KR100826741B1 - Data error preventing method in real time facsimile communication over internet protocol - Google Patents

Abstract

The present invention relates to a data error prevention method in IP-based real-time fax transmission.

The present invention includes the steps of reporting only the detection result of the tone to the soft switch for the tone detected from the sending side or the receiving side fax to set up the fax call; After the fax call is connected, the transmitting media gateway transmits the UDPTL while sequentially changing the sequence number of the UDPTL frame through the IP network, and the receiving media gateway sequentially changes the sequence number of the UDPTL frame received through the IP network. And transmitting to a receiving side fax.

Therefore, in the present invention, if only the T.38 protocol function is set for the control block inside the media gateway, and the MGCP / Megaco protocol is applied to the soft switch to perform the T.38 protocol function, By changing and transmitting the sequence number of the data input and output by the fax signal processor, the sequence number of the data transmitted from the sending media gateway through the IP network and the sequence number of the data received from the receiving media gateway through the IP network are numbered. There is an effect of preventing data processing errors at the receiving media gateway caused by mismatched values.

Description

DATA ERROR PREVENTING METHOD IN REAL TIME FACSIMILE COMMUNICATION OVER INTERNET PROTOCOL}             

1 is a flowchart illustrating a signal flow when a T.38 protocol IP-based real-time fax transmission service is implemented in a conventional media gateway.

Figure 2 is a flow chart showing a signal flow in the data error prevention method in the IP-based real-time fax transmission of the present invention.

3 is a structural diagram showing a structure of a UDPTL frame in a hierarchical form in a method of preventing data error in IP-based real-time fax transmission according to the present invention;

Figure 4 is a structure diagram showing the structure of the UDPTL frame in a planar form in the IP-based real-time fax transmission method of the present invention.

FIG. 5 is a flowchart illustrating a sequence number change process of UDPTL of a transmitting media gateway in a method of preventing data error in IP-based real-time fax transmission. FIG.

Figure 6 is a flow chart showing a process of generating a CED tone, V.21 tones between the soft switch and the receiving media gateway in the IP-based real-time fax transmission method of the present invention.                 

7 is a flowchart showing a sequence number change procedure of UDPTL in a receiving media gateway in a method for preventing data error in IP-based real-time fax transmission.

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The present invention relates to an IP-based real-time fax transmission method, and more particularly, to a media gateway of a system supporting a Voice over Internet Protocol (VoIP) service and a T.38 protocol IP-based real-time fax transmission service by applying the MGCP / Megaco protocol. T.38 Protocol For IP-based real-time fax transmission service, the tone (CNG, CED, V. 21) and the method of preventing data errors during IP-based real-time fax transmission, in which data transmitted / received through IP network is prevented from data errors caused by different input / output paths through fax signal processing blocks of each media gateway. It is about.

In general, fax transmission is performed through a public switched telephone network (hereinafter referred to as a "PSTN"), but the fax service, which is currently available in a general switched telephone network switch using a conventional line network, is provided through an IP (Internet Protocol) network. In the backbone system, MGCP (Media Gateway Control Protocol) / Megaco protocol is applied to enable the existing fax service and provide new services such as Internet fax.

In the PSTN exchange, fax transmission is performed by inputting a desired destination number of a user of the sending side fax. The sending side fax transmits it to the fax stream, and the PSTN exchange restores the fax stream to the receiving side fax.

To this end, the International Telecommunication Union-Telecommunication sector (ITU-T) proposes a call procedure between a sending fax machine and a receiving fax terminal in a T.30 protocol.

As described above, if the fax terminal transmits / receives the fax data through the existing line network based on the T.30 protocol, in ITU-T in order to realize FoIP (Fax over IP) using a Transmission Control Protocol (TCP) / IP network. The protocol defining the requirements is T.38.

In addition, in order to implement FoIP through the T.38 protocol, a media gateway must be provided as a gateway connected to the IP network, and when the FoIP is implemented for real-time fax transmission based on the IP network, the media gateway is used. Soft Switch exists as an object to control the connection of fax calls and uses the IFP (Internet Fax Protocol) and TCP / IP or UDP / IP protocol as defined in the T.38 protocol. send.

