JP3608029B2 - Control method for internet facsimile communication system and real-time internet gateway device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a plurality of real-time Internet gateway apparatuses having a function of exchanging image information with a facsimile apparatus via a public network and a function of exchanging information via the Internet, and facsimile communication between the facsimile apparatuses via the Internet. Control method for an Internet facsimile communication system that realizes image processing in real time, a function for exchanging image information with a facsimile apparatus via a public network, and a function for exchanging information via the Internet, and the facsimile apparatus described above via the Internet The present invention relates to a real-time Internet gateway device having a function for realizing real-time facsimile communication.
[0002]
[Prior art]
In recent years, communication systems (hereinafter referred to as “mail-type Internet facsimile communication systems”) for communicating facsimile image information using electronic mail exchanged on the Internet have come into practical use. The technical contents of such a communication system are defined by RFCs (Request For Comments) 2301 to 2306 issued by an organization that summarizes technical contents related to the Internet called IETF (Internet Engineering Task Force).
[0003]
However, in this mail type Internet facsimile communication system, since the transmission side facsimile apparatus and the final destination facsimile apparatus do not communicate directly, it is not possible to immediately check the communication capability between the facsimile apparatuses. The image information communication using the various functions (resolution, image processing capability, etc.) cannot be performed. In addition, since the communication result cannot be notified immediately, it takes time until the communication result is notified to the transmission side user, and there is a situation in which the response to the necessity of retransmission is delayed.
[0004]
Thus, as a facsimile communication system using the Internet, a plurality of real-time Internet gateway devices having a function of exchanging image information with a facsimile apparatus via a public network and a function of exchanging information via the Internet are provided. There has been proposed a real-time type Internet facsimile communication system that uses two apparatuses and realizes facsimile communication between facsimile apparatuses via the Internet in real time.
[0005]
In such a real-time type Internet facsimile communication system, the transmission-side facsimile apparatus calls the reception-side real-time Internet gateway apparatus and notifies the destination telephone number. In the reception-side real-time Internet gateway apparatus, the remote-side real-time Internet gateway apparatus On the other hand, the destination telephone number notified from the transmission side facsimile apparatus is notified and a connection request is made.
[0006]
When the remote real-time Internet gateway device calls the notified destination telephone number and establishes a line, the remote real-time Internet gateway device starts a predetermined group 3 facsimile transmission procedure with the receiving facsimile device and performs a predetermined real-time transmission procedure. Start.
[0007]
As a result, the reception-side real-time Internet gateway device starts a group 3 facsimile transmission procedure with the sending-side group 3 facsimile device, and executes a predetermined real-time transmission procedure with the remote-side real-time Internet gateway device.
[0008]
As a result, the transmission-side facsimile apparatus can perform real-time facsimile communication with the reception-side facsimile apparatus via the reception-side real-time Internet gateway apparatus, the Internet, and the remote-side real-time Internet gateway apparatus. Can be sent.
[0009]
Accordingly, in this real-time type Internet facsimile communication system, since the communication capability between the facsimile devices can be confirmed in real time, the transmission-side facsimile device can transmit image information corresponding to the communication capability of the reception-side facsimile device, and the communication. Since the result is obtained immediately, a retransmission operation or the like can be performed quickly.
[0010]
[Problems to be solved by the invention]
However, such a real-time Internet facsimile communication system has the following disadvantages.
[0011]
That is, in this real-time type Internet facsimile communication system, a public telephone network line is connected between a transmission-side facsimile device and a reception-side real-time Internet gateway device, and between a remote-side real-time Internet gateway device and a reception-side facsimile device. Need to be established.
[0012]
Therefore, even if the transmission side facsimile apparatus calls the reception side real-time Internet gateway apparatus to receive the service, and the line is established between the transmission side facsimile apparatus and the reception side real-time Internet gateway apparatus, For example, if the line on the receiving facsimile apparatus is busy and a line cannot be established between the remote real-time Internet gateway apparatus and the receiving facsimile apparatus, facsimile communication between the transmitting facsimile apparatus and the receiving facsimile apparatus is performed. In this case, the transmitting facsimile machine needs to make a re-call.
[0013]
At this time, since a line is established between the transmission side facsimile apparatus and the reception side real-time Internet gateway apparatus, the transmission side facsimile apparatus is charged, and if such a repeated call occurs frequently, the communication fee is charged. This causes a problem of bulkiness.
[0014]
Originally, the real-time Internet facsimile communication system also has an effect that the communication fee can be reduced. However, if such a re-calling occurs frequently, the effect of reducing the communication fee is reduced.
[0015]
The present invention has been made in view of such a situation, and can control an internet facsimile communication system that can reduce an increase in communication charges and can perform image information communication in accordance with a user's intention, and a real-time Internet gateway. The object is to provide a device.
[0016]
[Means for Solving the Problems]
The present invention provides a plurality of real-time Internet gateway apparatuses having a function of exchanging image information with a facsimile apparatus via a public network and a function of exchanging information via the Internet, and facsimile communication between the facsimile apparatuses via the Internet. In the control method of the Internet facsimile communication system for realizing the real-time, the first real-time Internet gateway device receives a request for image information communication and proxy on / off setting information from the first facsimile device via the public network. If accepted, the destination number of the second facsimile machine as the destination is received from the first facsimile machine, the destination number is designated to the second real-time Internet gateway device, and the connection request is made. When the real-time Internet gateway device 2 receives the connection request and the proxy reception on / off setting information from the first real-time Internet gateway device, the real-time Internet gateway device calls the notified destination number and the second facsimile of the destination number. When a line is established with the apparatus, a predetermined real-time procedure is started with the first real-time Internet gateway apparatus. Thereafter, the first facsimile apparatus and the second facsimile apparatus are connected to each other. Facsimile communication is performed via the first real-time Internet gateway device, the Internet, and the second real-time Internet gateway device, while the second real-time Internet gateway device and the second fax machine If a communication error occurs between the second real-time Internet gateway device and the second real-time Internet gateway device, when the proxy reception ON is designated by the received proxy reception ON / OFF setting information, the first facsimile A predetermined facsimile transmission procedure is executed with the apparatus, the image information to be transmitted to the second facsimile apparatus is accumulated, the image information is recalled to the second facsimile apparatus, the accumulated image information is transmitted, If the proxy reception on / off setting information designates the proxy reception off, it is executed between the first facsimile apparatus and the first real-time Internet gateway apparatus when the communication error occurs. The communication operation is terminated with an error.
