second connection unit is connected to the device via a wireless communication via the network.   The information processing apparatus according to claim 1, wherein the second connection unit is connected to the device via a wired communication via the network.   The information processing apparatus according to claim 12, wherein the second connection unit is connected to the device via the network using a Bluetooth communication method.   The information processing apparatus according to claim 13, wherein the second connection unit makes a USB connection with the device via the network. Information processing device
A receiving step of receiving the images data via the network,
A first connection procedure for connecting via the network to an image forming apparatus that transmits scanned image data;
A second connection procedure for connecting to the device that transmits the image data recorded in the storage means via the network;
And execution procedure to perform the data processing against the received image data in the receiving procedure,
In a state where the image data to which the execution procedure is received in the receiving procedure is waiting to be transferred, images data transmitted from any of the image forming apparatus and the device is received at the receiving procedure If that, the transfer procedure to transfer the received image data in the execution procedure,
Run
The execution procedure, an information processing method for executing the data processing in pairs on the image data transferred from the transfer procedure. In the information processing device,
A receiving step of receiving the images data via the network,
A first connection procedure for connecting via the network to an image forming apparatus that transmits scanned image data;
A second connection procedure for connecting to the device that transmits the image data recorded in the storage means via the network;
And execution procedure to perform the data processing against the received image data in the receiving procedure,
In a state where the image data to which the execution procedure is received in the receiving procedure is waiting to be transferred, images data transmitted from any of the image forming apparatus and the device is received at the receiving procedure If that, the transfer procedure to transfer the received image data in the execution procedure,
And execute
The execution procedure is a program for executing the data processing in pairs on the image data transferred from the transfer procedure.

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