In addition, protocols used to control the media gateway in the soft switch include MGCP, SIP, H.323, and H.248 (Megaco), and it is assumed that the MGCP / Megaco protocol is applied to the soft switch.

1 is a flowchart illustrating a signal flow when a T.38 protocol IP based real-time fax transmission service is implemented in a conventional media gateway. As shown in FIG. 1, a fax terminal transmits a tone for call connection and transmission after call connection. The data to be transmitted is transmitted to the media gateway through the PSTN network.

Then, the media gateway converts the received tone and data into a TCP / IP packet and transmits the received tone and data to the counterpart media gateway through the IP network, and the counterpart media gateway converts the received TCP / IP packet into fax data again and faxes the data. Will output

On the other hand, even when receiving data from the other side of the fax, after receiving the TCP / IP packet through the IP network and converts it to tone and data, and outputs to his side through the PSTN network.

That is, when the tone and data are transmitted and received, the media gateway does not report whether to transmit or receive to the upper block soft switch and transmits the converted packet as it is through the IP network.

On the other hand, as a processor mounted on the control block in the media gateway, a VoIP processor such as a MindSpeed CSMV (Central Site Modem Voice) 3/6 chip is used. In addition, it supports Voice over Internet Protocol (VoIP) function and T.38 Real-time Group 3 Fax over IP (T.38) protocol.

In addition, the T.38 protocol IP-based real-time fax transmission service supported by the VoIP processor installed in the control block inside the media gateway is performed for T.30 protocol-based fax transmission (PSTN T.30 Group 3 Fax). It plays the role of relaying the first to fifth phases (Phase) from tone generation / detection to call connection and data transmission and reception as it is to the IP network.

In general, the media gateway supports both VoIP and T.38 protocol functions. Therefore, when using the media gateway for both VoIP and T.38 protocol functions, the fax terminal user or the system operator can set the settings before calling. In addition, it automatically handles the subsequent processes from tone generation to call connection and data transmission and reception, and it is difficult to adjust step by step for each T.30 protocol in progress while the fax transmission service is in progress.

However, in the MGCP / Megaco protocol applied to the soft switch, the steps of transmitting and receiving CNG (CalliNG), CED (CallED), V.21 tone, etc. before call connection among the steps of the T.30 protocol, There is a demand for a manual adjustment to allow the transmission and reception of the tone through a soft switch.

That is, tones such as CNG, CED, and V.21 generated from each fax are transmitted to the soft switch through each media gateway, and then to the other media gateway again through the soft switch. Data is sent directly to the media gateway through the IP network.

Therefore, if the terminal user or the system operator wants to use only the T.38 protocol function for the control block inside the media gateway, and then apply the MGCP / Megaco protocol to the softswitch to perform the T.38 protocol function, Since the tone of CNG, CED, V.21, etc. for call setup and the actual transmission path of the data to be transmitted are different, the sequence number of the data transmitted from the sending media gateway through the IP network and the IP at the receiving media gateway Since the sequence numbers of the data received through the network do not match, an error occurs in the receiving fax.

That is, the facsimile signal processing block of each media gateway sequentially assigns sequence numbers to the input and output tones and data. The receiving frame counter of the transmitting media gateway receives the first CNG tone from the sending fax. When data is transmitted later, the frame number of the data is set to '1' and transmitted through the IP network.

Then, the transmission frame counter of the receiving media gateway recognizes the frame number of the data input through the IP network as '2' after transmitting the CED tone and the V.21 tone generating command signal to the receiving side fax. In the control block inside the receiving media gateway, an error occurs in processing the received data.

In order to heal the error, a predetermined data recovery procedure must be performed such that a sequence number must be changed with a separate device for data transmitted and received.