[0017]
It also has a function for exchanging image information with a facsimile machine via a public network and a function for exchanging information via the Internet, and a function for realizing facsimile communication between the facsimile machines in real time via the Internet. When a real-time Internet gateway device receives a connection request and proxy reception on / off setting information from another real-time Internet gateway device, the real-time Internet gateway device calls the notified destination number and establishes a line with the destination facsimile device of the destination number. Is established, a predetermined real-time procedure is started with the first real-time Internet gateway device, and thereafter, the originating facsimile device on the other real-time Internet gateway device side and the destination facsimile device are connected to each other. When a communication error occurs with the destination facsimile apparatus, and the proxy reception ON is designated by the received proxy reception ON / OFF setting information, the originating facsimile apparatus The image information to be transmitted to the destination facsimile machine is stored by executing a predetermined facsimile transmission procedure between the terminal and the destination facsimile apparatus, and the stored image information is transmitted to the destination facsimile apparatus, while the proxy reception is performed. When the on / off setting information specifies that the proxy reception is off, the communication operation being executed between the originating facsimile machine and the other real-time Internet gateway device is performed when the communication error occurs. It is designed to end with an error.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0020]
FIG. 1 shows an example of a real-time Internet facsimile communication system according to an embodiment of the present invention.
[0021]
The real-time Internet facsimile communication system has a function of performing facsimile communication between the group 3 facsimile apparatuses FG1 and FG2 connected to the public telephone network PSTN and the group 3 facsimile apparatuses FG1 and FG2 connected to the public telephone network PSTN. The real-time Internet gateway devices GW1 and GW2 are connected to the Internet INET and have a function of performing a predetermined real-time transmission procedure via the Internet INET.
[0022]
Here, the group 3 facsimile apparatus FG1 and the real-time internet gateway apparatus GW1 are installed in the same area, and the group 3 facsimile apparatus FG2 and the real-time internet gateway apparatus GW2 are installed in the same area. Is a remote area.
[0023]
Therefore, in this case, for the group 3 facsimile apparatus FG1, the real-time Internet gateway apparatus GW1 provides a communication service, and for the group 3 facsimile apparatus FG2, the real-time Internet gateway apparatus GW2 provides a communication service.
[0024]
FIG. 2 shows a configuration example of the real-time Internet gateway device GW (GW1, GW2).
[0025]
In the figure, a system control unit 1 performs various control processes such as a control process of each part of the real-time Internet gateway device, a facsimile transmission control procedure process, and a real-time transmission control procedure process. The control processing program executed by the system control unit 1 and various data necessary for executing the processing program are stored, and the work area of the system control unit 1 is configured. The clock circuit 4 is for storing various kinds of information unique to the real-time Internet gateway device, and the clock circuit 4 outputs current time information.
[0026]
The encoding / decoding unit 5 encodes and compresses the image signal and also decodes the encoded and compressed image information into the original image signal. Used mainly for error detection. The image storage device 6 is for storing a large amount of image information in an encoded and compressed state.
[0027]
The group 3 facsimile modem 8 is for realizing the modem function of the group 3 facsimile, and is a low-speed modem function (V.21 modem) for exchanging transmission procedure signals, and mainly for exchanging image information. A high-speed modem function (V.17 modem, V.34 modem, V.29 modem, V.27ter modem, etc.) is provided.
[0028]
The network control device 7 is for connecting the real-time Internet gateway device to the public telephone network PSTN, and has an automatic outgoing / incoming function.
[0029]
The Internet communication control unit 9 connects the real-time Internet gateway device to the Internet INET, and exchanges various data via the Internet INET. The TCP / IP packet analysis unit 10 includes the Internet communication control unit 9. The group 3 protocol information generation unit 11 corresponds to the reception information output from the TCP / IP packet analysis unit 10 in the real-time transmission procedure. The output signal is output to the Internet communication control unit 9.
[0030]
The group 3 protocol information extraction unit 12 is for extracting group 3 facsimile transmission procedure information to be transmitted in the real-time transmission procedure, and the TCP / IP packet conversion unit 13 is output from the group 3 protocol information extraction unit 12. This is for converting group 3 facsimile transmission procedure information into TCP / IP packet data.
[0031]
Further, the proxy reception function unit 14 transmits image information transmitted from the real-time Internet gateway device to the group 3 facsimile device of the public telephone network PSTN for the proxy reception among the data output from the group 3 protocol information generation unit 11. Is extracted and stored, and its operation is controlled by the system control unit 1.
[0032]
The system control unit 1, system memory 2, parameter memory 3, clock circuit 4, operation display unit 5, encoding / decoding unit 6, image storage device 7, group 3 facsimile modem 8, network control device 9, group 3 The protocol information generation unit 11 and the group 3 protocol information extraction unit 12 are connected to an internal bus 15, and data exchange between these elements is mainly performed through the internal bus 15. .
[0033]
Data exchange between the network control device 11 and the group 3 facsimile modem 10 is performed directly.
[0034]
In this real-time Internet facsimile communication system, for example, when image information is transmitted from the group 3 facsimile apparatus FG1 to the group 3 facsimile apparatus FG2 (refer to FIG. 1 hereinafter), first, the group 3 facsimile apparatus FG1. Calls the real-time Internet gateway device GW1 (S1).
[0035]
As a result, the real-time Internet gateway apparatus GW1 responds to the incoming call and responds a predetermined tone signal to the group 3 facsimile apparatus FG1 (S2).
[0036]
When the group 3 facsimile apparatus FG1 detects the tone signal from the real-time Internet gateway apparatus GW1, the group 3 facsimile apparatus FG1 communicates with the registered user number and the telephone number of the destination facsimile apparatus (in this case, the group 3 facsimile apparatus FG2). Requests to specify whether or not to request interception in case of an error, so that the user inputs his or her user number, the telephone number of the destination facsimile machine, and the request (or does not request) interception To do.
