JP2011254449A - Communication apparatus and communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication apparatus and a communication method that improve the convenience of a user by compressing/encrypting a file automatically and transferring the compressed/encrypted file to a reception terminal as a file with password when a transmission instruction of a file is accepted in a transmission terminal.SOLUTION: A communication apparatus stores at least one transmission destination address and at least one file to be transmitted, which are acquired from an external apparatus via an interface, to a memory, and determines by a controller whether or not a password for encryption of the transmission file is acquired when a transmission instruction of a file is accepted. If the password is acquired, the communication apparatus encrypts the transmission file using the acquired password and transmits the encrypted transmission file to the transmission destination terminal of the address.

Description

  Embodiments described herein relate generally to a communication apparatus that performs communication via a network and a communication method thereof.

  There is a technology for transferring media data files such as voice, text, image, and video between IP communication devices using SIP. However, in such a transfer technique, in order to ensure the security of the media file to be transferred, the user encrypts / compresses the target file with an application code etc. in advance with a code number necessary for decryption / decompression, It was necessary to create an encrypted / compressed transmission file. Thereafter, the user issues an instruction to transmit the created transmission file.

JP 2008-283611 A

  A problem to be solved by the present invention is a communication apparatus and communication method for automatically compressing / encrypting a file and transferring the file as a password-added file to the receiving terminal when the transmitting terminal accepts a file transmission instruction Is to provide. As a result, the user does not need to prepare a compressed file in advance, and the convenience for the user is improved.

  To achieve the above object, the communication device according to the embodiment includes an interface connected to an external device and a transmission destination terminal via a network, and at least one destination address acquired from the external device via the interface. In addition, when a memory for storing at least one file to be transmitted and a file transmission instruction are accepted via the interface, it is determined whether or not a password for encrypting the transmission file in the memory has been acquired. And a controller that encrypts the transmission file using the acquired password and transmits the encrypted transmission file to the destination transmission destination terminal via the interface when the password is acquired.

1 is a block diagram illustrating a configuration of a communication system. The block diagram explaining the hardware constitutions of the communication apparatus in 1st Embodiment. The block diagram explaining the hardware constitutions of the user terminal in 1st Embodiment. FIG. 2 is a block diagram illustrating a hardware configuration of the multifunction peripheral according to the first embodiment. 6 is a flowchart for explaining processing of the communication apparatus according to the first embodiment when a file transmission is instructed from the multifunction peripheral to the communication apparatus using a Web browser function. 6 is a user interface screen for instructing file transmission from the MFP according to the first embodiment using a Web browser function. The sequence diagram which shows the communication processing until transmission of a 1st file is completed. The sequence diagram which shows the process until the transmission and communication of 2nd file are complete | finished. 10 is a flowchart for explaining processing of the communication apparatus according to the second embodiment when a file transmission is instructed from the multifunction peripheral to the communication apparatus using a Web browser function. The user interface screen which instruct | indicates file transmission using a web browser function from the operation panel of the multifunctional machine of 2nd Embodiment. The user interface screen which instruct | indicates file transmission using a web browser function from the operation panel of the multifunctional machine of 2nd Embodiment. The user interface screen which instruct | indicates file transmission using a web browser function from the operation panel of the multifunctional machine of 2nd Embodiment. The flowchart explaining the process of the communication apparatus of 3rd Embodiment when instruct | indicating file transmission to a communication apparatus using a web browser function from a user terminal. The user interface screen which instruct | indicates file transmission using the web browser function from the user terminal of 3rd Embodiment.

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

(First embodiment)
FIG. 1 is a block diagram illustrating an example of a configuration of a communication system. This communication system includes a SIP (Session Initiation Protocol) server 100, a network 102, G / W (Gateway) 104 and 106, communication devices 120 and 122, MFPs 112 and 114, and user terminals 116 and 118. The communication device 120, the multifunction machine 112, and the user terminal 116 are connected to the network 102 via the LAN 108 and G / W 104. The communication device 122, the multifunction peripheral 114, and the user terminal 118 are connected to the network 102 via the LAN 110 and the G / W 106. The SIP server 100 communicates with the communication devices 120 and 122 via the network 102. 1 includes two communication devices, multifunction devices, and user terminals each connected to the network 102, the number of communication devices, multifunction devices, and user terminals may be three or more. The communication device is connected to at least one of the multifunction peripheral and the user terminal. Note that the network 102 may be an NGN (Next Generation Network) that is a network dedicated to a telecommunications carrier or a publicly known Internet. In FIG. 1, the network 102 is described as NGN as an example.

  The G / Ws 104 and 106 match various types of conditions between the LANs 108 and 110 and the network 102. The G / Ws 104 and 106 allow devices connected to the LANs 108 and 110 to communicate via the network 102. The G / Ws 104 and 106 may include a port to which an analog communication terminal is connected. In that case, the G / Ws 104 and 106 enable the analog communication terminal to communicate via the network 102.

  The communication devices 120 and 122 establish a session by mutually transmitting and receiving SIP messages via the SIP server 100 in the call control process, and transfer media data (voice, text, image, video, etc.) in the subsequent communication process. (Hereinafter referred to as “file transfer”). For example, the communication device 120 transmits media data from the multifunction machine 112 and the user terminal 116 to the communication device 122 via the network 102. The communication device 122 has the same function as the communication device 120.