In the prior art as described above, if only the T.38 protocol function is set for the control block inside the media gateway, and the MGCP / Megaco protocol is applied to the soft switch to perform the T.38 protocol function. , CNG, CED, V.21, etc. Tone and data are routed differently, sequence number of data transmitted from sending media gateway through IP network and sequence of data received from IP media at receiving media gateway Since the numbered values do not match, not only an error occurs in processing the data received from the control block inside the receiving media gateway, but a separate device must be provided to recover the data. There was a problem.

Therefore, the present invention has been proposed to solve the above-described problems, and after setting only the T.38 protocol function for the control block inside the media gateway, the MGCP / Megaco protocol is applied to the soft switch. It is an object of the present invention to provide a method of preventing an error from occurring in a received data by changing and transmitting a sequence number of data input and output from a fax signal processor of each media gateway when performing a protocol function.

In order to achieve the above object, the present invention includes the steps of reporting only the detection result of the tone to the soft switch for the tone detected for the fax call setup from the sending or receiving fax at the fax transmission; After the fax call is connected, the transmitting media gateway transmits the UDPTL while sequentially changing the sequence number of the UDPTL frame through the IP network, and the receiving media gateway sequentially changes the sequence number of the UDPTL frame received through the IP network. And transmitting to a receiving side fax.                     

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, in the system that supports the Voice over Internet Protocol (VoIP) service and the T.38 protocol IP-based real-time fax transmission service by applying the MGCP / Megaco protocol to the soft switch, the terminal user or the system operator in the media gateway A system is described in which the control block is restricted to use only the T.38 protocol function.

FIG. 2 is a flowchart illustrating a signal flow in an IP-based real-time fax transmission method of the present invention. In a fax transmission, a media gateway detects a CNG tone and transmits it to a soft switch, and the soft switch is a receiving side. After sending CED / V.21 tone generation command signal to the media gateway and receiving the CED / V.21 tone detection signal from the receiving media gateway, send data transmission command to the sending media gateway and Send data to receiving media gateway through network.

In this case, the T.38 protocol IP-based real-time fax transmission service transmits data in units of frames. In this case, a data structure called facsimile user datagram protocol transport layer protocol (UDDTL) may be used to prevent delay or loss of data. Is specified and transmitted in the UDP packet.

In the UDPTL, as shown in Figs. 3 and 4, the UDPTL header and the Internet Fax Protocol (IFP) packet designed for use in a packet network-based fax service before the T.38 protocol definition are included. For this purpose, redundancy or forward error collection (FEC) can be calculated and put in.

In this case, the sequence number of the frame is recorded in the UDPTL header. Since the IFP packet includes only the type and data information of the current fax data, there is no need to modify the data. The FEC checksum for the IFP frame in the UDPTL payload is calculated and written down.

Therefore, if the UDPTL frame is not cut or pasted, the payload of the UDPTL does not need to be modified. However, the UDPTL header sequentially numbers the transmitted and received UDPTL frames from '0' to '65535'. Error occurs when reading data received from the control block inside the gateway.

In addition, in order to prevent the error, in the fax signal processing block inside the media gateway, a soft switch that is a higher block for CNG tones, CED tones, V.21 tones, etc. detected for setting up a fax call from a sending side and a receiving side fax. In order to report only the detection results of the detected tones and not to transmit the frames of the detected tones, as well as to sequentially transmit and receive UDPTLs over an IP network after a call is connected, UDPTL frames at the transmitting and receiving media gateways. You need to change the sequence number of.

The sequence number changing procedure in the transmitting or receiving media gateway will be described with reference to FIGS.                     

First, as shown in Fig. 5, when the CNG tone is input from the sending fax to the sending media gateway, the fax signal inside the sending media gateway is changed. The processing block receives the CNG tone and reports it to the control block (S50), and increments the receiving frame counter from '0' to '1' (S51).

Then, the control block confirms that the CNG tone is received and transmits a message such as '00 00 01 02 00 00 'as the CNG tone detection confirmation message to the FAX signal processing block (S52).

Here, the fax signal processing block includes a reception frame counter for numbering tones or data input from a sending fax, and a transmission frame counter for numbering tones or data output to a sending fax. These counters exist one by one in one channel.