[0037]
Next, the group 3 facsimile apparatus FG1 receives, in real time, proxy reception on / off setting information indicating the user number input by the user, the destination telephone number, and whether or not the proxy reception is requested by the push button signal PB. The data is transmitted to the internet gateway device GW1 (S3). The format of information transmitted by the push button signal PB at this time is, for example, “(user number) # (destination telephone number) # (alternative reception on / off setting information)”.
[0038]
When the real-time Internet gateway apparatus GW1 receives the user number, the destination telephone number, and the proxy reception on / off setting information from the group 3 facsimile apparatus FG1 by the push button signal PB, the real-time Internet gateway apparatus GW1 makes a connection request to the real-time Internet gateway apparatus GW2. The destination telephone number and proxy reception on / off setting information are notified (S4).
[0039]
The real-time Internet gateway device GW2 that has received the connection request from the real-time Internet gateway device GW1 calls the destination telephone number notified at that time (S5).
[0040]
When the incoming call group 3 facsimile apparatus FG2 detects an incoming call, it responds to the incoming call (S6), whereby the real-time Internet gateway apparatus GW2 starts a predetermined real-time transmission procedure for the real-time Internet gateway apparatus GW1. .
[0041]
In this way, a communication path is formed between the group 3 facsimile machine FG1 and the real-time internet gateway apparatus GW1 via the public telephone network PSTN, and the real-time internet gateway apparatus GW1 and the real-time internet gateway apparatus GW2 via the internet INET. A communication path is formed between the group 3 facsimile apparatus FG1 and the group 3 facsimile apparatus FG2 by forming a communication path between the real-time Internet gateway apparatus GW1 and the group 3 facsimile apparatus FG1 via the public telephone network PSTN. A real-time communication path is formed between the two.
[0042]
Thereafter, the image information transmission operation is performed between the group 3 facsimile apparatus FG1 and the group 3 facsimile apparatus FG2 by the transmission procedure as shown in FIG. Note that the transmission side group 3 facsimile (G3FAX), the reception side gateway (GW), the remote side gateway, and the reception side group 3 facsimile in FIG. 3 are respectively the group 3 facsimile apparatus FG1 and the real-time Internet gateway apparatus GW1 in FIG. Corresponds to the real-time Internet gateway device GW2 and the group 3 facsimile device FG2, respectively. A signal exchanged between the reception side GW and the remote side GW is a signal related to the real-time transmission procedure.
[0043]
First, the receiving side G3 FAX that is called from the remote side GW sends a predetermined tone signal CED (called station identification signal) in response to the incoming call. When the remote side GW detects this tone signal CED, A signal (T30IND: CED) indicating that the CED has been detected is transmitted to the reception side GW, whereby the reception side GW transmits the tone signal CED to the transmission side G3 FAX.
[0044]
Next, the receiving side G3 FAX is a group 3 facsimile transmission procedure signal following the flag signal, a signal CSI for notifying its own terminal identification signal, and a signal for notifying its own transmission function DIS is sent sequentially. When the remote side GW detects the flag signal, the remote side GW transmits a signal (T30 IND: Flags) to the receiving side GW, and when the signals CSI and DIS are sequentially detected, the signal (V.21: HDLC: CSI) representing the signal CSI itself. ), A signal representing the FCS (frame check sequence) of the signal CSI (V.21: HDLC: CSI / FCS), a signal representing the signal DIS itself (V.21: HDLC: DIS), and an FCS of the signal DIS. A signal (V.21: HDLC: DIS / FCS) is transmitted to each reception side GW.
[0045]
Thereby, the reception side GW starts sending the flag signal to the transmission side G3 FAX at the time of receiving the flag signal, and receives the signals (V.21: HDLC: CSI) and (V.21: HDLC: DIS). The corresponding signals CSI and DIS are transmitted to the transmitting side G3 FAX.
[0046]
Thereby, the transmitting side G3 FAX knows the identification signal and transmission function of the receiving side G3 FAX, and therefore sets the transmission function and modem speed to be used at that time based on the notified transmission function. Next, the sending side G3 FAX sequentially sends a signal TSI for notifying the identification signal of the own terminal and a signal DCS for notifying the transmission function to be used, following the flag signal, which is a group 3 facsimile transmission procedure signal. Further, a signal TCF for performing modem training at the notified modem speed is transmitted.
[0047]
Accordingly, when the reception side GW detects the flag signal, the reception side GW transmits a signal (T30 IND: Flags) to the remote side GW, and when the signals TSI, DCS, and TCF are sequentially detected, the signal (V. 21: HDLC: TSI), a signal representing the FCS of the signal TSI (V.21: HDLC: TSI / FCS), a signal DCS itself (V.21: HDLC: DCS), and a signal (V.21 representing the FCS of the signal DCS). 21: HDLC: DCS / FCS), a signal representing the signal TCF itself (V.21: HDLC: TCF), and a signal representing the signal TCF (V.21: HDLC: TCF / FCS), respectively, to the remote GW Send.
[0048]
Thereby, the remote side GW starts sending the flag signal to the receiving side G3 FAX at the time of receiving the flag signal, and the signals (V.21: HDLC: TSI), (V.21: HDLC: DCS), ( V.21: HDLC: TCF), the corresponding signals TSI, DCS, TCF are transmitted to the receiving side G3 FAX.
[0049]
When receiving the signal TSI, the receiving side G3FAX acquires the identification information of the partner terminal (transmitting side G3FAX), and when receiving the signal DCS, acquires the transmission function to be used, thereby setting the modem speed and the signal TCF. Receive.
[0050]
Then, when the reception result of the signal TCF is good, the receiving side G3 FAX transmits a signal CFR for notifying that the reception preparation is completed, which is a group 3 facsimile transmission procedure signal following the flag signal. When the remote side GW detects the flag signal, the remote side GW transmits a signal (T30IND: Flags) to the reception side GW, and when detecting the signal CFR, the signal (V.21: HDLC: CFR) representing the signal CFR itself, and Signals representing the FCS of the signal CFR (V.21: HDLC: CFR / FCS) are transmitted to the transmission side GW, respectively.
