JP2006031684A - Information processing device and computer executable program for operating computer as information processing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information processing device that makes a distributing device distribute data only by the specification of a distribution instruction by a user, and a computer executable program for operating a computer as an information processing device. <P>SOLUTION: The information processing device can be connected to the distributing device that distributes data through a network, and comprises a distribution instruction means that instructs the distributing device capable of obtaining the data to carry out distribution processing by specifying the distribution instruction corresponding to the data to be distributed. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention provides an information processing apparatus that allows a distribution apparatus to distribute data only by a user specifying a distribution instruction, and a computer-executable program that causes a computer to function as the information processing apparatus.

  When using a printer function of an image forming apparatus from a client PC (Personal Computer) connected to the image forming apparatus via a network, after specifying a document to be printed and setting a desired printing processing method (option), The desired printing is performed by executing the printing process.

  The printer function is effective by issuing a ticket indicating the right of use to the client PC user so that print instructions are not concentrated on a predetermined image forming apparatus (for example, a printer apparatus) on the network. (For example, Patent Document 1).

  Further, by using a ticket that designates an area to be printed via a network, a document to be printed can be printed at a printing station closest to the area to be printed (for example, Patent Document 2). ).

  Furthermore, by using a user authentication ticket, it has become possible to perform control so that information can be received from a server device on the network (for example, Patent Document 3).

With the technology as described above, processing instructions from a plurality of client PCs made via a network can be controlled under predetermined conditions.
JP 2001-117737 A JP 2002-244936 A JP 2003-330896 A

  In recent years, image forming apparatuses connectable to a network have been developed so that image data can be distributed by various image forming processes and various communication means.

  However, in the above-described prior art, such an image forming apparatus does not have a function of managing options set by the user in association with a document to be processed. Therefore, the user needs to set options for the degree of processing. there were.

  For example, an option for distributing a document (image data) that has been read or received via a network by fax transmission using a fax function is set by the user, and after the FAX transmission is executed, the document is processed into an image forming apparatus. When an e-mail (hereinafter simply referred to as mail) function is used for delivery by mail transmission, the user must set an option for sending mail separately and instruct the image forming apparatus to send the mail.

  Even when the same document is used to send an e-mail using the option setting (delivery instruction) at the time of FAX transmission, the user has to set the option again from the beginning.

  Accordingly, an object of the present invention is to provide an information processing apparatus that allows a distribution apparatus to distribute data only by a user specifying a distribution instruction, and a computer-executable program that causes a computer to function as the information processing apparatus. That is.

  In order to solve the above problems, the present invention provides an information processing apparatus that can be connected to a document distribution apparatus that distributes a document via a network, and corresponds to the document to be distributed. By specifying a distribution instruction, the apparatus is configured to have a distribution instruction means for instructing a distribution process to a document distribution apparatus capable of acquiring the document.

  In such an information processing apparatus, the user can cause the distribution apparatus to perform data distribution only by specifying a distribution instruction without setting options for distribution processing. By configuring the distribution target data (document) to be associated with the distribution instruction, the user can cause the distribution apparatus to perform data distribution simply by instructing the desired data (document).

  Furthermore, the present invention may be a computer-executable program that causes a computer to function as the information processing apparatus.

  In the information processing apparatus according to the present invention, the user can cause the distribution apparatus to perform data distribution only by specifying a distribution instruction. Since only the distribution instruction is specified, the distribution instruction can be reused.

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

  The client PC 10 in this embodiment has, for example, a hardware configuration as shown in FIG. FIG. 1 is a block diagram illustrating a hardware configuration of a client PC.

  1, a client PC 10 is a terminal controlled by a computer, and includes a CPU (Central Processing Unit) 51, a memory unit 52, a display unit 53, an output unit 54, an input unit 55, and a communication unit 56. And a storage device 57 and a driver 58 and connected to the system bus B.

  The CPU 51 controls the client PC 10 according to a program stored in the memory unit 52. The memory unit 52 includes a RAM (Random Access Memory), a ROM (Read-Only Memory), and the like, and is obtained by a program executed by the CPU 51, data necessary for processing by the CPU 51, and processing by the CPU 51. Stored data. Further, a partial area of the memory unit 52 is allocated as a work area used for processing by the CPU 51.

  The display unit 53 displays various information required under the control of the CPU 51. The output unit 54 has a printer or the like, and is used for outputting various types of information in accordance with instructions from the user. The input unit 55 includes a mouse, a keyboard, and the like, and is used by a user to input various information necessary for the client PC 10 to perform processing. The communication unit 56 is a device for controlling communication with another device when the client PC 10 is connected to the other device via, for example, the Internet or a LAN (Local Area Network). The storage device 57 is composed of, for example, a hard disk unit, and stores data such as programs for executing various processes.

  A program that realizes processing performed by the client PC 10 is provided to the client PC 10 by a storage medium 59 such as a CD-ROM (Compact Disc Read-Only Memory). That is, when the storage medium 59 storing the program is set in the driver 58, the driver 58 reads the program from the storage medium 59, and the read program is installed in the storage device 57 via the system bus B. . When the program is activated, the CPU 51 starts its processing according to the program installed in the storage device 57. The medium for storing the program is not limited to a CD-ROM, and any medium that can be read by a computer may be used. The program for realizing the processing according to the present invention may be downloaded via the network by the communication unit 56 and installed in the storage device 57.

  The outline of the distribution process that enables distribution only by specifying the distribution instruction will be described below with reference to FIG. FIG. 2 is a block diagram showing a first network configuration that can be distributed only by specifying a distribution instruction. In FIG. 2, a client PC (Personal Computer) 10 is connected to the MFP 1200 and the repository device 20 via a network 15. The client PC 10 as a computer terminal, the MFP 1200 that distributes a document specified by a distribution instruction, and the repository apparatus 20 having a repository service execution unit 1410 as a server computer are controlled by HTTP.

  The multi-functional apparatus 1200 is an image forming apparatus having various image forming functions including a FAX function, and includes a distribution service execution unit 1400 for distributing text, an FCU (FAX Control Unit) 1320, and a NIC (Network Interface Card). 1311 and a control service 1250 that controls a distribution engine unit 1360 such as a USB (Universal Serial Bus) 1316 to perform distribution processing for distributing a document. The FCU 1320 realizes a FAX function, the NIC 1311 controls network communication, and the USB 1316 controls transmission / reception of large-capacity image data. The MFP 1200 may have an image forming function such as a printer function and a printing function.

  The repository device 20 issues a ticket for using the image data 30 by the repository service execution unit 1410 that stores and manages the image data 30 and the file information 31 related to the image data, and the image data based on the issued ticket. This is a server computer that provides the use of the image data as a Web service by permitting the use of 30.

  Further, when the client PC 10 requests a Web service by SOAP, the multi-functional apparatus 1200 and the repository device 20 provide the respective Web services by SOAP. When the client PC 10 requests a Web service using a Web browser, the MFP 1200 and the repository device 20 provide their Web services using HTML (Hypertext Transfer Markup Language).

  The client PC 10 obtains a ticket for using the desired image data 30 from the repository service execution unit 1410 of the repository apparatus 20 (step S1), and delivers the ticket to the distribution service execution unit 1400 of the MFP 1200 for distribution. The creation of the instruction sheet 32 is requested (step S2). The distribution service execution unit 1400 requests the document service ID and the file information 31 from the repository service execution unit 1410 using the ticket received from the client PC 10 (step S3).

  In the repository apparatus 20, the repository service execution unit 1410 confirms that the ticket received in step S3 is issued in step S1, and then sends the document ID and the file information 31 to the distribution service execution unit 1400 of the MFP 1200. Provide (step S4). The distribution service execution unit 1400 creates the distribution instruction 32 by notifying the control service 1250 of the document ID and the file information 31 acquired from the repository service execution unit 1410.

  In the file information 31, the distribution conditions at the time of accumulation are set. Using the control service 1250, the distribution service execution unit 1400 converts the file information 31 to generate distribution information 33, and generates a distribution instruction 32 in which the document identifier (document ID) and the distribution mode 33 are set. To do. Then, the distribution service execution unit 1400 notifies the client PC 10 of a distribution instruction ID that identifies the generated distribution instruction 32.

  The client PC 10 designates the distribution instruction sheet 32 using the distribution instruction sheet ID received from the distribution service execution unit 1400 and issues a distribution instruction to the distribution service execution unit 1400 (step S5). The distribution service execution unit 1400 identifies the distribution instruction sheet 32 by the distribution instruction sheet ID, and notifies the control service 1250 of the document ID and distribution mode set in the distribution instruction sheet 32 (step S6).

  The control service 1250 acquires the image data 30 from the repository service execution unit 1410 of the repository apparatus 20 based on the document ID notified from the distribution service execution unit 1400 and the distribution mode 33 (step S7). In accordance with No. 33, a distribution process for distributing the image data 30 is executed (step S8). That is, the control service 1250 controls the distribution engine unit 1360 (FCU 1320, NIC 1311, USB 1316, etc.) to distribute the image data 30.

  The first distribution process when the distribution option on the client PC 10 side is not changed will be described with reference to FIG. FIG. 3 is a flowchart for explaining the first distribution process when the distribution option is not changed.

  In FIG. 3, the client PC 10 acquires a document ID list from the repository service execution unit 1410 of the repository apparatus 20 by a user operation for displaying an accumulated document (step S31). Then, based on the document ID list, the document IDs are read in order, and thumbnails corresponding to the respective document IDs are acquired from the repository service execution unit 1410 (step S32). It is determined whether thumbnails of all the documents shown in the document ID list have been acquired (step S33). If thumbnails of all documents have been acquired, the process proceeds to step S34. On the other hand, if thumbnails of all documents have not been acquired, the process returns to step S32.

  After obtaining the thumbnails of all the documents, the stored document list screen showing the accumulated documents by the thumbnails obtained from the repository service execution unit 1410 is displayed on the display unit 53 (step S34).

  The client PC 10 determines whether or not a desired document has been selected by the user and whether or not to distribute the document has been selected (step S35). When the distribution is not selected, the stored document list screen is displayed on the display unit 53 as it is, and an operation by the user is awaited.

  On the other hand, when distribution is selected, the client PC 10 transmits a command startSession via the network 15 to establish a session with the distribution service execution unit 1400 of the MFP 1200, and sets the document ID of the document selected by the user. The ticket is acquired from the repository service execution unit 1410 of the repository apparatus 20 (step S36). After the session is established, the client PC 10 transmits the command createJobInstruction, passes the ticket acquired from the repository service execution unit 1410 of the repository apparatus 20 to the distribution service execution unit 1400, and requests creation of the distribution instruction 32 ( Step S37).