The first four bits of the message indicate the sequence number of the UDPTL head, the subsequent bits indicate the data information, and each of the bits consists of a hexadecimal number.

After receiving the CNG tone detection confirmation message, the FAX signal processing block of the transmitting media gateway discards the received CNG tone frame and reports a detection result indicating that only the CNG tone is detected by the soft switch (S53). The procedure of generating CED tone and V.21 tone for fax call connection between switch and receiving media gateway is performed.

When the CED tone and the V.21 tone are generated and the fax call is connected, the FAX signal processing block inside the transmitting media gateway receives the data transmission command signal from the soft switch and starts data transmission. .                     

Here, the fax signal processing block inside the sending media gateway buffers the UDPTL frame received through the sending fax, receives the data transmission command signal from the soft switch, and then increases the receiving frame counter from '0'. The sequence number of the buffered UDPTL frame is numbered and transmitted to the receiving side through the IP network (S54 to S56).

At this time, the reception frame counter is counted as '1' while receiving the CNG tone from the transmission fax in step S51. When the buffered UDPTL frame is transmitted, the reception frame counter is set to '0'. By resetting to ', the sequence number of the UDPTL frame transmitted to the receiver through the counter is sequentially numbered from' 0 '.

Accordingly, the control block inside the transmitting media gateway recognizes that the sequence number of the UDPTL frame transmitted from the fax signal processing block is actually numbered from '0' through the IP network.

On the other hand, the procedure of changing the sequence number of the UDPTL at the receiving media gateway during fax transmission, as shown in Figs. 6 and 7, generates a CED tone and a V.21 tone between the soft switch and the receiving media gateway. After the process, the receiving media gateway receives data of the transmitting side through the IP network.

That is, in step S53, the softswitch which receives the detection result indicating that only the CNG tone is detected from the transmitting media gateway, receives the CED tone and the V.21 to the receiving media gateway for call connection to the receiving media gateway. Tone generation command.                     

Then, when receiving the CED tone generation command signal from the fax signal processing block inside the receiving media gateway (S60), the control block inside the receiving media gateway confirms that the CED tone generation command signal has been received, and fax signal processing block. As a CED tone detection confirmation message, a message such as '00 00 01 04 00 00 'is transmitted (S61).

The fax signal processing block transmits a CED tone generation command signal to a receiving side fax (S62), and increments the transmission frame counter from '0' to '1' (S63).

Then, the V.21 tone generation command signal is received in the FAX signal processing block inside the receiving media gateway (S64), and the same process (S65 to S67) as in the case of receiving the CED tone is performed. The credit frame counter goes from '1' to '2'.

When the CED tone and the V.21 tone are transmitted by the receiving fax machine receiving the CED tone and the V.21 tone generation command signal, the FAX signal processing block inside the receiving media gateway receives the report and reports it to the control block (S70). ), The reception frame counter is increased from '0' to '2' (S71).

Then, the control block confirms that the CED tones and V.21 tones have been detected, and the '00 00 01 04 00 00 'as the CED tone detection confirmation message as the fax signal processing block, and the '00 01 01 06 as the V.21 tone detection confirmation message. Send a message such as 00 01 01 04 '(S72).

Here, the first four bits of the message represent the sequence number of the UDPTL head, the subsequent bits represent the data information, and each of the bits consists of a hexadecimal number.

next. After receiving the CED tone and V.21 tone detection confirmation message, the fax signal processing block of the receiving media gateway discards the frames of the received CED tone and V.21 tone, and only the CED tone and V.21 tone are detected. Informs the detection result to the soft switch (S73).

In this case, the fax signal processing block sequentially buffers the UDPTL frame inputted through the IP network by sequentially numbering the sequence number from '0', receives a data transmission command signal from the soft switch, and then transmits a frame counter for ' The sequence number of the buffered UDPTL frame is numbered from 0 'and transmitted to the receiving side fax (S74 to S76).

Here, the transmission frame counter is counted as '2' while transmitting the CED tone and V.21 tone generation command signals to the receiving fax in steps S63 and S67. When the UDPTL frame is transmitted to the receiving side fax, the transmission frame counter is reset to '0', and the sequence number of the received buffered UDPTL frame is sequentially numbered from '0' and transmitted.