[0051]
As a result, the transmission side GW starts sending the flag signal to the transmission side G3FAX when it receives the flag signal, and when receiving the signal (V.21: HDLC: CFR), sends the corresponding signal CFR to the transmission side G3FAX. And send.
[0052]
In this way, when the transmission of image information is ready, the transmission side G3 FAX transmits a training signal for modem retraining, and then transmits image information (Image Data) to transmit the image information. When the process ends, a signal EOP notifying that the image information transmission is completed is sent out following the flag signal.
[0053]
Further, when the reception side GW detects the training signal from the transmission side G3 FAX, the reception side GW transmits a signal (T30 IND: Speed) to the remote side GW, and subsequently divides the image information received from the transmission side G3 FAX into a plurality of parts, The divided image information is transmitted to the remote GW by a packet ((V.17: non ECM: Image Data) to (V.17: non ECM: Image Data)). When a flag signal is detected from the transmission side G3 FAX, a signal (T30 IND: Flags) is transmitted to the remote side GW, and when the signal EOP is detected, a signal (V.21: HDLC: EOP) representing the signal EOP itself, A signal (V.21: HDLC: EOP / FCS) representing the FCS of the signal EOP is transmitted to the remote GW.
[0054]
When the remote side GW receives the signal (T30 IND: Speed), it transmits the corresponding training signal to the receiving side G3 FAX, and when it receives the packet carrying the image information, it sequentially extracts the divided image information contained therein. The linked image information is created, and the image information is transmitted to the receiving side G3 FAX. Also, after the transmission of the image report is completed, transmission of a flag signal to the receiving side G3 FAX is started, and at this time, since the signal (V.21: HDLC: EOP) is received, the corresponding signal EOP is sent to the receiving side G3 FAX. Send to.
[0055]
The receiving side G3FAX receives the image information after retraining the modem with the training signal received from the remote side GW, and then receives the signal EOP following the flag signal, and the reception of the image information is completed. Recognize
[0056]
Then, if the reception result of the image information at that time is good, the reception side G3 FAX transmits a signal MCF notifying the fact to the remote side GW following the flag signal.
[0057]
When the remote side GW detects the flag signal, the remote side GW transmits a signal (T30 IND: Flags) to the reception side GW, and when detecting the signal MCF, a signal (V.21: HDLC: MCF), a signal representing the signal MCF itself, A signal (V.21: HDLC: CSI / FCS) indicating the FCS of the MCF is transmitted to the reception side GW.
[0058]
Thereby, the reception side GW starts sending the flag signal to the transmission side G3FAX when receiving the flag signal, and when receiving the signal (V.21: HDLC: MCF), the corresponding signal MCF is sent to the transmission side G3FAX. And send.
[0059]
Thereby, the transmission side G3 FAX recognizes that the image information has been normally received by the reception side G3 FAX. Thereafter, the transmission side G3 FAX transmits the signal DCN for instructing the line restoration to the reception side GW following the flag signal, and then restores the line.
[0060]
Accordingly, the signal (T30 IND: Flags), the signals (V.21: HDLC: DCN), and (V.21: HDLC: DCN / FCS) are transferred from the reception side GW to the remote side GW by the same procedure as described above. Sent. The reception side GW sequentially transmits the flag signal and the signal DCN to the reception side G3FAX. When the reception side G3FAX receives the signal DCN, the line is restored.
[0061]
As a result, the line between the transmission side G3FAX and the reception side GW and the line between the reception side G3FAX and the remote side GW are restored, and the real-time form formed between the transmission side G3FAX and the reception side G3FAX Communication path is disconnected.
[0062]
In this way, the facsimile transmission procedure between the transmission side G3 FAX and the reception side G3 FAX is executed in real time by the real time transmission procedure of the reception side GW and the remote side GW, and the transmission side G3 FAX to the reception side G3 FAX is executed. The image information is transmitted.
[0063]
Here, the signal (T30 IND: “signal name”) in FIG. 30 is a signal (data) for notifying the detection of a tonal signal according to ITU-T Recommendation T.30, the signal (V.21: HDLC: “signal name”). 30 is a signal for carrying a binary signal according to 30. “V.21” is an ITU-T recommendation V.21. 21 indicates that the signal is carried by the modem, and “HDLC” indicates that the signal is an HDLC frame.
[0064]
By exchanging such signals, a real-time transmission procedure is realized between the reception side GW and the remote side GW.
[0065]
By the way, when the data communication between the remote side GW and the receiving side G3 FAX has an error, the following measures are taken in this embodiment.
[0066]
First, in the case where the proxy reception OFF is set from the transmission side G3 FAX, if a data communication error occurs between the remote side GW and the reception side G3 FAX, the communication is immediately terminated at that time.
[0067]
In this case, the data communication error can be immediately detected by the transmission side G3 FAX, and appropriate measures such as re-transmission can be performed by the transmission side G3 FAX.
[0068]
Therefore, in this case, the transmission side G3 FAX does not perform image information communication in a mode (resolution, encoding method, etc.) that the user does not want, and realizes a transmission operation according to the user's wish. Can do.
[0069]
On the other hand, when the proxy reception ON is set from the transmission side G3FAX, if the reception side G3FAX is busy and a data communication error occurs at the time of outgoing call, the remote side GW receives the data during the transmission procedure in FIG. In the group 3 facsimile pre-transmission procedure, standard capabilities (for example, the paper size is “A4”, the resolution is “A4”, and the resolution is “ Negotiation of the transmission function and the like is performed with the transmission side G3 FAX by applying “standard” and the encoding method “HM”, etc.).
[0070]
Then, predetermined pseudo real-time processing (pseudo real-time transmission procedure) executed on behalf of the processing on the reception side GW is executed, image information transmitted from the transmission side G3 FAX is stored, and image information communication operation at that time Exit.
[0071]
When this image information communication operation is completed, the remote side GW notifies the reception side GW via the Internet INET that the proxy reception operation has been performed at that time. Thereby, the reception side GW creates a report for notifying that the image information is transmitted by the proxy reception operation, calls the transmission side G3 FAX using the public telephone network PSTN, and transmits the report image. .