  The client PC 10 displays a screen for confirming delivery on the display unit 53. Then, it is determined whether or not an OK button indicating a distribution instruction by the user has been pressed on the screen (step S38).

  If OK is not pressed, it is determined whether or not cancel is pressed (step S39). If cancel is not pressed, the process returns to step S38 and waits for an operation by the user. On the other hand, if cancel is pressed, the command endSession is transmitted to end the session with the MFP 1200 (step S40), and the process returns to step S34.

  On the other hand, if it is determined in step S38 that OK has been pressed, the command createJob is transmitted to instruct delivery execution (step S41). Then, the client PC 10 transmits a command endSession and ends the session with the MFP 1200 (step S42).

  2 and 3, the case has been described where the already stored distribution instruction 32 is reused without any change. However, the case where the distribution instruction 32 already stored is changed and distributed is illustrated in FIG. To FIG.

  FIG. 4 is a diagram for explaining the outline of the second distribution process when the distribution option is changed. In FIG. 4, the client PC 10 acquires a ticket for using the desired image data 30 from the repository service execution unit 1410 of the repository apparatus 20 (step S <b> 21), and uses the ticket as the distribution service execution unit 1400 of the MFP 1200. To the distribution request 32 (step S22). The distribution service execution unit 1400 requests the document service ID and the file information 31 from the repository service execution unit 1410 based on the ticket received from the client PC 10 (step S23).

  In the repository apparatus 20, the repository service execution unit 1410 confirms that the ticket received in step S23 is issued in step S21, and then sends the document ID and the file information 31 to the distribution service execution unit 1400 of the MFP 1200. Provide (step S24). In the file information 31, the distribution conditions at the time of accumulation are set. Using the control service 1250, the distribution service execution unit 1400 converts the file information 31 to create a distribution mode 33, and generates a distribution instruction 32 in which the document ID and the distribution mode 33 are set.

  The client PC 10 acquires a property indicating the content of the distribution instruction document 32 from the distribution service execution unit 1400 of the multi-function apparatus 1200 (step S25). The client PC 10 instructs the distribution service execution unit 1400 to change to the property value changed by the user (step S26), and further specifies the distribution instruction 32 and sends the distribution instruction to the distribution service execution unit of the MFP 1200. 1400 is performed (step S27). The distribution service execution unit 1400 notifies the control service 1250 of the document ID and the distribution mode 33 based on the distribution instruction document 32 in which the property value is changed (step S28).

  The control service 1250 acquires the image data 30 from the repository service execution unit 1410 of the repository apparatus 20 based on the document ID notified from the distribution service execution unit 1400 (step S29), and the image data according to the distribution mode 33. 30 is executed (step S30). That is, the control service 1250 controls the distribution engine unit 1360 (FCU 1320, NIC 1311, USB 1316, etc.) to distribute the image data 30.

  In step S28 of the second distribution process described above, the distribution service execution unit 1400 may change the file information 32 based on the distribution instruction sheet 32 in which the property value has been changed. By such processing, the file information 32 is managed in the latest state by the repository service execution unit 1410.

  Next, FIG. 5 illustrates a distribution process when the client PC 10 side changes distribution options such as changing a distribution partner and changing a distribution type. FIG. 5 is a flowchart for explaining the second distribution process when the distribution option is changed.

  In FIG. 5, the client PC 10 acquires a document ID list from the repository service execution unit 1410 of the repository device 20 by a user operation for displaying an accumulated document (step S <b> 31). Then, based on the document ID list, the document IDs are read in order, and thumbnails corresponding to the respective document IDs are acquired from the repository service execution unit 1410 (step S32). It is determined whether thumbnails of all the documents shown in the document ID list have been acquired (step S33). If thumbnails of all documents have been acquired, the process proceeds to step S34. On the other hand, if thumbnails of all documents have not been acquired, the process returns to step S32.

  After obtaining the thumbnails of all the documents, the stored document list screen showing the accumulated documents by the thumbnails obtained from the repository service execution unit 1410 is displayed on the display unit 53 (step S34).

  The client PC 10 determines whether or not a desired document has been selected by the user and whether or not to change the delivery property of the document has been selected (step S35-2). When the change of the distribution property is not selected, the stored document list screen is displayed on the display unit 53 as it is, and the operation by the user is awaited.

  On the other hand, when the distribution property change is selected, the client PC 10 transmits a command startSession via the network 15 to establish a session with the distribution service execution unit 1400 of the multi-function apparatus 1200, and the document selected by the user. The document ID is transmitted, and a ticket is acquired from the repository service execution unit 1410 of the repository device 20 (step S36). After the session is established, the client PC 10 transmits the command createJobInstruction, passes the ticket acquired from the repository service execution unit 1410 of the repository apparatus 20 to the distribution service execution unit 1400, and requests creation of the distribution instruction 32 ( Step S37).

  Further, a command getJobInstruction is transmitted to the distribution service execution unit 1400, and a property indicating the content of the distribution instruction sheet 32 is acquired from the repository service execution unit 1410 (step S37-2).

  The client PC 10 displays a distribution option setting screen on the display unit 53 based on the property indicating the content of the distribution instruction 32 acquired from the repository service execution unit 1410 (step S37-4).

  The user sets the change of the delivery option on the delivery option setting screen displayed on the display unit 53. Thereafter, the client PC 10 displays a screen for confirming distribution on the display unit 53. It is determined whether or not an OK button indicating a distribution instruction by the user has been pressed on the screen (step S38).

  If OK is not pressed, it is determined whether or not cancel is pressed (step S39). If cancel is not pressed, the process returns to step S38 and waits for an operation by the user. On the other hand, if cancel is pressed, the client PC 10 transmits a command endSession to end the session with the MFP 1200 (step S40), and returns to step S34.

  FIG. 6 is a diagram illustrating a command flow in the second distribution process when the distribution option is changed. In FIG. 6, when the client PC 10 transmits a command startSession () to the repository service execution unit 1410 (step S201), the repository service execution unit 1410 responds with a session ID (step S202). A session is established between the client PC 10 and the repository service execution unit 1410.

  When the session is established, the client PC 10 transmits a command getTicket (session ID, document ID) to the repository service execution unit 1410 in order to acquire a ticket for using the document (step S203). The repository service execution unit 1410 issues a ticket ID corresponding to the session ID and document ID, and responds with the ticket ID (step S204).

  Next, the client PC 10 transmits a command startSession () to the distribution service execution unit 1400 (step S205), and the distribution service execution unit 1400 responds to the client PC 10 with a session ID (step S206). A session is established between the client PC 10 and the distribution service execution unit 1400.

  When the session is established, the client PC 10 transmits a command createJobInstruction (session ID, ticket ID) to request the distribution service execution unit 1400 to create the distribution instruction 32 (step S207).

  When receiving the request for creating the delivery instruction document 32 from the client PC 10, the delivery service execution unit 1400 transmits a command getDocIdByTicket (ticket ID) to the repository service execution unit 1410 (step S208), and the repository service execution unit 1410 A response is made with the document ID (step S209). Subsequently, the distribution service execution unit 1400 transmits a command getDocInfo (document ID) to the repository service execution unit 1410 (step S210), and the repository service execution unit 1410 responds with the file information 31 (step S211).

  Then, the distribution service execution unit 1400 transmits a command getDeliveryMode (document ID, file information 31) to the control service 1250 (step S212), and the control service 1250 responds with the distribution mode 33 (step S213). The distribution mode 33 indicates information unique to the distribution device.

  The distribution service execution unit 1400 creates the distribution instruction 32 based on the distribution mode 33 acquired from the control service 1250, and sets the distribution instruction ID for identifying the distribution instruction 32 to the command createJobInstruction from the client PC 10 in step 207. As a response to the client PC 10 (step S214).

  When the setting of the distribution mode 33 cannot be realized with the current device, the distribution service execution unit 1400 determines whether the distribution mode 33 can be distributed if it is omitted and what should not be omitted. Whether or not this omission is permitted depends on an instruction from the client PC 10. In the case of setting to allow omission, the delivery instruction sheet 32 is created by omitting what can be omitted, and in the case of setting not to allow omission, an error is returned to the client PC 10 without creating the distribution instruction sheet 32. The delivery mode that can be omitted and the delivery mode that cannot be omitted (that is, delivery options) will be described later.

  Upon receiving the distribution instruction ID, the client PC 10 transmits a command getJobInstruction (session ID, distribution instruction ID) to the distribution service execution unit 1400 to request the property of the distribution instruction 32 (step S215). The distribution service execution unit 1400 responds to the client PC 10 with the property of the distribution instruction sheet 32 corresponding to the distribution instruction sheet ID (step S216).

  The client PC 10 sends a command to the distribution service execution unit 1400 in order to change the property of the distribution instruction 32 stored in the distribution service execution unit 1400 according to the property of the distribution instruction 32 changed by the setting of the user's distribution option. setJobInstruction (session ID, distribution instruction ID, property of distribution instruction 32) is transmitted (step S217). The distribution service execution unit 1400 creates a distribution mode 33 for notifying the control service 1250 based on the properties of the distribution instruction 32 specified by the received command setJobInstruction.

  Then, the distribution service execution unit 1400 transmits a command checkDeliveryMode (document ID, distribution mode 33) to the control service 1250 (step S218), and the control service 1250 performs distribution processing according to the distribution mode 33 specified in the command checkDeliveryMode. Is determined, and the determination result “OK (processing is possible)” or “NOT (processing is not possible)” is transmitted as a response to the distribution service execution unit 1400 (step S219).

  The distribution service execution unit 1400 transmits the determination result “OK (processable)” or “NOT (processable)” notified from the control service 1250 as a response to the command setJobInstruction in step S217 (step S220).

  The client PC 10 instructs the distribution service execution unit 1400 to execute the command createJob (session ID, distribution) only when the response to the command setJobInstruction indicates “OK (processable)”. (Instruction document ID) is transmitted (step S221).

  Upon receiving the command createJob, the distribution service execution unit 1400 transmits a command entryJob (document ID, distribution mode 33) to the control service 1250 to instruct execution of the distribution job (step S222).

  The control service 1250 acquires the image data 30 from the repository service execution unit 1400 using the document ID specified by the command entryJob, controls the image engine unit 1360 according to the distribution mode 33, and distributes the acquired image data 30 Let The control service 1250 transmits the processing result “OK (processing completed)” or “NOT (processing error)” to the distribution service execution unit 1400 as a response (step S223).

  The distribution service execution unit 1400 transmits the processing result “OK (processing completed)” or “NOT (processing error)” notified from the control service 1250 as a response to the command createJob in step S221 (step S224).