Accordingly, the control block inside the receiving media gateway recognizes that the sequence number of the UDPTL frame received by the fax signal processing block is actually numbered from '0' through the IP network and transmitted to the receiving fax.

As described above, in the present invention, if only the T.38 protocol function is set for the control block inside the media gateway, and the MGCP / Megaco protocol is applied to the soft switch to perform the T.38 protocol function, By changing and transmitting the sequence number of data input and output by the fax signal processing unit of each media gateway, the sequence number of data transmitted from the sending media gateway through the IP network and the data received from the receiving media gateway through the IP network are changed. There is an effect of preventing data processing error at the receiving media gateway, which occurs because the numbered values in the sequence number do not coincide.

Claims (7)

Reporting only the detected results of the tones at the sending or receiving media gateway to the softswitch for the tones detected for the fax call setup from the sending or receiving fax during fax transmission; After the fax call is connected, the transmitting media gateway transmits the UDPTL while sequentially changing the sequence number of the UDPTL frame through the IP network, and the receiving media gateway sequentially changes the sequence number of the UDPTL frame received through the IP network. Sending to the receiving fax while the In the transmitting or receiving media gateway, only reporting the tone detection result to the soft switch may include: Confirming that a CN tone is received at a first control block of the transmitting media gateway, and transmitting a CN tone detection acknowledgment message to the first FAX signal processing block of the transmitting media gate; And And after receiving the CNG tone detection confirmation message, reporting only the CNG tone detection result to the soft switch without transmitting the CNG tone frame received in the first FAX signal processing block. To prevent data errors during IP-based real-time fax transmission. delete The method of claim 1, wherein the transmitting of the UDPTL in the sending media gateway comprises: buffering a UDPTL frame received through the sending fax in the first fax signal processing block; In the first fax signal processing block, when a fax call is connected according to a data transmission command signal received from the soft switch, the receiving frame counter is reset, and the sequence number of the buffered UDPTL frame is sequentially numbered to establish an IP network. And transmitting the data to the receiving media gateway through the IP-based real-time fax transmission method. The IP-based real-time fax transmission of claim 3, wherein the receiving frame counter resets the value increased by the CN tone received from the sending side fax to the first fax signal processing block. How to avoid data errors. The method of claim 1, In the transmitting or receiving media gateway, reporting only the detection result of the tone to the soft switch may include: the soft switch in which the second fax signal processing block of the receiving media gateway reports the detection result of the CN tone. Receiving a CD tone and a V.21 tone generating command signal from the CD, transmitting the CD tone and the V.21 tone generating command signal to the receiving side fax, and then incrementing a transmission frame counter; Incrementing a receiving frame counter after the second fax signal processing block receives the CD tone and the V.21 tone from the receiving side fax, reports the second tone to the second control block of the receiving media gateway; Confirming that a CD tone and a V.21 tone are received in the second control block and transmitting a CD tone and a V.21 tone detection confirmation message to the second fax signal processing block; After receiving the CD tone and the V.21 tone detection confirmation message, the frame of the CD tone and V.21 tone received in the second fax signal processing block is not transmitted, and the CD tone and V.21 tone are transmitted. A method for preventing data error during IP-based real-time fax transmission, comprising: reporting only a detection result of the IP to a soft switch. The method of claim 1, wherein the transmitting of the UDPTL received by the receiving media gateway to the receiving fax comprises: buffering a UDPTL frame received through an IP network; If a fax call is connected according to the data transmission command signal received from the soft switch, resetting the transmission frame counter, and sequentially numbering the sequence numbers of the buffered UDPTL frames accordingly and transmitting them to the receiving side fax. A method for preventing data errors during IP-based real-time fax transmission. The transmission frame counter of claim 5, wherein the CD tone and V.21 tone generation command signals received from the soft switch are transmitted from the second fax signal processing block to the receiving side fax. A method for preventing data errors during IP-based real-time fax transmission, characterized in that for resetting.

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