[0072]
On the other hand, the remote GW makes a call to the receiving side G3 FAX at an appropriate interval, and when the receiving side G3 FAX responds to the incoming call, the remote side GW executes a predetermined group 3 facsimile transmission procedure to transfer the stored image information to the receiving side G3 FAX. Send to.
[0073]
Therefore, in this case, the image information transmitted from the transmission side G3 FAX is in a mode corresponding to the standard reception capability, but the image information can be reliably delivered to the reception side, and the transmission side G3 FAX can generate the image information. Call operations are not wasted. In this case, since the report indicating that the distribution is performed by proxy reception is transmitted from the reception side GW, the user of the transmission side G3 FAX can appropriately know the result of the transmission operation designated by the reception side GW.
[0074]
In addition, when a data communication error occurs before the reception side G3 FAX reception capability response, that is, before the reception side G3 FAX reception capability is confirmed, at the time of the communication error occurrence, the remote side GW The communication with the receiving side G3FAX is terminated, the above-described pseudo real-time processing is started for the receiving side GW, the standard capability is applied as the receiving side G3FAX capability, and the pre-transmission procedure is executed. Then, the subsequent image information transmission procedure is executed to receive and store the image information from the transmission side G3 FAX.
[0075]
When this image information communication operation is completed, the remote side GW notifies the reception side GW via the Internet INET that the proxy reception operation has been performed at that time. Thereby, the reception side GW creates a report for notifying that the image information is transmitted by the proxy reception operation, calls the transmission side G3 FAX using the public telephone network PSTN, and transmits the report image. .
[0076]
On the other hand, the remote GW makes a call to the receiving side G3 FAX at an appropriate interval, and when the receiving side G3 FAX responds to the incoming call, the remote side GW executes a predetermined group 3 facsimile transmission procedure to transfer the stored image information to the receiving side G3 FAX. Send to.
[0077]
In addition, when a data communication error occurs after receiving the response of the reception capability of the reception side G3FAX, that is, after confirming the reception capability of the reception side G3FAX, the remote side GW The communication with the receiving side G3FAX is terminated, and the above-described pseudo real-time processing is started for the receiving side GW, and the capability value confirmed at that time is applied as the capability of the receiving side G3FAX. Then, the subsequent image information transmission procedure is executed to receive and store the image information from the transmission side G3 FAX.
[0078]
When this image information communication operation is completed, the remote side GW notifies the reception side GW via the Internet INET that the proxy reception operation has been performed at that time. Thereby, the reception side GW creates a report for notifying that the image information is transmitted by the proxy reception operation, calls the transmission side G3 FAX using the public telephone network PSTN, and transmits the report image. .
[0079]
On the other hand, the remote GW makes a call to the receiving side G3 FAX at an appropriate interval, and when the receiving side G3 FAX responds to the incoming call, the remote side GW executes a predetermined group 3 facsimile transmission procedure to transfer the stored image information to the receiving side G3 FAX. Send to.
[0080]
Therefore, in this case, the image information transmitted from the transmission side G3 FAX is in a mode corresponding to the reception capability of the reception side G3 FAX, so the image information received by the reception side G3 FAX is directly connected by the transmission side G3 FAX. The image information can be reliably distributed to the receiving side, the calling operation of the transmitting side G3 FAX is not wasted, and the image information communication operation as intended by the user of the transmitting side G3 FAX is achieved. Is realized. In this case, since the report indicating that the distribution is performed by proxy reception is transmitted from the reception side GW, the user of the transmission side G3 FAX can appropriately know the result of the transmission operation designated by the reception side GW.
[0081]
FIG. 4 shows an example of processing on the transmission side G3 FAX in this case.
[0082]
First, a call is made to the reception side GW (process 101), and it is monitored that a predetermined tone signal is detected within a predetermined time from the reception side GW (NO loop of determinations 102 and 104). If the predetermined tone signal cannot be received from the reception side GW within the predetermined time and the result of the determination 104 is YES, the transmission operation at this time ends in error.
[0083]
Further, when a predetermined tone signal can be received from the reception side GW within a predetermined time and the result of the determination 102 is YES, the user number and the telephone number (destination number) of the reception side G3 FAX are given to the user. Input (process 105). Subsequently, information indicating whether or not the proxy reception is permitted is input (process 106).
[0084]
Next, the user number input by the user, the destination number, and the on / off setting information are set to a signal format “(user number) # (destination telephone number) # (alternating on / off setting information)”. The PB signal is sent (process 107), and a predetermined pre-transmission procedure is executed to set a transmission function, a modem speed, etc. (process 108), and a modem training procedure is executed to determine the modem speed to be used. Then, a predetermined image information transmission procedure is executed, and the transmission image information at that time is transmitted (processing 110).
[0085]
When the image information transmission is completed, a predetermined post-transmission procedure is executed (process 111), the line is restored (process 112), and the facsimile communication process for the reception side GW is ended.
[0086]
FIG. 5 shows an example of processing of the reception side GW.
[0087]
When an incoming call is detected (process 201), a predetermined tone signal is responded (process 202), and a user number, a destination number, and alternate reception on / off setting information including a PB signal in a predetermined signal format are received and stored. (Processing 203).
[0088]
Next, it is checked whether or not the received user number has proper contents (determination 204). When the result of determination 204 is YES, a destination number and alternate reception on / off setting information are designated for the remote GW. In this state, a connection request is made (process 205), and it is checked whether or not a line connection to the receiving side G3 FAX has been established (decision 206).
[0089]
When the signal of the real-time transmission procedure is received from the remote GW and the result of determination 206 is YES, the real-time type process (process 207) as described in FIG. 3 is executed.
[0090]
Next, it is checked whether or not the remote side GW has notified that the communication operation at that time is in error (decision 209). If the communication operation at that time ends normally and the result of determination 209 is NO, the communication operation ends.
[0091]
Further, when the remote side GW notifies that the communication operation at that time is in error, and the result of the determination 209 is YES, an error notification report in a predetermined format for notifying the occurrence of the error and the details of the error ( (Not shown) is created (process 210).
[0092]
Next, a call is made to the transmission source G3 FAX (process 211), a predetermined pre-transmission procedure is executed to set the transmission function and modem speed to be used (process 212), and the modem training procedure is executed to set the modem speed to be used. The image of the error notification report to be transmitted at that time is transmitted (process 214). The report image is created by creating display image facsimile data of the created error notification report and encoding and compressing the display image facsimile data by the encoding / decoding unit 5.