  The client PC 10 transmits a command endSession (session ID) to the distribution service execution unit 1400 only when the response to the command createJob indicates “OK (processing completed)”, and establishes a session with the distribution service execution unit 1400. Release (step S225).

  As described above, for example, it is possible to reuse the distribution instruction 32 such as changing the distribution instruction 32 created at the time of FAX transmission to mail transmission.

  Here, a description example of the document ID list provided from the repository service execution unit 1410 to the client PC 10 in step S31 will be described with reference to FIG. FIG. 7 is a diagram illustrating a description example of the document ID list.

  In FIG. 7, a document ID list description 36 is described in XML (eXtensible Markup Language), for example, and describes that a list of document IDs is indicated by a tag <fileList>. A document ID is 1 by a tag <fileID>. Shown one by one. The document ID list description 36 indicates a document ID “10”, a document ID “11”, a document ID “12”, and the like.

  The description included in the request for acquiring the thumbnail transmitted from the client PC 10 to the repository service execution unit 1410 in step S32 will be described with reference to FIG. FIG. 8 is a diagram illustrating a description example for acquiring thumbnails.

  In FIG. 8, a description 37 for obtaining a thumbnail is described in XML, for example, and describes that the document ID of the requested thumbnail is indicated by the tag <getThumbnail>, and the document ID is specified by the tag <fileID>. The The description 37 for obtaining a thumbnail indicates that a thumbnail of the document specified by the document ID “10” is requested.

  The data structure of the properties of the distribution instruction document 32 provided from the distribution service execution unit 1400 to the client PC 10 will be described with reference to FIG. In FIG. 9, a description example of the properties of the delivery instruction sheet 32 will be described using FAX transmission as an example. FIG. 9 is a diagram illustrating a description example of properties of a delivery instruction sheet in which FAX is specified.

  In FIG. 9A, the distribution service execution unit 1400 generates and manages the property of the distribution instruction 32 specifying FAX using XML (eXtensible Markup Language), and the property 32b of the distribution instruction 32 specifying FAX is , Delivery type (<deliveryProperty>), line type (<lineType>), delivery destination (<address>), distributor (<senderName>), time specification (<timeLater>), subject (<subject>), image format (<ImageFormat>), an image compression method (<imageCompression>), and a property storage necessity or unnecessary (<saveProperty>). In this case, the delivery instruction sheet 32 has only the property 32b and does not include the document ID.

  In the description example shown in FIG. 9A, the distribution type “FAX”, the line type “G3”, the distribution destination “03-3210-9876”, the distributor “suzuki”, and the time designation “2004-02-16T12: 01: 00 (February 16, 2004, 12:01:00) ”, the subject“ appointment ”, the image format“ tiff ”, the image compression method“ MH ”, and the property storage required or unnecessary“ true (required) ”are indicated. .

  In FIG. 9B, the distribution service execution unit 1400 creates the distribution instruction 32 including the property 32b of the distribution instruction 32 shown in FIG. 9A and the description 32a indicating the document ID. The description 32a indicating the document ID is indicated as "<document> http: //machineName.folderName.fileName1 </ document>", for example.

  In FIG. 9, the properties of the delivery instruction sheet 32 specifying FAX transmission have been described. However, the properties of the distribution instruction sheet 32 specifying mail transmission, FTP transmission, and distribution server transmission are shown in FIGS. Explain each one.

  FIG. 10 is a diagram illustrating a description example of the property of the delivery instruction that specifies mail transmission. In FIG. 10, the property 32b-1 of the delivery instruction 32 designating mail transmission includes, for example, a delivery type “Mail”, a line type “LAN”, a delivery destination “abc@aaa.org”, a deliverer “suzuki”, Time designation “2004-02-16T12: 01: 00 (February 16, 2004 12:11:00)”, subject “appointment”, image format “tiff”, image compression method “MH”, property storage required Or, it is described in XML such as unnecessary “true (required)”.

  Similarly to the case where FAX transmission is designated, the distribution service execution unit 1400 displays the distribution instruction 32 including the property 32b-1 of the distribution instruction 32 shown in FIG. 10 and the description 32a indicating the document ID. create.

  FIG. 11 is a diagram illustrating a description example of properties of a delivery instruction sheet in which FTP transmission is designated. In FIG. 11, the property 32b-2 of the delivery instruction sheet 32 that designates FTP transmission includes, for example, a delivery type “FTP”, a line type “LAN”, a delivery destination “111.112.113.14/foo/bar”, Distributor “suzuki”, time designation “2004-02-16T12: 01: 00 (February 16, 2004 12:11:00)”, subject “appointment”, image format “tiff”, image compression method “MH” ", Property storage required or unnecessary" true (required) "is described in XML.

  Similarly to the case where FAX transmission is designated, the distribution service execution unit 1400 displays the distribution instruction 32 including the property 32b-2 of the distribution instruction 32 shown in FIG. 11 and the description 32a indicating the document ID. create.

  FIG. 12 is a diagram illustrating a description example of the properties of the distribution instruction that designates distribution server transmission. In FIG. 12, the property 32b-3 of the delivery instruction 32 that designates delivery server transmission includes, for example, the delivery type “deliveryServer”, the line type “LAN”, and the delivery destination “111.112.113.14/foo/bar”. , Distributor “suzuki”, time designation “2004-02-16T12: 01: 00 (February 16, 2004 12:11:00)”, subject “appointment”, image format “tiff”, image compression method “ It is described in XML such as “MH”, property saving necessity or unnecessary “true (required)”.

  Similar to the case where FAX transmission is designated, the distribution service execution unit 1400 displays the distribution instruction 32 including the property 32b-3 of the distribution instruction 32 shown in FIG. 11 and the description 32a indicating the document ID. create.

  In the property description example described above, properties that are commonly used in any distribution type are shown. However, in practice, an element unique to the distribution type may be added and set. In that case, when the distribution instruction document 32 to which an element specific to the distribution type is added is reused in another distribution type, the specific element may be added unnecessarily. Even if the distribution type is the same, even when a property difference occurs between function levels due to function upgrades, etc., when the distribution instruction 32 is reused between different function levels, the function level is set to the same level. There may be cases where unique elements are included unnecessarily.

  When such a unique element is necessary, the value is referred to, and when it is not necessary, it is ignored, so that in any case, the distribution instruction 32 is processed normally.

  A description example of a property to which an element specific to the distribution type is added will be described with reference to FIG. A description example of the property when the property including the unique element shown in FIG. 13 is reused in another distribution type will be described with reference to FIG. The unique element is indicated by a tag name described in XML, as described above.

  FIG. 13 is a diagram showing a description example of properties of a delivery instruction sheet to which an element specific to FTP is added when the delivery type is FTP. In FIG. 13, the property 32b-4 of the distribution instruction 32 specifying FTP is, for example, a distribution type “FTP”, a line type “LAN”, a distribution destination “111.112.113.14”, and a distributor “suzuki”. , Time designation “2004-02-16T12: 01: 00 (February 16, 2004 12:11:00)”, subject “appointment”, image format “tiff”, image compression method “MH”, property storage A description 32f (“<senderPassword> 012345 </ senderPassword>”) indicating an element unique to FTP is added in addition to the description of XML that can be used in common or unnecessary “true (required)”.

  When the description 32f indicating an element specific to FTP is added as described above, for example, when setting of an element specific to FTP is requested when the delivery instruction sheet 32 is first created, the description 32f is shown in FIG. When the property 32b-2 is reused, if the setting of a unique element is requested due to the difference in function level, the property 32b specifying FAX (FIG. 9A), the property 32b specifying mail transmission -1 (FIG. 10), or when a unique element setting is requested due to a difference in function level when the property 32b-3 (FIG. 12) specifying the distribution server is reused.

  Further, after the distribution instruction 32 indicating such a property 32b-4 is created and the user designates a different distribution type FAX by reusing the distribution instruction 32, for example, as shown in FIG. A distribution instruction 32 indicating properties is created.

  FIG. 14 is a diagram illustrating a description example of properties of a delivery instruction sheet including elements specific to FTP when the delivery type is FAX. In FIG. 14, the property 32b-5 of the delivery instruction sheet 32 specifying FAX includes, for example, the delivery type “FAX”, the line type “G3”, the delivery destination “03-3210-9876”, the distributor “suzuki”, the time Designation “2004-02-16T12: 15: 00 (February 16, 2004 12:15:00)”, subject “appointment”, image format “tiff”, image compression method “MH”, property storage required or A description 32f (“<senderPassword> 012345 </ senderPassword>”) indicating an element unique to FTP is included in addition to the description of the XML that can be used in common “unnecessary” (required).

  When the distribution type is different, or when the function level is different, there is a case where the user interface for setting unique elements may not be included, so that when the distribution instruction 32 is reused, it is included in the distribution instruction 32 as it is. Become. There is no need to delete unique elements or change the description format in the client PC 10.

  The distribution service execution unit 1400 performs FAX transmission, mail transmission, FTP transmission, or distribution server transmission described in XML as shown in FIG. 9A, FIG. 10, FIG. 11, FIG. 12, FIG. The specified delivery instruction property is managed in association with the image data.

  As described above, the delivery instruction document 32 described in XML is in a format that can be used in common with the delivery type, so that it can be easily reused between different delivery types. In addition, it is possible to unify the processing for the distribution instruction sheet 32. Further, the distribution instruction document 32 is allowed to include elements unique to different distribution types or different function levels. Unsupported features are ignored.

  Moreover, the description example by XML as mentioned above can also be comprised in CSV format.

  Next, candidate values set in the property item of the distribution instruction sheet 32 will be described with reference to FIG. FIG. 15 is a diagram illustrating an example of candidate values set in the property item of the distribution instruction.

  In FIG. 15, as candidate values of the property item DeliveryType indicating the distribution type, for example, FAX specifying FAX transmission, Mail specifying mail transmission, FTP specifying FTP transmission (file transfer), or a document stored as a distribution server Distribution server transmission that designates transmission of the server is shown.

  As candidate values of the property item LineType indicating the line type, for example, PSTN-G3 that specifies the G3 protocol on the PSTN (Public Switched Telephone Network) line, ISDN- that specifies the G3 protocol on the ISDN (Integrated Services Digital Network) line G4 that designates the G3 and G4 protocols, or a LAN that designates a LAN (Local Area Network) is shown.

  As candidate values of the property item ImageFormat indicating the image format, for example, TIFF that specifies TIFF (Tagged Image File Format), JFIF that specifies JPEG (JPEG File Interchange Format), or PDF that specifies PDF (Potable Document Format) Etc. are shown.