  The SIP server 100 relays SIP messages for call connection between the communication devices 120 and 122. In addition, the SIP server 100 manages information such as a global address, a port number, and a NAT (Network Address Translation) type related to the communication devices 120 and 122 (executes registration, update, deletion processing, etc. to the location server).

  FIG. 2 is a block diagram illustrating a hardware configuration of the communication apparatuses 120 and 122 according to the first embodiment. Here, the communication device 120 will be described as an example.

  The communication device 120 includes software, hardware, or an appropriate combination thereof for executing communication with a device on the LAN 108, the SIP server 100, the communication device 122, and the like.

  The communication device 120 includes a control unit 202, a storage device 212, and a communication interface (communication I / F) 218.

  The control unit (controller) 202 includes a processor 204 and a memory 206, each composed of a CPU (Central Processing Unit) or an MPU (Micro Processing Unit). The control unit 202 executes document processing in which graphics, images, characters, tables, and the like are mixed. Further, the control unit 202 controls file transfer processing with the communication apparatus of the other party. The memory 206 is, for example, a semiconductor memory, and includes a ROM (Read Only Memory) 208 that stores various control programs, and a RAM (Random Access Memory) 210 that provides a temporary work area for the processor 204. Each component of the communication device 220 is connected via the bus 220.

  The storage device 212 stores an application program 214 and an OS (Operating System) 216. The application program 214 operates as software for the OS 216. The application program 214 includes a web application in addition to general software. The application program 214 includes a screen configuration program to be displayed on the MFP 112 or the user terminal 116 on the LAN 108. Further, the storage device 212 stores media data (such as voice data, text data, image data, and video data) acquired via the communication I / F 218. The storage device 212 stores, for example, media data transmitted from the communication device 122 and media data received from the MFP 112 or the user terminal 116 on the LAN 108. The storage device 212 may be, for example, a hard disk drive or other magnetic storage device, an optical storage device, a semiconductor storage device such as a flash memory, or any combination thereof. The communication device 120 may use a server, a PC, or other storage device connected via the communication I / F 218 instead of the storage device 212.

  The communication I / F 218 is an interface connected to an external device. The communication I / F 218 includes, for example, an appropriate wireless or wired interface such as IEEE 802.15, IEEE 802.11, IEEE 802.3, IEEE 1284 such as Bluetooth (registered trademark), infrared connection, or optical connection. The communication I / F 218 may further include a USB connection unit to which a USB standard connection terminal is connected, a parallel interface, and the like. The communication I / F 218 transmits / receives media data to / from an external device such as the user terminal 116 or the multifunction machine 112. The control unit 202 communicates with the G / W 108, the SIP server 100, the counterpart device (for example, the communication device 122), and other external devices via the communication I / F 218 in accordance with a predetermined communication protocol.

  The control unit 202 exchanges SIP messages with the SIP server 100 and the counterpart device, and establishes a session.

  In addition, the control unit 202 generates a transmission file from the media data received from the multifunction machine 112 or the user terminal 116. The data from the multifunction machine 112 includes image data of a document scanned by the multifunction machine. The media data received from the multi-function peripheral 112 is received as one file when the read document has a plurality of pages. Alternatively, it may be received as a plurality of files in units of one page based on the reading conditions of the multifunction machine 112. Further, the control unit 202 compresses and encrypts a file for transmission before file transmission using an application program stored in the storage device 212 based on a user instruction.

  Subsequently, the control unit 202 executes processing for packetizing and transmitting media data generated as a file. The control unit 202 checks data arrival, duplication, omission, etc. based on TCP (Transmission Control Protocol). The control unit 202 uses, for example, a protocol defined by RFC3261. As will be described later with reference to FIG. 7 or FIG. 8, the control unit 202 includes one or more pieces of information on, for example, capability information regarding the file transfer function and information on the file to be transferred (for example, file name, file format, file size) Is exchanged with the partner apparatus using an SDP (Session Description Protocol) description document on the SIP message.

  The control unit 202 also saves the file received from the counterpart device in the storage device 212. Alternatively, when an instruction to print is received from the counterpart apparatus, the file is transferred to a preset image forming apparatus. The image forming apparatus (for example, the multifunction machine 112) that has received the transferred file generates image data for printing from the received file and prints it on a sheet.

FIG. 3 is a block diagram illustrating a hardware configuration of the user terminals 116 and 118 according to the first embodiment. The user terminals 116 and 118 include a desktop type, laptop type, or tablet type PC (Personal Computer), a mobile phone, a PDA (Personal Digital Assistant), or a media player. Here, a PC will be described as an example of the user terminal 116.

  The user terminal 116 includes software, hardware, or an appropriate combination thereof for executing communication with the communication device 120 and the multifunction machine 112. Further, the user terminal 116 has an appropriate interface such as a web browser or other dedicated application for exchanging with various web pages and device pages.

  The user terminal 116 includes a control unit 302, a storage device 312, a communication interface (communication I / F) 320, an input interface (input I / F) 322, an input unit 324, and a display interface (display I / F). 326 and a display portion 328.