[0093]
When the transmission of the report image ends, a predetermined post-transmission procedure is executed (process 215), the line with the transmission side G3 FAX is restored (process 216), and this process ends.
[0094]
6 to 9 show an example of processing on the remote side GW in this case.
[0095]
When a connection request is received from the reception side GW and a destination number and proxy on / off setting information are notified (processing 301), a call is made to the destination (processing 302), and whether the destination is busy (busy) or not is determined. Check (decision 303).
[0096]
If it is possible to connect to the destination and the result of determination 303 is NO, it is checked whether or not the alternate reception ON is set (determination 304). If the result of determination 304 is YES, the proxy reception function unit 14 The operation is turned on (process 305). Thereby, when image information is received thereafter, all the image information is stored in the proxy reception function unit 14.
[0097]
Next, the pre-transmission procedure of the real-time processing described above is executed (processing 306), and it is checked whether a communication error has occurred during this pre-transmission procedure (decision 307). When there is no communication error and the result of determination 307 is NO, the normal real-time modem training procedure (processing 308), the image information transmission procedure (processing 309), and the post-transmission procedure (processing 310) are sequentially executed thereafter. When the image information communication is completed, the line with the receiving side G3 FAX is restored (processing 311).
[0098]
Then, it is checked whether or not all pages have been normally transmitted at that time (determination 312). When the result of determination 312 is YES, the communication operation at this time is normally terminated.
[0099]
If the result of determination 312 is NO, the page number to be retransmitted at that time is set in the retransmission start page (processing 313), and a communication error has occurred to the receiving side GW via the Internet INET. The fact and its contents are notified (process 315).
[0100]
Next, a call is made to the receiving side G3 FAX at that time (process 315), and it is checked whether it is busy (decision 317). If the result of determination 317 is YES in the case of busy, the process returns to process 316, Repeat calls at regular intervals.
[0101]
Further, when the receiving side G3 FAX makes an incoming call response and the result of determination 317 is NO, a predetermined transmission pre-transmission procedure is executed with the receiving side G3 FAX to set the transmission function and modem speed to be used (processing). 318) Determine the modem speed to be used by executing the modem training procedure (process 319), and sequentially transmit the image information stored in the intercept reception function unit 14 from the retransmission start page set at that time. (Processing 320) When the transmission of all the remaining image information received by proxy is completed, a predetermined post-transmission procedure is executed (Processing 321), and the line with the receiving side G3 FAX is restored (Processing 322).
[0102]
Then, the proxy reception file stored in the proxy reception function unit 14 at that time is erased (process 323), and this process ends.
[0103]
On the other hand, when a communication error occurs during the real-time transmission pre-procedure and the result of determination 307 is YES, the remote GW first restores the line with the receiving side G3 FAX (processing 324).
[0104]
Next, it is checked whether or not the receiving capability is acquired from the receiving side G3 FAX at that time (decision 325). When the digital identification signal DIS or the non-standard function identification signal NSF is received from the receiving side G3FAX and the reception capability of the receiving side G3FAX is acquired and the result of the determination 325 is YES, the processing is interrupted at that time The real-time pre-transmission pre-procedure is switched to the pseudo real-time pre-transmission pre-procedure described above, and is continuously executed by applying the acquired reception capability (process 326).
[0105]
Further, when a communication error occurs in the stage before receiving the digital identification signal DIS or the non-standard function identification signal NSF from the receiving side G3FAX, if the result of the determination 325 is NO, the real-time interrupted at that time The type pre-transmission procedure is switched to the pseudo real-time type pre-transmission procedure described above, and the standard reception capability is applied to continue the processing (process 327).
[0106]
When the pre-pseudo real-time transmission pre-procedure is thus completed, the pseudo real-time modem training procedure (process 328), the image information transmission procedure (process 329), and the post-transmission post-process (process 330) are sequentially performed thereafter. Execute.
[0107]
At that time, the page number to be retransmitted to the receiving side G3 FAX (in this case, “1”) is set in the retransmission start page (processing 331), and the processing shifts to processing 315, and a communication error occurs to the receiving side GW. After notifying that it has occurred and its contents, a call is made to the receiving side G3 FAX, the received image information stored in the proxy reception function unit 14 is transmitted, and when the transmission is completed, it is stored in the proxy reception function unit 14 Delete the received image information.
[0108]
Further, when the destination is busy and the result of determination 303 is YES, it is checked whether or not the alternate reception ON is set (determination 332). When the alternate reception OFF is set, the determination 332 When the result of NO is NO, the reception side GW is notified of the inability to connect (processing 333), and this processing ends.
[0109]
If the result of the determination 332 is YES when the proxy reception is set to ON, first, the pseudo real-time transmission pre-procedure described above is executed by applying the standard capability (process 334), and then The pseudo real-time modem training procedure (process 335), the image information transmission procedure (process 336), and the post-transmission procedure (process 337) are sequentially executed.
[0110]
At that time, the page number to be retransmitted to the receiving side G3 FAX (in this case, “1”) is set in the retransmission start page (processing 338), and the processing shifts to processing 315, and a communication error occurs to the receiving side GW. After notifying that it has occurred and its contents, a call is made to the receiving side G3 FAX, the received image information stored in the proxy reception function unit 14 is transmitted, and when the transmission is completed, it is stored in the proxy reception function unit 14 Delete the received image information.
[0111]
On the other hand, when the proxy reception OFF is set from the transmission side G3 FAX and the result of determination 304 is NO, the operation of the proxy reception function unit 14 is turned OFF (process 340), and the above-described real-time processing is executed. (Process 341) When the real-time processing ends, the line with the receiving side G3 FAX is restored (Process 342).
[0112]
Here, it is checked whether or not a communication error has occurred (determination 343). When the result of determination 343 is YES, the reception side GW is notified of the occurrence of the communication error and its contents (processing 344). End the operation. If there is no communication error, the operation is terminated without executing the process 344.