  As candidate values of the property item ImageCompression indicating the image compression method, for example, MH that specifies MH (Modified Huffman), MR that specifies MR (Modified Read), MMR that specifies MMR (Modified MR), and no compression are specified. RAW or JPEG specifying JPEG (Joint Photographic Experts Group) is shown.

  As described above, in the second distribution process, the client PC 10 transmits the changed property among the properties of the distribution instruction acquired from the distribution service execution unit 1400 to the multi-function peripheral 1200, and the distribution service execution unit 1400. The distribution instruction document 32 created in step 3 is changed. With this process, the client PC 10 can execute the distribution process only by specifying the property change part of the distribution instruction sheet 32.

  On the other hand, when the MFP 1200 executes the second distribution process with a plurality of client PCs 10, it holds the plurality of distribution instruction sheets 32 that have been created until a distribution instruction is received from each client PC 10. It will be. In order to effectively use the storage area for holding the distribution instruction 32 in the MFP 1200, it is conceivable to create the distribution instruction 32 including the property changed in each client PC 10.

  A case where the distribution instruction sheet 32 including the property changed in the client PC 10 is created will be described with reference to FIGS.

  FIG. 16 is a diagram for explaining the outline of the third distribution process when the distribution option is changed. In FIG. 16, the same parts as those in FIG. 4 are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 16, the distribution service execution unit 1400 creates the distribution instruction 32 and transmits the properties of the distribution instruction 32 to the client PC 10 and deletes the distribution instruction 32 created from the storage area.

  On the other hand, the client PC 10 changes the property of the distribution instruction 32 acquired in step S25, and creates the print instruction 32 in which all the property values including the changed property value are set (step S26-). 4). Then, the client PC 10 issues a distribution instruction to the distribution service execution unit 1400 by transmitting the generated distribution instruction sheet 32 (step S27-4). The distribution service execution unit 1400 notifies the control service 1250 of the document ID and the distribution mode 33 based on the distribution instruction document 32 received from the client PC 10 (step S28). The subsequent processing is the same as that described in FIG.

Next, for example, the distribution processing when the distribution option such as the subject is changed on the client PC 10 side will be described with reference to FIG. FIG. 17 is a flowchart for explaining a third distribution process when the distribution option is changed. In FIG. 17, the same steps as those in FIG. 5 are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 17, step S51 of FIG. 5 is replaced with step S51-2. In step S51-2, the client PC 10 changes the property value of the acquired delivery instruction 32 according to the change of the delivery option of the user, and the delivery in which all the property values including the changed property value are set. The instruction sheet 32 is created (step S51-2). Then, the client PC 10 transmits the command createJob, and instructs the distribution service execution unit 1400 to execute distribution (step S52). The subsequent processing is the same as the description of FIG.

  FIG. 18 is a diagram illustrating a command flow in the third distribution process when the distribution option is changed. In FIG. 18, the same steps as those in FIG. 6 are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 18, the distribution service execution unit 1400 transmits a distribution instruction ID for identifying the distribution instruction 32 created and stored in a predetermined storage area to the client PC 10 as a response to the command createJobInstruction from the client PC 10 (step S214). When receiving the command getJobInstruction (session ID, distribution instruction ID) from the client PC 10 (step S215-2), the distribution service execution unit 1400 uses the property of the distribution instruction 32 including the document ID corresponding to the distribution instruction ID. In response to the client PC 10, the distribution instruction sheet 32 created by the distribution service execution unit 1400 is deleted from the predetermined storage area (step S216-2).

  The client PC 10 creates the distribution instruction 32 with the properties changed according to the user's distribution option settings, and transmits the command setJobInstruction (session ID, distribution instruction 32) to the distribution service execution unit 1400 (step S217-). 2). The distribution service execution unit 1400 generates a distribution instruction ID for identifying the received distribution instruction 32 and creates a distribution mode 33 for notifying the control service 1250 based on the distribution instruction 32.

  Then, the distribution service execution unit 1400 transmits a command checkDeliveryMode (document ID, distribution mode 33) to the control service 1250 (step S218), and the control service 1250 performs distribution processing according to the distribution mode 33 specified in the command checkDeliveryMode. Is determined, and the determination result “OK (processing is possible)” or “NOT (processing is not possible)” is transmitted as a response to the distribution service execution unit 1400 (step S219).

  When the determination result notified from the control service 1250 is “OK (processable)”, the distribution service execution unit 1400 transmits the distribution instruction ID as a response to the command setJobInstruction in step S217-2 (step S220). . When the determination result notified from the control service 1250 is “NOT (cannot be processed)”, “NOT (cannot be processed)” is transmitted as a response.

  The client PC 10 instructs the distribution service execution unit 1400 to execute the command createJob (session ID, distribution) only when the response to the command setJobInstruction indicates “OK (processable)”. (Instruction document ID) is transmitted (step S221). The subsequent processing is the same as the description of FIG.

  In the third distribution process described above, the properties of the distribution instruction sheet 32 provided from the distribution service execution unit 1400 to the client PC 10 in step S216-2 will be described with reference to FIG.

  FIG. 19 is a diagram illustrating a description example of properties of a distribution instruction provided from the distribution service execution unit in the third distribution process. In FIG. 19, the difference from the property of the distribution instruction sheet 32 in the second distribution process is that a description 32a corresponding to the document ID is added. The description 32a is described as, for example, <dosument> http: //machineName.folderName.fileName1 </ document> and <dosument> http: //machineName.folderName.fileName2 </ document>. In this case, two documents are designated. The description 32a indicates a document ID (for example, a URL (Uniform Resource Locator) indicating a location where the document is stored) for identifying one or more documents.

  In the third distribution process described above, the distribution service execution unit 1400 can effectively use the storage area for the distribution instruction sheet 32.

  Next, a delivery option that can be omitted and a delivery option that cannot be omitted will be described with reference to FIG.

  FIG. 20 is a diagram illustrating information for determining omission of a delivery option. FIG. 20A is a table showing delivery options that can be omitted. FIG. 20B is a table showing delivery options that cannot be omitted. In FIG. 20A, delivery options 5a that can be omitted include a distributor name, time designation, subject, sort / stack, image format, image compression method, and the like. Further, as shown in FIG. 20B, the distribution option 5b that cannot be omitted includes a distribution type, a selection type, a distribution destination, and the like.

  The distribution service execution unit 1400 performs an omission process on the omissible delivery option 5a and the omissible delivery option 5b based on the respective tables.

  FIG. 21 is a diagram for explaining the outline of the fourth distribution process when the distribution option is changed and the property is specified to be saved.

  In FIG. 21, a ticket for using the desired image data 30 is acquired from the repository service execution unit 1410 of the repository apparatus 20 (step S71), and the ticket is delivered to the distribution service execution unit 1400 of the MFP 1200 for distribution. The creation of the instruction sheet 32 is requested (step S72). The distribution service execution unit 1400 requests the document ID and the file information 31 from the repository service execution unit 1410 using the ticket received from the client PC 10 (step S73).

  In the repository apparatus 20, the repository service execution unit 1410 confirms that the ticket received in step S73 is issued in step S71, and then sends the document ID and the file information 31 to the distribution service execution unit 1400 of the MFP 1200. Provide (step S74). In the file information 31, the distribution conditions at the time of accumulation are set. Using the control service 1250, the distribution service execution unit 1400 converts the file information 31 to create a distribution mode 33, and generates a distribution instruction 32 in which the document ID and the distribution mode 33 are set.

  The client PC 10 acquires a property indicating the content of the distribution instruction sheet 32 from the distribution service execution unit 1400 of the multi-function apparatus 1200 (step S75). The client PC 10 instructs the distribution service execution unit 1400 to change to the property value changed by the user (step S76). At this time, the property is designated to save.

  When the property value change request for storing the property is received, the distribution service execution unit 1400 stores the changed property value in the repository service execution unit 1410 (step S77).

  In this way, the file information 31 managed by the repository service execution unit 1410 can be overwritten and saved by the changed property value.

  Processing when the property on the client PC 10 side is designated to be saved will be described with reference to FIG. FIG. 22 is a flowchart for explaining a fourth distribution process when the distribution option is changed and the property is specified to be saved. In FIG. 22, the same steps as those in FIG. 5 are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 22, step S51 of FIG. 5 is replaced with step S51-4. In step S51-4, the client PC 10 changes the value of the property of the acquired distribution instruction 32 according to the change of the distribution option of the user, transmits a command setJobInstruction in which property storage is specified, and the distribution instruction The repository service execution unit 1410 is instructed to change and save the 32 properties (step S51-4). Then, the client PC 10 transmits the command createJob, and instructs the distribution service execution unit 1400 to execute distribution (step S52). The subsequent processing is the same as the description of FIG.

  FIG. 23 is a diagram illustrating a command flow in the fourth distribution process when the distribution option is changed and the property is specified to be saved. 23, when the client PC 10 transmits the command getJobInstruction (session ID, distribution instruction ID) to the distribution service execution unit 1400 of the MFP 1200 (step S301), the distribution service execution unit 1400 A response is made according to the property (step S302).

  The client PC 10 transmits to the distribution service execution unit 1400 the command setJobInstruction (session ID, distribution instruction ID, and distribution instruction 32 properties) set to have property storage (step S303).

  When the distribution service execution unit 1400 receives the command setJobInstruction set to store properties, the distribution service execution unit 1400 transmits a command checkDeliveryMode (document ID, distribution mode 33) to the control service 1250 (step S304). The control service 1250 determines whether or not the distribution process can be performed according to the distribution mode 33 specified in the command checkDeliveryMode, and executes the distribution service in response to the determination result “OK (processable)” or “NOT (processable)”. It transmits to the part 1400 (step S305).

  The distribution service execution unit 1400 transmits the command getFileInfo (document ID, distribution mode 33) to the control service 1250 only when the determination result indicates “OK (can be processed)” (step S306). The control service 1250 extracts the distribution mode 33 from the received command getFileInfo and converts it into file information 31, and responds to the distribution service execution unit 1400 with the file information 31 (step S307).

  When the distribution service execution unit 1400 receives the file information 31 converted from the distribution mode 33 from the control service 1250, the distribution service execution unit 1400 transmits a command setDocInfo (document ID, file information 31) to the repository service execution unit 1410 (step S308). . The repository service execution unit 1410 stores the file information 31 in association with the document ID, and responds to the distribution service execution unit 1400 with the storage processing result “OK (save completion)” or “NOT (save error)” ( Step S309).

  The distribution service execution unit 1400 notifies the client PC 10 of the storage processing result “OK (storage complete)” or “NOT (storage error)” notified from the repository service execution unit 1410 as a response to step S303 (step S310).