  The control unit (controller) 302 includes a processor 304 and a memory 306 including a CPU (Central Processing Unit) or an MPU (Micro Processing Unit). The control unit 302 executes document processing in which graphics, images, characters, tables, and the like are mixed. The memory 306 is, for example, a semiconductor memory, and includes a ROM (Read Only Memory) 308 that stores various control programs, and a RAM (Random Access Memory) 310 that provides a temporary work area to the processor 304. Each component of the user terminal 116 is connected via a bus 330.

  The storage device 312 stores an application program 314, a printer driver 316, and an OS (Operating System) 318. The application program 314 operates as OS 318 software. The application program 314 includes a web browser and a web application in addition to general software. The printer driver 316 is a device driver that controls the multifunction peripheral 112 in accordance with a print instruction from the application program 314, and operates as software of the OS 318. The storage device 312 may be, for example, a hard disk drive or other magnetic storage device, an optical storage device, a semiconductor storage device such as a flash memory, or any combination thereof.

  The communication I / F 320 is an interface connected to an external device. The communication I / F 320 communicates with the multi-function peripheral 112 via an appropriate wireless or wired connection such as IEEE 802.15, IEEE 802.11, IEEE 802.3, IEEE 3304, such as Bluetooth (registered trademark), infrared connection, or optical connection. The communication I / F 320 may further include a USB connection unit to which a USB standard connection terminal is connected, a parallel interface, and the like. The control unit 302 communicates with the multifunction machine 112, the USB device, and other external devices via the communication I / F 320.

  The input I / F 322 is connected to the input unit 324. As the input unit 324, a keyboard device or a mouse is used as a man-machine interface.

  The display I / F 326 is connected to the display unit 328. The display I / F 326 receives data or instructions to be displayed on the display unit 328 from other components connected to the bus 330. The display I / F 326 outputs display data to the display unit 328. As the display unit 328, for example, a display attached to the PC is used.

  FIG. 4 is a block diagram illustrating a hardware configuration of the multifunction machines 112 and 114 according to the first embodiment. Here, the multifunction device 112 will be described as an example.

  The multifunction machine 112 includes a control unit 402, a storage device 412, a communication interface (communication I / F) 414, an operation panel 416, a scanner unit 422 for reading a document, a printer unit 424 for forming an image, and a facsimile control. A unit (FCU) 426 is provided. Each component of the multifunction machine 112 is connected via a bus 428.

  The control unit 402 includes a processor 404 including a CPU (Central Processing Unit) or an MPU (Micro Processing Unit), and a memory 406. The memory 406 is, for example, a semiconductor memory, and includes a ROM (Read Only Memory) 408 that stores a control program of the processor 404 and a RAM (Random Access Memory) 410 that provides a temporary work area to the processor 404. The control unit 402 controls the operation panel 416, the scanner unit 422, the printer unit 424, and the facsimile control unit (FCU) 426 based on a control program or the like stored in the ROM 408 or the storage device 412. The control unit 402 further has a function of correcting or expanding the image data.

  The storage device 412 stores application programs and an OS. The application program includes a program that executes a function of the multifunction peripheral such as a copy function, a print function, a scanner function, a facsimile function, and a network file function. The application program further includes an application for a Web client (Web browser) and other applications.

  The storage device 412 temporarily stores image data of a document read by the scanner unit 422 or image data acquired via the communication I / F 414. The storage device 412 may be, for example, a magnetic storage device such as a hard disk drive, an optical storage device, a semiconductor storage device (flash memory, etc.), or any combination of these storage devices. The storage device 412 appropriately stores software updates, protected electronic documents, text data, account information, policy information, and the like.

  The communication I / F 414 is an interface connected to an external device. The communication I / F 414 is connected to an external device via an appropriate wireless or wired connection such as IEEE 802.15, IEEE 802.11, IEEE 802.3, IEEE 1284, such as Bluetooth (registered trademark), infrared connection, or optical connection. The communication I / F 414 may further include a USB connection unit to which a USB standard connection terminal is connected, a parallel interface, and the like. The control unit 402 communicates with the communication device 120, the user terminal 116, the USB device, and other external devices via the communication I / F 414.

  The operation panel 416 includes a touch panel display unit 418 and various operation keys 420. The operation keys 420 include, for example, a numeric keypad, a reset key, a stop key, and a start key. The display unit 418 displays instruction items related to printing conditions such as paper size, number of copies, print density setting, or finishing (binding, folding), for example. The display unit 418 also displays instruction items related to file transmission conditions such as a destination for fax transmission and file transmission, reading setting of a file to be transmitted, and processing setting of how the transmission destination processes the file to be transmitted. To do. An instruction for the displayed item is input from the display unit 418.

The scanner unit 422 includes a built-in scanning reading unit that reads a document as an image, a document placing table, and an automatic document feeder that transports the document to a reading position. A scanning reading unit of the scanner unit 422 reads a document set on a document table or an automatic document feeder.
The printer unit 424 includes a known image forming unit including a photosensitive drum, for example, and a developing unit using toner, for example. The printer unit 424 forms an image corresponding to the image data of the document read by the scanner unit 422 by these units or an image corresponding to the image data sent from the user terminal 116 on the sheet. In addition, the printer unit 424 prints a file acquired from the communication device 120 via the communication I / F 414 on a sheet.