[0113]
As described above, in this embodiment, when the alternate reception ON is set from the transmission side G3 FAX, the reception side G3 FAX is busy and a data communication error occurs at the time of outgoing call, or reception of the reception side G3 FAX If a communication error occurs before acquiring the capability, the remote side GW performs pseudo real-time processing to intercept the image information with the standard capability set as the reception capability, and receives the proxy received image. Since the information is transmitted to the receiving side G3 FAX, the image information transmitted from the transmitting side G3 FAX can be reliably delivered to the receiving side, and the calling operation of the transmitting side G3 FAX is not wasted. In this case, since the report indicating that the distribution is performed by proxy reception is transmitted from the reception side GW, the user of the transmission side G3 FAX can appropriately know the result of the transmission operation designated by the reception side GW.
[0114]
In addition, when the proxy reception ON is set from the transmission side G3 FAX, if a communication error occurs after the reception capability of the reception side G3 FAX is acquired, the remote side GW sets the capability acquired from the reception side G3 FAX as the reception capability. Apply and execute pseudo real-time processing to intercept the image information and send the received image information to the receiving side G3 FAX. Therefore, the image information transmitted from the transmitting side G3 FAX is transmitted by the user of the transmitting side G3 FAX. It becomes a desired mode, and the image information can be reliably delivered to the receiving side, so that the calling operation of the transmitting side G3 FAX is not wasted. In this case, since the report indicating that the distribution is performed by proxy reception is transmitted from the reception side GW, the user of the transmission side G3 FAX can appropriately know the result of the transmission operation designated by the reception side GW.
[0115]
By the way, in the above-described embodiment, even when a communication error occurs in the stage before the reception capability acquisition of the reception side G3 FAX, if the reception side is set to ON from the transmission side G3 FAX, the proxy reception is performed. In the proxy reception at this time, since the reception capability of the reception side G3 FAX is regarded as a standard one, the communication function or the image function to which the reception side G3 FAX can be originally applied cannot be used. There is a risk that the image communication becomes difficult.
[0116]
Therefore, if a communication error occurs before the reception capability of the reception side G3FAX is acquired, even if the reception side is set to ON from the transmission side G3FAX (forcibly change to the reception side OFF) By not performing the proxy reception, the above-described problems can be avoided.
[0117]
An example of processing executed by the remote GW in that case is shown in FIGS.
[0118]
When a connection request is received from the reception side GW and a destination number and proxy on / off setting information are notified (process 401), a call is made to the destination (process 402), and whether or not the destination is busy (busy) is determined. Check (decision 403). Here, when the destination is busy and the result of determination 403 is YES, the reception side GW is notified that connection is not possible (process 404), and this process ends.
[0119]
If it is possible to connect to the destination and the result of the determination 403 is NO, it is checked whether or not the proxy reception ON is set (determination 405). If the result of the determination 405 is YES, the proxy reception function unit 14 The operation is turned on (process 406). Thus, when image information is received thereafter, all the image information is stored in the proxy reception function unit 14.
[0120]
Next, the pre-transmission procedure of the real-time processing described above is executed (processing 407), and it is checked whether a communication error has occurred during this pre-transmission procedure (decision 408). When there is no communication error and the result of determination 408 is NO, the normal real-time modem training procedure (process 409), the image information transmission procedure (process 410), and the post-transmission procedure (process 411) are sequentially executed thereafter. When the image information communication is completed, the line with the receiving side G3 FAX is restored (processing 412).
[0121]
Then, it is checked whether or not all pages have been normally transmitted at that time (determination 413). When the result of determination 413 is YES, the communication operation at this time is normally terminated.
[0122]
If the result of determination 413 is NO, the page number to be retransmitted at that time is set in the retransmission start page (process 414), and a communication error has occurred to the accepting GW via the Internet INET. The fact and its contents are notified (process 415).
[0123]
Next, a call is made to the receiving side G3 FAX at that time (process 416), and it is checked whether or not it is busy (decision 417). If the result of determination 417 is YES in the case of busy, the process returns to process 416 and Repeat the call at regular intervals.
[0124]
Further, when the receiving side G3 FAX makes an incoming call response and the result of determination 417 is NO, a predetermined transmission pre-transmission procedure is executed with the receiving side G3 FAX to set the transmission function and modem speed to be used (processing). 418), the modem speed to be used is determined by executing the modem training procedure (process 419), and the image information stored in the intercept reception function unit 14 is sequentially transmitted from the retransmission start page set at that time. (Processing 420) When the transmission of all the remaining image information that has been proxy-received is completed, a predetermined post-transmission procedure is executed (Processing 421), and the line with the receiving side G3 FAX is restored (Processing 422).
[0125]
Then, the proxy reception file stored in the proxy reception function unit 14 at that time is erased (processing 423), and this processing ends.
[0126]
On the other hand, when a communication error occurs during the real-time transmission pre-procedure and the result of determination 408 is YES, the remote side GW first restores the line with the receiving side G3 FAX (processing 425).
[0127]
Next, it is checked whether or not the receiving capability is acquired from the receiving side G3 FAX at that time (decision 426). When the digital identification signal DIS or the non-standard function identification signal NSF is received from the receiving side G3FAX and the reception capability of the receiving side G3FAX is acquired and the result of the determination 426 is YES, the process is interrupted at that time. The real-time pre-transmission pre-procedure is switched to the above-described pseudo real-time pre-transmission pre-procedure, and is continuously executed by applying the acquired reception capability (process 427).
[0128]
When the pre-pseudo real-time transmission pre-procedure is thus completed, the pseudo real-time modem training procedure (process 428), the image information transmission procedure (process 429), and the post-transmission procedure (process 430) are sequentially performed thereafter. Execute.
[0129]
At that time, the page number to be retransmitted to the receiving side G3 FAX (in this case, “1”) is set in the retransmission start page (processing 431), and the processing shifts to processing 415, and there is a communication error for the receiving side GW. After notifying that it has occurred and its contents, a call is made to the receiving side G3 FAX, the received image information stored in the proxy reception function unit 14 is transmitted, and when the transmission is completed, it is stored in the proxy reception function unit 14 Delete the received image information.