  Next, composite distribution in which image data 30 is distributed by a series of processes according to a plurality of different distribution types will be described with reference to FIGS. FIG. 24 is a flowchart for explaining the composite distribution process. In FIG. 24, steps that are the same as those in FIG. 5 are given the same reference numerals, and descriptions thereof are omitted.

  In FIG. 24, step S52-2 is added between step S52 and step S53 of FIG. In step S52-2, the client PC 10 determines whether or not the user has specified a composite distribution for subsequent distribution. When the composite distribution is designated, the established session is not terminated and the process returns to step S37, and the above-described distribution process is repeatedly executed. On the other hand, if the composite distribution is not designated, the session with the distribution service execution unit 1400 is terminated (step S53).

  25 and 26 are diagrams illustrating a command flow of the composite distribution process. The command flow shown in FIG. 25 and FIG. 26 shows a series of processes executed continuously. Here, a description will be given by taking an example of composite distribution in which FAX transmission and mail transmission are performed by a series of processes. Further, although described in the case of performing FAX transmission and mail transmission, the composite distribution is a series of processes in which a plurality of FAX transmission, mail transmission, FTP transmission, and distribution server transmission are combined. The processing order is arbitrary and is not limited.

  In FIG. 25, when the client PC 10 transmits a command startSession () to the repository service execution unit 1410 (step S701), the repository service execution unit 1410 responds with a session ID (step S702). A session is established between the client PC 10 and the repository service execution unit 1410.

  When the session is established, the client PC 10 transmits a command getTicket (session ID, document ID) to the repository service execution unit 1410 in order to acquire a ticket for using the document (step S703). The repository service execution unit 1410 issues a ticket ID corresponding to the session ID and the document ID, and responds with the ticket ID (step S704).

  Next, the client PC 10 transmits a command startSession () to the distribution service execution unit 1400 (step S705), and the distribution service execution unit 1400 responds to the client PC 10 with a session ID (step S706). A session is established between the client PC 10 and the distribution service execution unit 1400.

  When the session is established, the client PC 10 transmits a command createJobInstruction (session ID, ticket ID), and requests the distribution service execution unit 1400 to create the distribution instruction 32 (step S707).

  When receiving the request for creating the delivery instruction document 32 from the client PC 10, the delivery service execution unit 1400 transmits a command getDocIdByTicket (ticket ID) to the repository service execution unit 1410 (step S708), and the repository service execution unit 1410 A response is made with the document ID (step S709). Subsequently, the distribution service execution unit 1400 transmits a command getDocInfo (document ID) to the repository service execution unit 1410 (step S710), and the repository service execution unit 1410 responds with the file information 31 (step S711).

  Then, the distribution service execution unit 1400 transmits a command getDeliveryMode (document ID, file information 31) to the control service 1250 (step S712), and the control service 1250 responds with the distribution mode (1) 33 (step). S713). The delivery mode (1) 33 indicates information unique to the delivery device.

  The distribution service execution unit 1400 creates a distribution instruction (1) 32 based on the distribution mode (1) 33 acquired from the control service 1250 and identifies the distribution instruction (1) 32. ) Is transmitted to the client PC 10 as a response to the command createJobInstruction from the client PC 10 in Step 707 (Step S714).

  When the setting of the distribution mode (1) 33 cannot be realized by the current device, the distribution service execution unit 1400 determines whether the distribution mode (1) 33 can be distributed if it is omitted and what should not be omitted. Whether or not this omission is permitted depends on an instruction from the client PC 10. In the case of setting to allow omission, the delivery instruction sheet 32 is created by omitting what can be omitted, and in the case of setting not to allow omission, an error is returned to the client PC 10 without creating the distribution instruction sheet 32.

  Upon receiving the distribution instruction ID (1), the client PC 10 transmits a command getJobInstruction (session ID, distribution instruction ID (1)) to the distribution service execution unit 1400, and the distribution instruction (1) 32 A property is requested (step S715). The distribution service execution unit 1400 responds to the client PC 10 with the property of the distribution instruction (1) 32 corresponding to the distribution instruction ID (1) (step S716).

  The client PC 10 executes the distribution service in order to change the property of the distribution instruction (1) 32 stored in the distribution service execution unit 1400 by the property of the distribution instruction (1) 32 changed by the setting of the distribution option of the user. Command setJobInstruction (session ID, distribution instruction ID (1), distribution instruction (1) 32 properties) is transmitted to unit 1400 (step S717). The distribution service execution unit 1400 creates a distribution mode (1) 33 for notifying the control service 1250 based on the property of the distribution instruction (1) 32 specified by the received command setJobInstruction.

  The distribution service execution unit 1400 transmits a command checkDeliveryMode (document ID, distribution mode (1) 33) to the control service 1250 (step S718), and the control service 1250 transmits the distribution mode 33 specified in the command checkDeliveryMode. Whether or not the distribution process can be performed is determined, and the determination result “OK (processable)” or “NOT (processable)” is transmitted as a response to the distribution service execution unit 1400 (step S719).

  The distribution service execution unit 1400 transmits the determination result “OK (processable)” or “NOT (processable)” notified from the control service 1250 as a response to the command setJobInstruction in step S717 (step S720).

  Subsequently, in FIG. 26, the client PC 10 transmits a command createJobInstruction (session ID, ticket ID), and requests the distribution service execution unit 1400 to generate the distribution instruction 32 (step S721). The session ID specified here is the session ID acquired in steps S701 and S702. The ticket ID is the ticket ID acquired in steps S703 and S704 in FIG.

  When receiving the request for creating the distribution instruction document 32 from the client PC 10, the distribution service execution unit 1400 transmits a command getDocIdByTicket (ticket ID) to the repository service execution unit 1410 (step S722), and the repository service execution unit 1410 A response is made with the document ID (step S723). Subsequently, the distribution service execution unit 1400 transmits a command getDocInfo (document ID) to the repository service execution unit 1410 (step S724), and the repository service execution unit 1410 responds with the file information 31 (step S725).

  Then, the distribution service execution unit 1400 transmits the command getDeliveryMode (document ID, file information 31) to the control service 1250 (step S726), and the control service 1250 responds with the distribution mode (2) 33 (step). S727). The delivery mode (2) 33 indicates information unique to the delivery device.

  The distribution service execution unit 1400 creates a distribution instruction (2) 32 based on the distribution mode (2) 33 acquired from the control service 1250 and identifies a distribution instruction ID (2) that identifies the distribution instruction (2) 32. ) Is transmitted to the client PC 10 as a response to the command createJobInstruction from the client PC 10 in step 707 (step S728).

  When the setting for the distribution mode (2) 33 cannot be realized by the current device, the distribution service execution unit 1400 determines whether the distribution mode (2) 33 can be distributed if this is omitted and what should not be omitted. Whether or not this omission is permitted depends on an instruction from the client PC 10. In the case of setting to allow omission, the delivery instruction sheet 32 is created by omitting what can be omitted, and in the case of setting not to allow omission, an error is returned to the client PC 10 without creating the distribution instruction sheet 32.

  Upon receiving the distribution instruction ID (2), the client PC 10 transmits a command getJobInstruction (session ID, distribution instruction ID (2)) to the distribution service execution unit 1400, and the distribution instruction (2) 32 A property is requested (step S729). The distribution service execution unit 1400 responds to the client PC 10 with the property of the distribution instruction (2) 32 corresponding to the distribution instruction ID (2) (step S730).

  The client PC 10 executes the distribution service in order to change the property of the distribution instruction (2) 32 stored in the distribution service execution unit 1400 according to the property of the distribution instruction (2) 32 changed by the setting of the distribution option of the user. Command setJobInstruction (session ID, distribution instruction ID (2), distribution instruction (2) 32 properties) is transmitted to unit 1400 (step S731). The distribution service execution unit 1400 creates a distribution mode (2) 33 for notifying the control service 1250 based on the property of the distribution instruction (2) 32 specified by the received command setJobInstruction.

  Then, the distribution service execution unit 1400 transmits the command checkDeliveryMode (document ID, distribution mode (2) 33) to the control service 1250 (step S732), and the control service 1250 transmits the distribution mode 33 specified in the command checkDeliveryMode. Whether or not the distribution process can be performed is determined, and the determination result “OK (processable)” or “NOT (process disabled)” is transmitted as a response to the distribution service execution unit 1400 (step S733).

  The distribution service execution unit 1400 transmits the determination result “OK (processable)” or “NOT (processable)” notified from the control service 1250 as a response to the command setJobInstruction in step S731 (step S734).

  The client PC 10 instructs the distribution service execution unit 1400 to execute the command createJob (session ID, distribution) only when the response to the command setJobInstruction indicates “OK (processable)”. The instruction form ID (1) and the distribution instruction form ID (2)) are transmitted (step S735).

  Upon receiving the command createJob, the distribution service execution unit 1400 transmits a command entryJob (document ID, distribution mode (1) 33, distribution mode (2) 33) to the control service 1250 to instruct execution of the distribution job. (Step S736).

  The control service 1250 acquires the image data 30 from the repository service execution unit 1400 using the document ID specified by the command entryJob, controls the image engine unit 1360 according to the distribution mode (1) 33, and acquires the acquired image data. 30 is distributed. For example, when the distribution mode (1) designates FAX transmission, the acquired image data 30 is distributed by FAX. Subsequently, the image engine unit 1360 is controlled according to the distribution mode (2) 33, and the acquired image data 30 is distributed. For example, when the distribution mode (1) specifies mail transmission, the acquired image data 30 is distributed by mail.

  The control service 1250 transmits the processing result “OK (processing completed)” or “NOT (processing error)” to the distribution service execution unit 1400 as a response (step S737).

  The distribution service execution unit 1400 transmits the processing result “OK (processing completed)” or “NOT (processing error)” notified from the control service 1250 as a response to the command createJob in step S735 (step S738).

  The client PC 10 transmits a command endSession (session ID) to the distribution service execution unit 1400 only when the response to the command createJob indicates “OK (processing completed)”, and establishes a session with the distribution service execution unit 1400. Release (step S739).

  In this way, the session establishment need only be performed at the start of a series of processes, and need not be performed for each distribution process.

  As described above, the repository service execution unit 1410 has been described as an example provided in the repository apparatus 20 different from the multi-function apparatus 1200. However, as shown in FIG. A repository service execution unit 1410 may be provided. FIG. 27 is a block diagram showing a second network configuration that can be distributed only by specifying a distribution instruction.

  In the second network configuration shown in FIG. 27, unlike the first network configuration shown in FIG. 2, the MFP 1200 includes a distribution service execution unit 1400, a repository service execution unit 1410, and a control service 1250 in the MFP 1200. And a distribution engine unit 1360. Therefore, communication between the distribution service execution unit 1400 and the repository service execution unit 1410 performed via the network 15 is performed by issuing an internal command.