  Next, a case where image data of a document scanned by the multifunction machine 112 is transmitted as a file will be described. FIG. 5 is a flowchart for explaining a process in which the communication device 120 of the transmission terminal transfers a file to the communication device 122 of the reception terminal when the file transmission is instructed to the communication device 120 using the Web browser function from the operation panel of the multifunction machine 112. It is.

  In 501 of FIG. 5, when the multifunction device 112 receives a user instruction via the operation panel 416, the multifunction device 112 accesses the communication device 120 using the Web browser function. That is, the communication device 120 accepts access from the multifunction device. In the multifunction machine 112, the user sets a document on the scanner unit 422.

  In 502, the communication apparatus 120 accepts registration of a destination address via the operation panel 416 of the multifunction machine 112. The user directly inputs the destination of the transmission destination via the operation panel 416 of the multi-function peripheral 112, or selects from the address book stored in the communication apparatus 120 or the transmission / reception history and registers it in the communication apparatus 120. Note that the address book used for selecting the destination is not limited to the one stored in the communication device 120, and the destination may be selected from the address book stored in the user terminal 116 or the multifunction machine 112. A plurality of destinations may be registered at the same time.

  FIG. 6 is an example of a user interface screen for instructing file transmission from the operation panel 416 of the multifunction peripheral 112 using the Web browser function. As shown in FIG. 6A, in this embodiment, as an example, the telephone number XXXXXXXXXXXX of the communication device 122 is registered as a destination.

  Reference numeral 601 in FIG. 6A denotes a button for setting the “transmission with password” function. When the button 601 is operated, the user interface screen for inputting the password in FIG. 6B is displayed, and the password can be accepted. When the “transmission with password” function is enabled, the user inputs a password in the input field 602. Reference numerals 603 in FIGS. 6A and 6B denote buttons for instructing the communication apparatus 120 to perform file transmission processing.

  Next, as illustrated in FIG. 5, the communication apparatus 120 receives data of the transmission file from the multi-function peripheral in 503. That is, when the transmission button 603 in FIG. 6 is operated, the multi-function peripheral 112 reads a document set on the document table or the automatic document feeder in the scanner unit 422. When the multifunction device 112 does not accept detailed reading settings, the multifunction device 112 scans the document with a predetermined setting (default setting). The default setting items include, for example, a color mode in which to read the original in a color, monochrome, or gray scale mode, a single-sided / double-sided setting in which the original is single-sided or double-sided, and resolution. Etc. are included. The multifunction machine 112 transmits the image data of the document read by the scanner unit 422 to the communication device. The communication device 120 receives the image data transmitted from the multifunction machine 112 and stores it in the storage device 212 as a transmission file.

  In step 504, the control unit 202 of the communication apparatus 120 determines whether the “transmission with password” setting is valid. For example, the control unit 202 determines whether there is a password input in the input field 602 in FIG.

  If “transmission with password” is not set (No in 504), the control unit 202 of the communication apparatus 120 transmits the transmission file to the registered communication apparatus 122 via the communication I / F 218 in 507. To do.

  When “transmission with password” is set (Yes in 504), the control unit 202 of the communication apparatus 120 transmits the file to be transmitted when there are a plurality of transmission files transmitted from the multifunction machine 112 as described above. Are compressed into one file in a predetermined format with a password entered in the input field 602 (505). For example, the control unit 202 compresses a file to be transmitted into one file and encrypts it with the password input in the input field 602. As the compressed file format, for example, ZIP, RAR, AFA, CAB, GCA, DGCA, LHA, and other general lossless compression methods may be used. Next, in 506, the control unit 202 of the communication apparatus 120 transmits the compressed transmission file to the communication apparatus 122 via the communication I / F 218. On the receiving terminal side, a user who is separately informed of this password by means of e-mail or the like inputs the password when decompressing the file. If the entered password is correct, the compressed file is decompressed into the original files.

  Next, processing in which the communication apparatus 120 in 506 transmits a transmission file to the communication apparatus 122 via the communication I / F 218 will be described. 7 and 8 are sequence diagrams showing communication processing of the communication system of FIG. FIG. 7 shows the processing until the transmission of the first file is completed, and FIG. 8 shows the processing until the communication is terminated after the transmission of the second file and the transmission of the second file. That is, FIGS. 7 and 8 show a series of processes for transmitting a plurality of files in one job. In this example, the communication device 120 operating as a transmitting terminal (hereinafter referred to as a transmitting terminal) and the communication device 122 operating as a receiving terminal (hereinafter referred to as a receiving terminal) register in advance with the SIP server 100 (such as transmission of REGISTER commands). )I do.

  When the user instructs file transmission to the communication apparatus 120 from the user terminal 116 or the multifunction machine 112 using the Web browser function, as shown in FIG. 7, in 701, the transmission terminal dials the destination number of the reception terminal to make a call. (Delivery request).

  In 702, the transmission terminal transmits a session start INVITE command, and exchanges a series of SIP commands with the reception terminal via the SIP server 100. Subsequently, the calling destination is called from the SIP server, and a 180 Ringing command indicating that the calling is in progress is sent to the transmitting terminal via the SIP server. Next, when the transmitting terminal receives the 200 OK command via the SIP server, the transmitting terminal recognizes that communication has been established, and transmits an ACK command as a response command to the SIP server. Thereby, the SIP call connection is completed.