[0130]
Further, when a communication error occurs before receiving the digital identification signal DIS or the non-standard function identification signal NSF from the receiving side G3FAX, if the result of the determination 426 is NO, the real time interrupted at that time The pre-type transmission procedure is aborted (process 432), the reception side GW is notified of the occurrence of a communication error and its content via the Internet INET (process 433), and this process is terminated.
[0131]
On the other hand, when the substitute reception off is set from the transmission side G3 FAX and the result of the determination 405 is NO, the operation of the substitute reception function unit 14 is turned off (process 435), and the above-described real-time type process is executed. (Process 436) When the real-time processing is completed, the line with the receiving side G3 FAX is restored (Process 437).
[0132]
Here, it is checked whether or not a communication error has occurred (determination 438). When the result of determination 438 is YES, the reception side GW is notified of the occurrence of the communication error and its content (processing 439). End the operation. If there is no communication error, the operation is terminated without executing the process 439.
[0133]
In this way, in this embodiment, when a communication error occurs at the stage before the reception capability of the receiving side G3 FAX is acquired, even if the proxy reception ON is set from the transmission side G3 FAX (alternative reception OFF). The above-mentioned problem can be avoided by forcibly changing to not performing proxy reception.
[0134]
In the above-described embodiment, the setting as to whether or not the remote reception is performed by the remote GW can be performed from the transmission side G3 FAX. However, this setting can be performed only by the remote GW. Basically, the setting of the remote GW is applied to determine whether or not to perform the proxy reception. However, when the proxy reception on / off setting information is sent from the transmission side G3 FAX, the received proxy reception is received. It can also be configured to set whether or not to perform proxy reception according to the contents of the on / off setting information.
[0135]
【The invention's effect】
As described above, according to the present invention, when the alternate reception ON is set from the transmission side G3 FAX, the reception side G3 FAX is busy and a data communication error occurs at the time of outgoing call, or the reception side G3 FAX If a communication error occurs before acquiring the reception capability of the remote side, the remote side GW executes the pseudo real-time processing with the standard capability set as the reception capability and intercepts the image information. Since the transmitted image information is transmitted to the receiving side G3 FAX, the image information transmitted from the transmitting side G3 FAX can be reliably delivered to the receiving side, and the calling operation of the transmitting side G3 FAX is not wasted. The effect is obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an example of a real-time Internet facsimile communication system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration example of a real-time Internet gateway device GW (GW1, GW2).
FIG. 3 is a time chart showing an example of a transmission procedure executed among a transmission side G3 FAX, a reception side GW, a remote side GW, and a reception side G3 FAX.
FIG. 4 is a flowchart showing an example of processing on the transmission side G3 FAX.
FIG. 5 is a flowchart showing an example of processing of a reception side GW.
FIG. 6 is a flowchart showing a part of an example of processing of a remote GW.
FIG. 7 is a flowchart showing another part of an example of processing of the remote GW.
FIG. 8 is a flowchart showing still another part of an example of processing of the remote GW.
FIG. 9 is a flowchart showing the remaining part of an example of processing on the remote side GW;
FIG. 10 is a flowchart showing a part of another example of processing on the remote side GW;
FIG. 11 is a flowchart showing another part of another example of processing on the remote side GW;
FIG. 12 is a flowchart showing the remaining part of another example of processing on the remote side GW;
[Explanation of symbols]
GW1, GW2 Real-time Internet gateway device
FG1, FG2 Group 3 facsimile machine

Claims (2)

Multiple real-time Internet gateway devices with functions for exchanging image information with a facsimile machine via the public network and functions for exchanging information via the Internet are provided to realize facsimile communication between the facsimile machines in real time via the Internet. In a method for controlling an Internet facsimile communication system,
When the first real-time Internet gateway apparatus receives a request for image information communication and proxy reception on / off setting information from the first facsimile apparatus via the public network, the first real-time Internet gateway apparatus receives a first address from the first facsimile apparatus. 2 receives the destination number of the facsimile machine 2 and makes a connection request to the second real-time Internet gateway device by designating the destination number;
When the second real-time Internet gateway device receives a connection request and proxy reception on / off setting information from the first real-time Internet gateway device, the second real-time Internet gateway device calls the notified destination number, and the second of the destination number When a line is established with the first facsimile apparatus, a predetermined real-time procedure is started with the first real-time Internet gateway apparatus. Thereafter, the first facsimile apparatus and the second facsimile apparatus are started. A facsimile communication with the first real-time Internet gateway device, the Internet, and the second real-time Internet gateway device,
When a communication error occurs between the second real-time Internet gateway device and the second facsimile device, the second real-time Internet gateway device is turned on by proxy reception on the basis of the received proxy reception on / off setting information. If it is designated, image information to be transmitted to the second facsimile machine is accumulated by executing a predetermined facsimile transmission procedure with the first facsimile machine, and the second facsimile machine is re-issued. The stored image information is transmitted, and when the proxy reception off is designated by the proxy reception on / off setting information, when the communication error occurs, the first facsimile apparatus and The communication operation being executed with the first real-time Internet gateway device is terminated with an error. The method of the Internet facsimile communication system characterized thereby. Real-time Internet with a function for exchanging image information with a facsimile machine via a public network and a function for exchanging information via the Internet, and a function for realizing facsimile communication between the facsimile machines via the Internet in real time In the gateway device,
When a connection request and proxy reception on / off setting information are received from another real-time Internet gateway device, a call is made to the notified destination number, and when a line is established with the destination facsimile device of the destination number, A predetermined real-time procedure is started with one real-time Internet gateway device, and thereafter, facsimile communication between the originating facsimile device on the other real-time Internet gateway device side and the called facsimile device is performed. ,
When a communication error occurs with the destination facsimile apparatus, if a proxy reception ON is designated by the received proxy reception ON / OFF setting information, a predetermined facsimile is established with the calling facsimile apparatus. The image information to be transmitted to the destination facsimile machine is stored by executing a transmission procedure, and the called image is recalled to the destination facsimile machine to transmit the stored image information, while the proxy reception on / off setting information is used as a proxy. When reception off is designated, the communication operation being executed between the originating facsimile machine and the other real-time Internet gateway device is terminated with an error when the communication error occurs. Real-time Internet gateway device.

Images