  With such a configuration, the client PC 10 may acquire the ticket and the distribution instruction sheet 32 with the MFP 1200.

  According to the present invention, the client PC 10 can execute a distribution process only by transmitting a ticket permitting the use of the image data 30 to the multi-function apparatus 1200 and designating the distribution instruction 32. That is, the reuse of the distribution instruction sheet 32 can be realized. Further, the client PC 10 can change the property acquired from the multi-function apparatus 1200 and execute the distribution process with the changed distribution type, for example. Further, file information 31 that can create a delivery instruction 32 based on the changed property can be stored.

  The case where no ticket is used in the second network configuration shown in FIG. 25 will be described below. The same is realized in the first network configuration shown in FIG.

  FIG. 28 is a diagram for explaining the outline of the fifth distribution process when a ticket is not used. In FIG. 28, the client PC 10 transmits a document password for using the desired image data 30 to the repository service execution unit 1410, and the repository service execution unit 1410 checks the document password (step S101). When the validity of access to the document is confirmed by the document password, the document ID for identifying the image data 30 is passed to the distribution service execution unit 1400 of the MFP 1200 to request the creation of the distribution instruction 32 (step S102). .

  The distribution service execution unit 1400 requests the repository service execution unit 1410 for the document ID and the file information 31 using the document ID received from the client PC 10 (step S103).

  The repository service execution unit 1410 confirms that the document ID received in step S103 is verified in step S101, and then sends the document ID and the file information 31 to the distribution service execution unit 1400 of the MFP 1200. Provide (step S104). The distribution service execution unit 1400 creates the distribution instruction 32 by notifying the control service 1250 of the document ID and the file information 31 acquired from the repository service execution unit 1410.

  In the file information 31, the distribution conditions at the time of accumulation are set. Using the control service 1250, the distribution service execution unit 1400 converts the file information 31 to create a distribution mode 33, and generates a distribution instruction 32 in which the document ID and the distribution mode 33 are set. Then, the distribution service execution unit 1400 notifies the client PC 10 of a distribution instruction ID that identifies the generated distribution instruction 32.

  The client PC 10 designates the distribution instruction sheet 32 by the distribution instruction sheet ID received from the distribution service execution unit 1400 and issues a distribution instruction to the distribution service execution unit 1400 (step S105). The distribution service execution unit 1400 identifies the distribution instruction sheet 32 based on the distribution instruction sheet ID, and notifies the control service 1250 of the document ID set in the distribution instruction sheet 32 and the distribution mode 33 (step S106).

  The control service 1250 acquires the image data 30 from the repository service execution unit 1410 based on the document ID notified from the repository service execution unit 1410 (step S107), and the distribution mode notified from the repository service execution unit 1410 In accordance with No. 33, a distribution process for distributing the image data 30 is executed (step S108). That is, the control service 1250 controls the distribution engine unit 1360 (FCU 1320, NIC 1311, USB 1316, etc.) to distribute the image data 30.

  FIG. 29 is a flowchart for explaining a fifth distribution process when a ticket is not used. In FIG. 29, the same steps as those in FIG. 3 are denoted by the same reference numerals, and the description thereof is omitted.

  29, steps S36 and S37 in FIG. 3 are replaced with steps S36-2, S36-4, and S37-6. In step S36-2, the client PC 10 transmits a command startSession via the network 15, and establishes a session with the distribution service execution unit 1400 of the MFP 1200 (step S36-2). After the session is established, the client PC 10 transmits a command checkPassword, and the repository service execution unit 1410 checks the document password (step S36-4).

  When the validity of access to the document is confirmed by the document password, the client PC 10 transmits the command createJobInstruction to deliver the document ID for identifying the image data 30 to the distribution service execution unit 1400 of the MFP 1200 for distribution. The creation of the instruction sheet 32 is requested (step S37-2). The subsequent processing is the same as that described in FIG.

  In this way, the legitimacy of access to the document is determined based on the document password, and only a distribution instruction is given to the distribution service execution unit 1400 of the MFP 1200. Therefore, the document (image data) itself is not transferred via the network 15, and the transmission efficiency to the MFP 1200 is good.

  The command flow when no ticket is used will be described below with reference to FIGS. First, a case where a session between the Web service and the client PC 10 is managed for each Web service function that executes the Web service will be described. In this embodiment, a session is managed for each of the distribution service execution unit 1400 and the repository service execution unit 1410.

  FIG. 30 is a diagram showing a first command flow when a ticket is not used. In FIG. 30, when the client PC 10 transmits a command startSession () to the repository service execution unit 1410 (step S601), the repository service execution unit 1410 responds with the repository session ID (step S602). A session is established between the client PC 10 and the repository service execution unit 1410.

  When the session is established, the client PC 10 transmits a command checkPassword (repository session ID, document ID, document password) to the repository service execution unit 1410 in order to confirm the validity of access to the document (step S603). The repository service execution unit 1410 checks the legitimacy of access to the document identified by the document ID using the document ID and the document password, and responds with the check result (step S604).

  Next, the client PC 10 transmits a command startSession () to the distribution service execution unit 1400 (step S605), and the distribution service execution unit 1400 responds to the client PC 10 with a distribution session ID (step S606). A session is established between the client PC 10 and the distribution service execution unit 1400.

  When the session is established, the client PC 10 transmits a command createJobInstruction (distribution session ID, repository session ID, document ID) to request the service execution unit 1400 to create the distribution instruction 32 (step S607).

  When receiving the request for creating the distribution instruction document 32 from the client PC 10, the distribution service execution unit 1400 transmits a command getDocInfo (repository session ID, document ID) to the repository service execution unit 1410 (step S608), and executes the repository service execution. The unit 1410 responds with the file information 31 (step S609).

  Then, the distribution service execution unit 1400 transmits a command getDeliveryMode (document ID, file information 31) to the control service 1250 (step S610), and the control service 1250 responds with the distribution mode 33 (step S611). The distribution mode 33 indicates information unique to the distribution device.

  The distribution service execution unit 1400 creates the distribution instruction 32 based on the distribution mode 33 acquired from the control service 1250, and sets the distribution instruction ID for identifying the distribution instruction 32 to the command createJobInstruction from the client PC 10 in step 607. As a response to the client PC 10 (step S612).

  Upon receiving the distribution instruction ID, the client PC 10 transmits a command getJobInstruction (distribution session ID, distribution instruction ID) to the distribution service execution unit 1400 to request the property of the distribution instruction 32 (step S613). . The distribution service execution unit 1400 responds to the client PC 10 with the property of the distribution instruction sheet 32 corresponding to the distribution instruction sheet ID (step S614).

  The client PC 10 uses the command setJobInstruction (distribution) to the distribution service execution unit 1400 to change the property of the distribution instruction 32 stored in the distribution service execution unit 1400 according to the property of the distribution instruction 32 changed according to the user setting. Session ID, distribution instruction ID, and property of distribution instruction 32) are transmitted (step S615).

  The distribution service execution unit 1400 creates a distribution mode 33 for notifying the control service 1250 based on the properties of the distribution instruction 32 specified by the received command setJobInstruction. Then, the distribution service execution unit 1400 transmits the command checkDeliveryMode (document ID, distribution mode 33) to the control service 1250 (step S616), and the control service 1250 performs distribution processing according to the distribution mode 33 specified in the command checkDeliveryMode. The determination result “OK (processable)” or “NOT (processable)” is transmitted as a response to the distribution service execution unit 1400 (step S617).

  The distribution service execution unit 1400 transmits the determination result “OK (processable)” or “NOT (processable)” notified from the control service 1250 as a response to the command setJobInstruction in step S615 (step S618).

  Only when the response to the command setJobInstruction indicates “OK (processable)”, the client PC 10 instructs the distribution service execution unit 1400 to execute the command createJob (distribution session ID, distribution session ID, (Distribution Instruction ID) is transmitted (step S619). When the distribution service execution unit 1400 receives the command createJob, the distribution service execution unit 1400 transmits a command entryJob (document ID, distribution mode 33) to the control service 1250 to instruct execution of the distribution job (step S620).

  The control service 1250 acquires the image data 30 from the repository service execution unit 1400 using the document ID specified by the command entryJob, and controls the distribution engine unit 1360 (FCU 1320, NIC 1311, USB 1316, etc.) according to the distribution mode 33. The image data 30 is distributed. The control service 1250 transmits the processing result “OK (processing completed)” or “NOT (processing error)” as a response to the distribution service execution unit 1400 (step S621).

  The distribution service execution unit 1400 transmits the processing result “OK (processing completed)” or “NOT (processing error)” notified from the control service 1250 as a response to the command createJob in step S619 (step S622).

  The client PC 10 transmits a command endSession (distribution session ID) to the distribution service execution unit 1400 only when the response to the command createJob indicates “OK (processing completed)”, and the session with the distribution service execution unit 1400 Is released (step S623).

  Next, a case where a session is managed in common by a series of Web services used by the client PC 10 will be described with reference to FIG. FIG. 31 is a diagram showing a second command flow when a ticket is not used.

  In FIG. 31, when the client PC 10 transmits a command startSession () to the repository service execution unit 1410 (step S631), the repository service execution unit 1410 responds with a global session ID (step S632). A session is established between the client PC 10 and the repository service execution unit 1410.

  When the session is established, the client PC 10 transmits a command checkPassword (global session ID, document ID, document password) to the repository service execution unit 1410 in order to confirm the validity of access to the document (step S633). The repository service execution unit 1410 checks the validity of access to the document identified by the document ID using the document ID and the document password, and responds with the check result (step S634).

  When a session is established between the client PC 10 and the repository service execution unit 1410 in steps S631 and S632, the session is managed by the global session ID. Therefore, the client PC 10 needs to establish a session with the distribution service 1400. There is no.

  Therefore, the client PC 10 transmits the command createJobInstruction (global session ID, repository session ID, document ID) to the distribution service execution unit 1400 without performing processing for establishing a session with the distribution service execution unit 1400. The creation of the distribution instruction 32 is requested (step S635).

  When receiving the request for creating the distribution instruction document 32 from the client PC 10, the distribution service execution unit 1400 transmits a command getDocInfo (global session ID, document ID) to the repository service execution unit 1410 (step S636), and executes the repository service execution. The unit 1410 responds with the file information 31 (step S637).

  The distribution service execution unit 1400 transmits a command getDeliveryMode (document ID, file information 31) to the control service 1250 (step S638), and the control service 1250 responds with the distribution mode 33 (step S639). The distribution mode 33 indicates information unique to the distribution device.