  In 703, the transmitting terminal and the receiving terminal establish a connection. Establishing a connection means setting a logical communication path (connection) for performing communication between a transmission terminal and a reception terminal. The transmitting terminal sends a SYN command specifying the port number of the receiving terminal to be connected and the sequence number of the transmitting terminal, and tries to establish an uplink connection. The receiving terminal responds to the SYN command from the transmitting terminal with an ACK command that approves the establishment of the uplink connection, and tries to establish the downlink connection by transmitting the SYN command specifying the sequence number of the receiving terminal itself. The transmitting terminal responds to the SYN command from the receiving terminal with an ACK command that approves establishment of the downlink connection. Here, for the sake of convenience, the transfer from the transmitting terminal to the receiving terminal is called up and the reverse is called down. With the above processing, a connection is established before transferring data such as a file.

  In 704, the transmission terminal transmits a SOAP Get Service command for capability inquiry, and executes a series of SOAP command exchanges with the reception terminal. Upon receiving the capability service SOAP Service Available command, the transmitting terminal acquires the capability file of the receiving terminal. The receiving terminal acquires the capability file of the transmitting terminal by receiving the SOAP Get Service command.

  In 705, the transmission terminal requests permission of job start (job generation request) from the reception terminal by a SOAP Create Job command. The SOAP Create Job command is associated with attributes required for starting a job, such as a user name, job name, file name, transmission file format (eg, tiff), the size of the first file to be transmitted, or the first file. Processing conditions.

  The receiving terminal recognizes the attribute of the first file transmitted by the transmitting terminal by receiving the SOAP Create Job command. The receiving terminal checks the size of the first transmission file included in the SOAP Create Job command and the capacity of the memory or storage device of the receiving terminal, and if the free capacity is sufficient, permits the job start (job generation response) SOAP A Create Job Response command is transmitted to the transmission terminal.

  The transmission terminal recognizes that the job generation request is permitted by receiving the SOAP Create Job Response command. When the session is established by the communication, in 706, the transmission terminal transmits the first transmission file to the reception terminal.

  Based on the processing condition 603, the receiving terminal stores the received first file in the storage device of the receiving terminal or transfers it to the multi function peripheral 114. The receiving terminal notifies the transmitting terminal of reception of the first file.

  When the transmission of the first transmission file ends, the transmission terminal requests permission of job start (job generation request) from the reception terminal by a SOAP Create Job command, as indicated by reference numeral 801 in FIG. The SOAP Create Job command is associated with attributes necessary for starting a job, such as a user name, a job name, a file name, a format of a transmission file (eg, tiff), a size of a second file to be transmitted, or a second file. Processing conditions. In addition, when there is a message that is a character string such as a comment associated with the second transmission file, the transmission terminal transmits the message to the reception terminal together with the SOAP Create Job command.

  The receiving terminal recognizes the attribute of the second file transmitted by the transmitting terminal by receiving the SOAP Create Job command. The receiving terminal checks the size of the second transmission file included in the SOAP Create Job command and the capacity of the memory or storage device of the receiving terminal, and if the free capacity is sufficient, permits the job start (job generation response) A SOAP Create Job Response command is transmitted to the transmitting terminal.

  The transmission terminal recognizes that the job generation request is permitted by receiving the SOAP Create Job Response command. When a session is established by the above communication, in 802, the transmission terminal transfers the second transmission file to the reception terminal.

  Based on the processing conditions, the receiving terminal saves the received second file in the storage device of the receiving terminal or transfers it to the multifunction device 114. The receiving terminal notifies the receiving end terminal of the reception of the second file.

  When the transmission of the second transmission file ends, that is, when the transmission of data is completed, the connection used for communication is closed in 803. First, the transmitting terminal transmits a FIN command for ending data transmission to the receiving terminal. Upon receiving the FIN command, the receiving terminal responds to the transmitting terminal with an ACK command that acknowledges the end of the upstream connection. Subsequently, the receiving terminal transmits a FIN command to the receiving terminal. Upon receiving the FIN command, the transmitting terminal responds to the receiving terminal with an ACK command that acknowledges the end of the downlink connection. In this way, the connection between the transmitting terminal and the receiving terminal is terminated when both the transmitting and receiving terminals send a FIN command to the other party after data transmission is completed and the ACK command is received for confirmation of the FIN command. Next, the transmitting terminal executes communication for terminating the SIP connection session (804). The communication connection and termination processes described above are merely examples of the embodiment, and the present invention is not limited to this.

  In FIG. 7 and FIG. 8 described above, the process of separately transmitting a plurality of files in one job communication process has been described. In the case of transmission with a password, a plurality of files are compressed into one file. Therefore, when this compressed file is transmitted, the processes 801 and 802 in FIG. 8 are omitted.

  According to the above embodiment, when ensuring the security of the file to be transferred, the transmission terminal scans the document by inputting the password and setting the transmission with password when scanning the document with the multifunction device on the transmission side. In addition to acquiring the image data of the original document from the multifunction peripheral, the image data is automatically compressed / encrypted, and the file is transferred to the receiving terminal as a file with a password. Therefore, the user does not need to instruct the process of compressing the transmission file separately after instructing the document scanning in the multifunction peripheral, which is convenient.

(Second Embodiment)
Next, another embodiment in which image data of a document scanned by the multifunction machine 112 is transmitted as a file will be described. FIG. 9 illustrates a process in which the communication device of the transmission terminal transfers the file to the communication device of the reception terminal when the operation panel of the multifunction device 112 instructs the communication device 120 (transmission terminal) to transmit a file using the Web browser function. It is a flowchart to do.

  In 901, when the multifunction device 112 receives a user instruction via the operation panel 416, the multifunction device 112 accesses the communication device 120 using the Web browser function. That is, the communication device 120 accepts access from the multifunction device. In the multifunction machine 112, the user sets a document on the scanner unit 422.

  In step 902, the communication apparatus 120 accepts setting of reading conditions for a file to be transmitted via the operation panel 416 of the multifunction machine 112. 10 to 12 are examples of user interface screens for instructing file transmission from the operation panel 416 of the multi-function peripheral 112 using the Web browser function. Reference numeral 1001 in FIG. 10 denotes a button for setting a document reading condition and a processing condition indicating how a file to be transmitted is processed at the transmission destination. When the button 1001 is operated, the user interface screen for setting the reading condition and the processing condition in FIG. 11 is displayed, and the reading condition can be set or changed. The setting items of the reading conditions include, for example, a color mode 1101 for setting a mode in which a document is read from among modes such as a color mode, a monochrome mode, and a gray scale mode, a resolution 1102, and a single side / double side setting for setting a single side or double side. Items such as setting 1103 are included.

  Next, in 903, the communication apparatus 120 receives the processing conditions of the transmission destination via the user interface screen of FIG. For example, the processing conditions of the transmission destination include “print”, “save”, and “save + print”. Reference numerals 1104, 1105, and 1106 in FIG. 11 denote buttons for setting “print”, “save”, and “save + print”, respectively. The processing conditions set here are transmitted to the destination communication device 122 (receiving terminal) together with the transmission file. The communication device 122 that has received the transmission file and the processing conditions processes the received file based on the processing conditions.

  When “print” is selected as the processing condition, the destination communication device 122 transfers the received file to the image forming apparatus (for example, the multifunction peripheral 114) registered as a device that executes printing in advance. . The multifunction device 114 prints the received file. Even when “print” is set, if the multifunction device 114 cannot print (the multifunction device is turned off or a network error, etc.), the communication device 122 transmits the received file to the communication device 122. To the storage device. When “save” is selected as the processing condition, the destination communication device 122 saves the received file in the storage device of the communication device 122. When “save + print” is selected as the processing condition, the destination communication device 122 transfers the received file to an image forming apparatus (for example, the multifunction peripheral 114) registered in advance as a device that executes printing.

  When the scan button 1107 is operated after setting the above processing conditions, the multi-function peripheral 112 reads a document set on the document table or the automatic document feeder at the scanner unit 422. The multifunction machine 112 transmits the image data of the document read by the scanner unit 422 to the communication device. The communication device 120 receives the image data transmitted from the multifunction machine 112 and saves it in the storage device 212 as a transmission file (904). Further, by repeating the processing of 902 and 903, another image of the original can be registered as a transmission file. In the present embodiment, the processing conditions are set for each transmission file, that is, for each image of a document scanned as one job. When the send document list button 1004 in FIG. 10 is operated, a list of files registered as transmission files is displayed.

  FIG. 12 is an example of a list display screen of files registered as transmission files. The list screen displays information such as the file name, the number of pages of the scanned document, the size, and the date and time of scanning. The list screen also includes check buttons 1201 and 1202 for confirming or changing the processing conditions of the transmission destination for each file registered as a transmission file. A check button 1201 sets validity / invalidity of “print” processing. A check button 12012 sets validity / invalidity of the “save” process.

  In 905 of FIG. 9, the communication apparatus 120 accepts registration of a destination address via the operation panel 416 of the multifunction machine 112. The user directly inputs the destination of the transmission destination via the operation panel 416 of the multi-function peripheral 112, or selects from the address book stored in the communication apparatus 120 or the transmission / reception history and registers it in the communication apparatus 120. Note that the address book used for selecting the destination is not limited to the one stored in the communication device 120, and the destination may be selected from the address book stored in the user terminal 116 or the multifunction machine 112. A plurality of destinations may be registered at the same time. As shown in FIG. 10, in the present embodiment, as an example, the telephone number XXXXXXXXXXXX of the communication device 122 is registered as a destination.

  Reference numeral 1003 in FIG. 10 denotes a button for setting a “send with password” function. Since the “send with password” function has been described in the first embodiment, a description thereof will be omitted. A transmission button 1004 in FIG. 10 instructs the communication apparatus 120 to transmit a transmission file.

  In 906 of FIG. 9, the control unit 202 of the communication apparatus 120 determines whether a transmission instruction has been accepted. When the transmission instruction is accepted (Yes in 906), in 907, the control unit 202 of the communication apparatus 120 determines whether the “transmission with password” setting is valid.

  When the setting of “transmission with password” is invalid (No in 907), the control unit 202 of the communication apparatus 120 sends the processing condition of the transmission file and the transmission destination to the communication apparatus 122 via the communication I / F 218 in 910. Send.