  The distribution service execution unit 1400 creates the distribution instruction 32 based on the distribution mode 33 acquired from the control service 1250, and sets the distribution instruction ID for identifying the distribution instruction 32 to the command createJobInstruction from the client PC 10 in step 635. As a response to the client PC 10 (step S640).

  Upon receiving the distribution instruction ID, the client PC 10 sends a command getJobInstruction (global session ID, distribution instruction ID) to the distribution service execution unit 1400 to request the property of the distribution instruction 32 (step S641). . The distribution service execution unit 1400 responds to the client PC 10 with the property of the distribution instruction sheet 32 corresponding to the distribution instruction sheet ID (step S642).

  The client PC 10 changes the property of the distribution instruction 32 stored in the distribution service execution unit 1400 according to the property of the distribution instruction 32 changed according to the user setting, so that the command setJobInstruction (global Session ID, distribution instruction ID, and distribution instruction 32 properties) are transmitted (step S643).

  The distribution service execution unit 1400 creates distribution information 33 for notifying the control service 1250 based on the properties of the distribution instruction 32 specified by the received command setJobInstruction. Then, the distribution service execution unit 1400 transmits the command checkDeliveryMode (document ID, distribution mode 33) to the control service 1250 (step S644), and the control service 1250 performs distribution processing according to the distribution mode 33 specified in the command checkDeliveryMode. Is determined, and the determination result “OK (processable)” or “NOT (processable)” is transmitted as a response to the distribution service execution unit 1400 (step S645).

  The distribution service execution unit 1400 transmits the determination result “OK (processable)” or “NOT (processable)” notified from the control service 1250 as a response to the command setJobInstruction in step S645 (step S646).

  Only when the response to the command setJobInstruction indicates “OK (processable)”, the client PC 10 causes the distribution service execution unit 1400 to execute the command createJob (global session ID, (Distribution instruction ID) is transmitted (step S647). When the distribution service execution unit 1400 receives the command createJob, the distribution service execution unit 1400 transmits a command entryJob (document ID, distribution mode 33) to the control service 1250 to instruct execution of the distribution job (step S648).

  The control service 1250 acquires the image data 30 from the repository service execution unit 1400 using the document ID specified by the command entryJob, and controls the distribution engine unit 1360 (FCU 1320, NIC 1311, USB 1316, etc.) according to the distribution mode 33. The image data 30 is distributed. The control service 1250 transmits the processing result “OK (processing completed)” or “NOT (processing error)” as a response to the distribution service execution unit 1400 (step S649).

  The distribution service execution unit 1400 transmits the processing result “OK (processing completed)” or “NOT (processing error)” notified from the control service 1250 as a response to the command createJob in step S649 (step S650).

  The client PC 10 transmits a command endSession (global session ID) to the distribution service execution unit 1400 only when the response to the command createJob indicates “OK (processing completed)”, and the session with the distribution service execution unit 1400 Is released (step S651).

  Next, a case where the client PC 10 checks the legitimacy of access with a document password every time the Web service is used will be described with reference to FIG.

  FIG. 32 is a diagram showing a third command flow when a ticket is not used. In FIG. 32, the same steps as those in FIG. 31 are denoted by the same reference numerals, and the description thereof is omitted. In the third command flow shown in FIG. 32, when the client PC 10 is connected to the repository service execution unit 1410 and connected to the distribution service execution unit 1400, the validity of access to the document is confirmed by the document password. This is different from the second command flow shown in FIG. Therefore, here, the processing from step S633 to S637 will be described. Other steps are the same as described with reference to FIG.

  The client PC 10 transmits the command checkPassword (global session ID, document ID, document password) to the repository service execution unit 1410 in order to confirm the validity of access to the document (step S633). The repository service execution unit 1410 checks the validity of access to the document identified by the document ID using the document ID and the document password, and responds with the check result (step S634).

  Next, the client PC 10 connects to the distribution service execution unit 1400 using the command createJobInstruction (global session ID, document ID, document password) (step S635-2). Connection to the distribution service execution unit 1400 is performed by requesting creation of a distribution instruction 32 specifying a document password.

  The distribution service execution unit 1400 transmits the command checkPassword (global session ID, document ID, document password) to the repository service item unit 1410 to confirm the validity of access to the document (step S635-4). The repository service execution unit 1410 checks the legitimacy of access to the document identified by the document ID based on the document ID and the document password, and responds according to the check result (step S635-6).

  Subsequently, the distribution service execution unit 1400 transmits a command getDocInfo (global session ID, document ID) to the repository service item unit 1410 (step S636), and the repository service execution unit 1410 responds with the file information 31 ( Step S637). The following processing is the same as the description of the second command flow shown in FIG.

  As described above, according to the present invention, permission of access to the document (image data 30) can be determined based on the document password, and the client PC 10 can change the property acquired from the multi-function peripheral 1200 to provide a distribution instruction. The distribution process can be executed while the document 32 is reused. For example, the distribution process can be executed with the changed distribution type. Furthermore, the file information 31 based on the changed property can be saved.

  Next, screen examples displayed on the display unit 53 of the client PC 10 will be described with reference to FIGS.

  FIG. 33 is a diagram showing a stored document list screen. In FIG. 33, the stored document list screen 300 includes a display area 350 for displaying a list of document names and a display area 360 for displaying documents as thumbnails.

  In the display area 350, when the user selects “all documents” 351 with a mouse, for example, a list of document names stored in the repository service execution unit 1410 is displayed in the display area 360. In the display area 350, a plurality of folder names may be displayed first, and a list of document names may be displayed when a desired folder is selected.

  In the display area 360, thumbnails and document names of the stored documents are displayed according to the selection in the display area 350. When the user selects a desired thumbnail (for example, a thumbnail indicating the document “FAX002”) and further selects a distribution 370a from a menu 370 displayed by right-clicking the mouse, a distribution process using a FAX transmission as a distribution type is performed. Be started. The user can perform distribution processing for a plurality of documents at a time by selecting a plurality of thumbnails.

  Alternatively, when the user selects a thumbnail indicating the document “MAIL001” and selects a distribution 370a from the menu 370, a distribution process using mail transmission as a distribution type is started. Similarly, when the user selects a thumbnail indicating the document “FTP001” and selects distribution 370a from the menu 370, distribution processing using FTP transmission as a distribution type is started.

  In this way, the user can perform distribution processing according to the distribution instruction 32 associated with the document only by designating the document and instructing distribution. In this case, the first distribution process described with reference to FIGS. 2 and 3 is executed.

  Further, for example, when the user selects a thumbnail indicating the document “FAX002” and selects change 370b from the menu 370, a screen (see FIG. 34) for changing the distribution option is displayed on the display unit 53.

  On the other hand, when the user selects delete 370c from menu 370, an instruction to delete the document is issued to repository service execution unit 1410.

  FIG. 34 is a diagram illustrating an example of a delivery option setting screen in which FAX transmission is selected. In FIG. 34, a distribution option setting screen 400 is a screen for changing a distribution option, and when displayed on the display unit 53, the distribution option currently set corresponding to the document selected by the user is displayed. ing.

  The distribution option setting screen 400 sets a setting area 401 for selecting a distribution type, a display area 402 for displaying a document name selected by the user, a setting area 403 for setting a subject, and a distribution destination. A setting area 404 for selecting an image format, a setting area 406 for selecting an image compression method, a setting area 407 for specifying a time, and a setting area 408 for selecting a line type. And a setting area 409 for setting the distributor name, a check area 411 for holding the setting contents, a check area 412 for allowing automatic omission of the distribution option, and the distribution process with the set distribution option. An OK button 413 for canceling, and a cancel button 414 for canceling the distribution process.

  In the distribution option setting screen 400 shown in FIG. 34, for example, “FAX transmission” is set as the distribution type in the setting area 401, “FAX002” is displayed as the document name in the display area 402, and “appointment” is set as the subject in the setting area 403. ”Is set,“ 03-3210-9876 ”is set as the delivery destination (FAX number) in the setting area 404,“ TIFF ”is set as the image format in the setting area 405, and“ 3 ”is set as the image compression method in the setting area 406. "MH" is set, "16 February 2004 12:01:00" is set in the setting area 407 as the time designation, "G3" is set as the line type in the setting area 408, and is distributed to the setting area 409 “Suzuki” is set as the name of the person.

  Furthermore, it is indicated that holding of the setting contents is designated when the check area 411 is checked, and automatic delivery omission is permitted when the check area 412 is checked.

  In these settings, the distribution type can be changed to mail transmission, FTP transmission, and distribution server transmission. An example of setting these changed delivery options will be described with reference to FIGS.

  FIG. 35 is a diagram illustrating an example of a delivery option setting screen in which mail transmission is selected. In FIG. 35, the changed delivery option will be described. 34, the delivery type is changed to mail transmission in the setting area 401, the delivery destination (mail address) is changed to “abc@aaa.org” in the setting area 404, and the setting area 408 is set. , The line type is changed to “LAN”.

  FIG. 36 is a diagram illustrating an example of a distribution option setting screen in which FTP transmission is selected. In FIG. 36, the changed delivery option will be described. 34, the delivery type is changed to FTP transmission in the setting area 401, the delivery destination (transmission address) is changed to “111.112.113.14/foo/bar” in the setting area 404, and the setting is made. In the area 408, the line type is changed to “LAN”.

  Further, when it is necessary to set a password as an element unique to FTP, an area for setting a password is further displayed on the distribution option setting screen 400.

  FIG. 37 is a diagram illustrating an example of a distribution option setting screen in which distribution server transmission is selected. In FIG. 37, the changed delivery option will be described. 34, the delivery type is changed to delivery server transmission in the setting area 401, the delivery destination (transmission address) is changed to “111.112.113.14/foo/bar” in the setting area 404, In the setting area 408, the line type is changed to “LAN”.

  34 to 37, a part of the setting areas 403 to 409 may be hidden according to the distribution type set in the setting area 401. Or you may make it display the item of the delivery option which was not displayed on another screen as needed. In addition, the setting value determined in advance by the distribution type may be displayed only and not set by the user.

  When the distribution process is instructed on any one of the distribution option setting screens 400 shown in FIGS. 34 to 37 and the distribution process is completed, for example, a screen for executing the composite distribution as shown in FIG. Is displayed. FIG. 38 is a diagram showing an example of a screen for composite delivery.

  In FIG. 38, a screen 420 for complex distribution is a screen displayed on the display unit 53 of the client PC 10 upon receiving the end of the distribution process from the distribution service execution unit 1400 of the multi-function apparatus 1200, and displays a message. It has an area 421, an end button 422 for ending without performing the next distribution, and a button 423 for performing the next distribution.