  When the setting of “transmission with password” is valid (Yes in 907), the control unit 202 of the communication apparatus 120 compresses the file to be transmitted into one file in a predetermined format with the input password (908). . For example, the control unit 202 compresses a file to be transmitted into one file and encrypts it with the input password. The control unit 202 of the communication device 120 sets the file name of the compressed file to a file name obtained by adding the extension of the compression format to the file name of the first file (file registered first) in the list of files to be transmitted. On the receiving terminal side, a user who is separately informed of this password by means of e-mail or the like inputs the password when decompressing the file. If the entered password is correct, the compressed file is decompressed into the original files.

  Subsequently, in 909, the control unit 202 of the communication apparatus 120 sets the transmission destination processing condition to “save” regardless of the transmission destination processing condition set in 903. Therefore, when “transmission with password” is enabled, even if the user sets processing conditions in advance, the destination communication device 122 automatically saves the received file in the storage device. Next, in 910, the control unit 202 of the communication device 120 transmits the transmission file and the processing conditions to the communication device 122 via the communication I / F 218.

  According to the above embodiment, when ensuring the security of the file to be transferred, the communication device on the transmission side acquires the image data of the scanned document from the multifunction peripheral and automatically compresses / encrypts the image data. Transfer the file to the receiving terminal as a file with a password. Therefore, the user does not need to instruct the process of compressing the transmission file separately after instructing the document scanning in the multifunction peripheral, which is convenient. In addition, according to the present embodiment, the communication apparatus can acquire image data of a document as another job from the multi-function peripheral, and can transmit a plurality of files in a single transmission process. Therefore, the user does not need to set the transmission process for each transmission file, which is convenient.

(Third embodiment)
Next, a case in which file transmission is instructed from the user terminal 116 will be described. FIG. 13 is a flowchart for explaining a case where the user terminal 116 instructs the communication apparatus 120 to transmit a file using the Web browser function.

  In 1301 of FIG. 13, the user terminal 116 accesses the communication apparatus 120 using the Web browser function. In 1302, the communication apparatus 120 accepts registration of a destination address via the user interface of the user terminal 116. The user directly inputs the destination of the transmission destination, or selects and registers from the address book stored in the communication device 120 and the transmission / reception history. Note that the address book used for selecting the destination is not limited to the one stored in the communication device 120, and the destination may be selected from the address book stored in the user terminal 116 or the multifunction machine 112. A plurality of destinations may be registered at the same time. In this embodiment, as an example, as shown in FIG. 14, the telephone number XXXXXXXXXXXX of the communication device 122 is registered as a destination.

  In 1303, the communication apparatus 120 accepts registration of a file to be transmitted. For example, based on a user instruction, a directory in which a file to be transmitted such as the user terminal 116, the multifunction machine 112, or a server is stored is designated. Subsequently, when receiving an instruction to confirm the transmission file from the user terminal 116, the communication apparatus 120 receives the transmission file from the apparatus that stores the file and stores it in the storage device 212.

  FIG. 14 is an example of a user interface screen displayed on the display unit 328 in order to instruct file transmission from the user terminal 116 using the Web browser function. By selecting a “reference” button 1401 and selecting a transmission file, a directory in which the file to be transmitted is stored is designated. Subsequently, by selecting a “confirm” button 1402, the specified file is transmitted from the device storing the file to the communication device 120 and stored in the storage device 212 of the communication device 120. File 1 in the figure shows a state in which a transmission file whose file name is file A is registered.

  In 1304 of FIG. 13, the communication apparatus 120 receives a processing condition indicating how to process a file to be transmitted at the transmission destination via the user interface of the user terminal 116. As shown in FIG. 14, for example, the processing condition 1403 of the transmission destination includes “save”, “print”, and “save + print”. The processing condition 1403 set here is transmitted to the destination communication apparatus 122 together with the transmission file. The communication device 122 that has received the transmission file and the processing condition 1403 processes the received file based on the processing condition 1403. In the present embodiment, the processing condition 1403 is set for each transmission file.

  Reference numeral 1404 in FIG. 14 denotes a check box for setting validity / invalidity of “transmission with password”. When the check box 1404 is checked and “transmission with password” is validated, the input field 1405 is validated and the password can be accepted. 14 is an icon for instructing the communication apparatus 120 to perform file transmission processing.

  In 1305, the control unit 202 of the communication apparatus 120 determines whether a transmission instruction has been accepted. When a transmission instruction is accepted (Yes in 1305), in 1306, the control unit 202 of the communication apparatus 120 determines whether the “transmission with password” setting is valid. For example, the control unit 202 determines whether or not the check box 1404 in FIG. 14 is checked and a password is input to the input field 1405.

  When the “transmission with password” setting is invalid (No in 1306), the control unit 202 of the communication apparatus 120 transmits the transmission file and the processing condition 1403 to the communication apparatus 122 via the communication I / F 218 in 1309. .

  If the “transmission with password” setting is valid (Yes in 1306), the control unit 202 of the communication apparatus 120 compresses the file to be transmitted into one file in a predetermined format with a password input in the input field 1405. (1307). For example, the control unit 202 compresses the file to be transmitted into one file and encrypts it with the password input in the input field 1405. The control unit 202 of the communication device 120 sets the file name of the compressed file to a file name obtained by adding the extension of the compression format to the file name of the first file (file registered first) in the list of files to be transmitted.

  Subsequently, in 1308, the control unit 202 of the communication apparatus 120 sets the destination processing condition 1403 to “save” regardless of the destination processing condition 1403 set in 1304. Therefore, when the check box 1404 is checked and “transmission with password” is enabled, the destination communication device 122 automatically saves the received file in the storage device regardless of the setting of the processing condition 1403. Next, in 1309, the control unit 202 of the communication apparatus 120 transmits the transmission file and the processing condition 1403 to the communication apparatus 122 via the communication I / F 218.

  According to the embodiment, it is possible to instruct file transmission from the user terminal. In addition, when ensuring the security of the file to be transferred, the transmission-side communication device acquires an uncompressed media file from an external device such as a user terminal or a multi-function device, and automatically compresses / encrypts the image data to generate a password. Transfer the file to the receiving terminal as an attached file. Therefore, it is not necessary to separately instruct a process for compressing the transmission file, which is convenient. Moreover, according to this Embodiment, the communication apparatus can acquire several files from an external device, and can transmit several files collectively by one transmission process. Therefore, the user does not need to set the transmission process for each transmission file, which is convenient. On the receiving terminal side, a user who is separately informed of this password by means of e-mail or the like inputs the password when decompressing the file. If the entered password is correct, the compressed file is decompressed into the original files.

  In the above-described embodiment, an example in which the communication device is a device different from the multifunction peripheral is shown, but the present invention is not limited to this. For example, the main body that performs the operation of the communication apparatus may be provided in the multifunction peripheral, and the communication apparatus and the multifunction peripheral may be integrated. In this case, the communication apparatus acquires image data of a file to be transmitted using a scanner or the like.

  An entity that performs an operation is an entity related to a computer, such as hardware, a complex of hardware and software, software, software being executed, and the like. For example, the subject that performs the operation is a process, processor, object, executable file, thread, program, and computer executed on the processor, but is not limited thereto. For example, an MFP or a processing apparatus and an application executed there may be a main body that executes an operation. A process or thread may perform multiple actors that perform operations. The subject that performs the operation may be in one document processing apparatus, or may be distributed to a plurality of document processing apparatuses.

  In the above embodiment, the function for carrying out the invention is recorded in advance in the apparatus. However, the present invention is not limited to this, and the same function may be downloaded from the network to the apparatus, and the same function is recorded. What is stored in the medium may be installed in the apparatus. The recording medium may be any form as long as the recording medium can store the program and can be read by the apparatus, such as a CD-ROM. In addition, the function obtained by installing or downloading in advance may be realized in cooperation with an OS (operating system) inside the apparatus.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

100 SIP server 112, 114 MFP 116, 118 User terminal 120, 122 Communication device 202 Control unit 206 Memory 212 Storage device 218 Communication I / F

Claims (7)

An interface connected to an external device and a destination terminal via a network;
A memory for storing at least one destination address and at least one file for transmission obtained from the external device via the interface;
When receiving a file transmission instruction via the interface, it is determined whether or not a password for encrypting the transmission file in the memory has been acquired, and when the password is acquired, the acquired password is used. A controller that encrypts the transmission file and transmits the encrypted transmission file to the destination transmission destination terminal via the interface;
A communication device comprising:   The controller according to claim 1, wherein when the password is acquired via the interface, the file to be transmitted is automatically compressed and encrypted using the acquired password, and transmitted to the destination transmission destination terminal as a file with a password. The communication device described.   When the controller acquires a password via the interface, the plurality of files to be transmitted are automatically compressed into one file and encrypted using the acquired password, and the destination transmission destination as a file with a password The communication apparatus according to claim 2, which transmits to a terminal.   When the controller compresses a plurality of files into one file, the file name of the compressed file is changed to a file name of a file first stored as a transmission file in the memory among the plurality of files. The communication apparatus according to claim 3, wherein the file name is changed to a file name with an extension.   The external device is a multifunction peripheral that scans a document and generates image data, and the controller acquires the image data via the interface after receiving a file transmission instruction via the interface. Determines whether there is a password for encrypting the acquired image data. If there is a password, encrypts the image data using the acquired password and converts it into a compressed file with a password, and sends it to the destination terminal. 5. The communication apparatus according to claim 4, wherein the compressed file is transmitted. A communication method executed by a controller of a communication device having an interface connected to an external device and a destination terminal via a network,
Receiving at least one destination address from the external device via the interface;
Obtain at least one file for transmission via the interface;
Obtain a password for encrypting the transmission file through the interface,
When receiving a file transmission instruction via the interface, it is determined whether or not a password for encrypting the transmission file has been acquired. If it is determined that there is a password, transmission is performed using the acquired password. A communication method for compressing and encrypting a file, and transmitting the encrypted transmission file to the destination transmission destination terminal via the interface. A communication method executed by a controller of a communication device connected to a destination terminal via a network,
Accept at least one destination,
Get at least one file to send,
Get a password to encrypt the file for transmission ,
When receiving a transmission instruction for the file, determine whether or not a password for encrypting the file has been obtained,
A communication method for compressing and encrypting the file using the acquired password and transmitting the encrypted file to a destination transmission destination terminal when it is determined that there is the password.

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