  The display area 421 displays a message notifying that the distribution process has been completed and confirming whether or not the distribution is still performed. For example, “Document distribution is complete. Do you want to continue distributing?” Is displayed.

  When the user clicks the end button 422, the command endSession is transmitted from the client PC 10 to end the session. On the other hand, when the user clicks button 423 to perform the next distribution, distribution option setting screen 400 is displayed.

  The concept of the distribution instruction 32 is considered as an object that can be used for methods (operations) such as setting (including changing), acquisition, and creation of a class called a distribution instruction.

  FIG. 39 is a diagram for explaining a distribution instruction based on object orientation. In FIG. 37, the distribution instruction sheet 32 described above is shown as an object 90. The object 90 indicates a distribution instruction (distribution instruction class), a distribution type (delivery type), creation (create), acquisition (for example, getDeliveryType for acquiring the distribution type), setting (for example, One method of setDeliveryType) for setting the distribution type is specified. A job class object 91 is created from such an object. The delivery instruction class object 90 is configured as an object separated from the job class object 91.

  The distribution instruction sheet 32 set by the user based on the distribution option setting screen 400 is generated as an object 90 as shown in FIG.

  As described above, according to the present invention, the distribution instruction 32 configured in a format that can be commonly used for a plurality of different distribution types (for example, FAX transmission, mail transmission, FTP transmission, distribution server transmission, etc.) is applied. Therefore, the user can reuse the information regardless of the distribution type simply by specifying the distribution instruction 32. Therefore, it is possible to provide the user with one service (Web service) that unifies the distribution processing corresponding to each of a plurality of different distribution types. Further, since the distribution instruction sheet 32 can be shared by a plurality of different distribution types, the storage area related to the distribution instruction sheet 32 can be used efficiently without overlapping.

  In addition, since one service (Web service) in which distribution processing corresponding to each of a plurality of different distribution types is unified is provided, there is no need to establish a session for each distribution type. Therefore, composite distribution (for example, a combination of different distribution types such as FAX transmission and mail transmission) can be performed by establishing a single session.

  Further, the user can perform data distribution only by specifying the distribution instruction 32 without setting the distribution option. By adopting a configuration in which the image data (document) 30 to be distributed is associated with the file information 31 for creating the distribution instruction document 32, the user can simply merge by simply instructing the desired image data (document). The machine 1200 can perform data distribution.

  The present invention is not limited to the specifically disclosed embodiments, and various modifications and changes can be made without departing from the scope of the claims.

It is a block diagram which shows the hardware constitutions of client PC. It is a block diagram which shows the 1st network structure which can be delivered only by designating a delivery instruction. It is a flowchart for demonstrating the 1st delivery process when not changing a delivery option. It is a figure for demonstrating the outline | summary of the 2nd delivery process in the case of changing a delivery option. It is a flowchart figure for demonstrating the 2nd delivery process in the case of changing a delivery option. It is a figure which shows the command flow in the 2nd delivery process in the case of changing a delivery option. It is a figure which shows the example of a description of a document ID list. It is a figure which shows the example of a description for acquiring a thumbnail. It is a figure which shows the example of a description of the property of the delivery instruction | indication document which designated FAX. It is a figure which shows the description example of the property of the delivery instruction | indication document which designated mail transmission. It is a figure which shows the example of a description of the property of the delivery instruction | indication document which designated FTP transmission. It is a figure which shows the example of a description of the property of the delivery instruction document which designated delivery server transmission. It is a figure which shows the example of description of the property of the delivery instruction | indication document to which the element peculiar to FTP was added when the delivery classification is FTP. It is a figure which shows the example of a description of the property of the delivery instruction | indication document in which the element peculiar to FTP is contained when a delivery classification is FAX. It is a figure which shows the example of the candidate value set to the property item of a delivery instruction. It is a figure for demonstrating the outline | summary of the 3rd delivery process in the case of changing a delivery option. It is a flowchart figure for demonstrating the 3rd delivery process in the case of changing a delivery option. It is a figure which shows the command flow in the 3rd delivery process in the case of changing a delivery option. It is a figure which shows the example of a description of the property of the delivery instruction document provided from a delivery service execution part in a 3rd delivery process. It is a figure which shows the information for determining the omission of a delivery option. It is a figure for demonstrating the outline | summary of the 4th delivery process in the case of changing a delivery option and specifying a property preservation | save. It is a flowchart explaining the 4th delivery process in the case of changing a delivery option and specifying saving of a property. It is a figure which shows the command flow in the 4th delivery process in the case of changing a delivery option and designating | saving a property. It is a flowchart figure for demonstrating a composite delivery process. It is a figure which shows the command flow of a composite delivery process. It is a figure which shows the command flow of a composite delivery process. It is a block diagram which shows the 2nd network structure which can be delivered only by designating a delivery instruction. It is a figure for demonstrating the outline | summary of the 5th delivery process when not using a ticket. It is a flowchart figure for demonstrating the 5th delivery process when not using a ticket. It is a figure which shows the 1st command flow when not using a ticket. It is a figure which shows the 2nd command flow when not using a ticket. It is a figure which shows the 3rd command flow when not using a ticket. It is a figure which shows the list screen of an accumulation | storage document. It is a figure which shows the example of the delivery option setting screen in which FAX transmission was selected. It is a figure which shows the example of the delivery option setting screen as which mail transmission was selected. It is a figure which shows the example of the delivery option setting screen in which FTP transmission was selected. It is a figure which shows the example of the delivery option setting screen as which delivery server transmission was selected. It is a figure which shows the example of a screen for composite delivery. It is a figure for demonstrating the delivery instruction based on an object orientation.

Explanation of symbols

10 Client PC
20 Repository Device 30 Image Data 31 File Information 32 Distribution Instruction 33 Distribution Mode 51 CPU
52 Memory Unit 53 Display Unit 54 Output Unit 55 Input Unit 56 Communication Unit 57 Storage Device 58 Driver 59 Storage Medium 1200 Multifunction Device 1311 NIC
1316 USB
1320 FAX control unit 1360 Distribution engine unit 1400 Distribution service execution unit (WSF)
1410 Repository Service Execution Department (WSF)

Claims (16)

An information processing apparatus connectable to a distribution apparatus that distributes data via a network,
An information processing apparatus comprising distribution instruction means for instructing distribution processing to a distribution apparatus capable of acquiring data by designating a distribution instruction corresponding to data to be distributed. Property acquisition means for acquiring properties related to the distribution process that can be set in the distribution instruction corresponding to the data from the distribution device;
Based on the property acquired by the property acquisition means, a change screen display means for displaying a change screen that can change the value of the property on a display unit;
Changing means for causing the distribution apparatus to set the value of the property changed by the change screen display means in the distribution instruction;
The information processing apparatus according to claim 1, wherein the distribution instruction unit is executed after the change unit is executed.   3. The information processing apparatus according to claim 2, wherein the distribution instruction unit executed after the execution of the changing unit is performed in the same session as the session for acquiring the property from the distribution device.   The change screen can be selected from one of a plurality of different distribution types, and is displayed on the display unit in a format that can be commonly used for the plurality of different distribution types. 3. The information processing apparatus according to 3.   The information processing apparatus according to claim 2, wherein the changing unit transmits the changed property and the value of the property to the distribution apparatus.   5. The change unit according to claim 2, wherein all of the properties including the changed property and the value of the property are transmitted to the distribution device as a changed distribution instruction. The information processing apparatus described. The change screen allows selection of whether to save the changed property,
The change means causes the distribution device to set the changed property value in the distribution instruction, and to store the changed distribution instruction. The information processing apparatus according to claim 1. A composite delivery presence / absence means for judging the presence / absence of composite delivery in which the next delivery process is continuously performed when the delivery processing of the data is performed in the delivery device by the delivery instruction means;
3. If the composite distribution presence / absence means determines that the composite distribution is to be performed, the property acquisition means, the change screen display means, the change means, and the distribution instruction means are executed again. The information processing apparatus according to claim 7.   9. The information processing apparatus according to claim 8, wherein the distribution instruction unit executed when it is determined that the composite distribution is performed instructs the distribution apparatus to perform distribution processing in the same session. An instruction form identification information acquiring means for acquiring an instruction form identification information for identifying the distribution instruction corresponding to the data by transmitting a ticket indicating use of the data to be distributed to the distribution device;
The said property acquisition means acquires the said property from the said delivery apparatus using the said instruction | indication identification information acquired by the said instruction | indication identification information acquisition means, The said any one of Claim 2 thru | or 9 characterized by the above-mentioned. Information processing device. Instruction identifying information for identifying the distribution instruction corresponding to the data is acquired by transmitting the authenticated data identification information to the distribution device, the information identifying the data to be distributed. Having instruction identification information acquisition means,
The said property acquisition means acquires the said property from the said delivery apparatus using the said instruction | indication identification information acquired by the said instruction | indication identification information acquisition means, The said any one of Claim 2 thru | or 9 characterized by the above-mentioned. Information processing device. By transmitting the data to be distributed and the data identification information for identifying the data to the distribution device, the instruction for identifying the distribution instruction corresponding to the data when the data is successfully authenticated Having instruction identification information acquisition means for acquiring identification information;
The said property acquisition means acquires the said property from the said delivery apparatus using the said instruction | indication identification information acquired by the said instruction | indication identification information acquisition means, The said any one of Claim 2 thru | or 9 characterized by the above-mentioned. Information processing device. In a computer-executable program that causes a computer to function as an information processing device that can be connected to a distribution device that distributes data via a network,
A computer-executable program that functions as a distribution instruction means for instructing a distribution process to the distribution apparatus by designating a distribution instruction corresponding to data to be distributed. Property acquisition means for acquiring properties related to the distribution process that can be set in the distribution instruction corresponding to the data from the distribution device;
Based on the property acquired by the property acquisition means, a change screen display means for displaying a change screen that can change the value of the property on a display unit;
Changing means for causing the distribution apparatus to set the value of the property changed by the change screen display means in the distribution instruction;
14. The computer-executable program according to claim 13, wherein the distribution instruction unit is executed after the change unit is executed.   15. The change screen is displayed on the display unit in a format that can select one of a plurality of different distribution types and can be used in common with the plurality of different distribution types. Computer executable program. A composite delivery presence / absence means for judging the presence / absence of composite delivery in which the next delivery process is continuously performed when the delivery processing of the data is performed in the delivery device by the delivery instruction means;
15. When the composite distribution presence / absence unit determines that the composite distribution is to be performed, the property acquisition unit, the change screen display unit, the change unit, and the distribution instruction unit are executed again. 15. A computer-executable program according to item 15.

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