KR100372343B1 - Discard Message Management Method In No.7 Signaling Network - Google Patents

Abstract

The present invention relates to a method for managing discarded messages in No.7 signal network, which collects information about all signal messages discarded at the signal relay point in real time so that the operator can always check them and manages them as log files. Only the message of discard message due to the signal network failure is collected and notified to the operator only when there is a command of the operator. Had problems.

Therefore, the present invention collects the cause, time, and process information of all the discarded signal messages in the signal network in real time at the workstation connected to the corresponding signal relay point and manages them as a log file. All discarded message information discarded due to misoperation or gateway limitations can be checked by the operator at any time, and if the cause of the discarded signal message is related to a signal network failure, the corresponding recovery measures can be promptly taken. do.

In addition, by collecting and managing signal messages that have been discarded due to operator's misoperation or gateway station limitation, the operator can improve signal relay point performance and recover the signal network quickly. Efficient signaling network management is possible even at remote sites connected through

Description

Discard Message Management Method In No.7 Signaling Network

The present invention relates to a method for managing discarded messages in No. 7 signaling network. In particular, the present invention relates to a method in which log information is collected and managed in real time so that an operator can always check information about all discarded signal messages at a signal relay point. 7 Discards message management method in signaling network.

In general, the No.7 signaling method, which is a common line signaling method, is a signaling method for transmitting various control signals for providing call connection between subscribers and various communication services or for managing and managing a communication network. As shown in FIG. 1, a signaling point (SP) for transmitting, receiving, or transmitting a signaling message generated by a user, and a signal link (SL) which is a logical information transmission path connecting between the corresponding signaling points And a signaling relay point (STP; Signaling Transfer Point) for transmitting a message to send or receive a signaling message, and the signaling endpoint includes an originating point (OP; originating signal generating point). Point) and a destination point (DP) that is a destination of a signaling message.

As shown in FIG. 2, the hierarchical structure of the No. 7 signal network includes a message transfer unit, which is a network service unit that distributes signal transmission control, error correction, and security measures for the signal network to increase versatility. Questions and Answers (ISUP; ISDN User Part), a user part that is individually designed according to application fields such as MTP (Message Transfer Part), Signaling Connection Control Part (SCCP), and telephone exchange and data exchange It consists of Transaction Capability (TCAP) and Telephone User Part (TUP). In addition, it includes mobile communication network and intelligent network user part (not shown).

In the conventional No. 7 signal network, there is a case in which a signal network is interrupted in performing call processing and the signal message is discarded, or a signal message is discarded due to an operator's misoperation and restriction of a gateway station.

In addition, in the related art, the presence or absence of a signal message discarded during signal network processing was known through a measurement statistics function. In this case, only the presence or absence of a signal message discarded due to a signal network failure was known, and the information on the discarded message was determined by the operator. In this case, the discard message was collected by the processor inside each signal point, so performance was limited.

That is, in the related art, the operator confirms the occurrence of a signal network failure related to signal message processing as a statistic, inputs an operation command for collecting the discarded message, and again identifies the cause of the signal message being discarded when the signal network failure is reproduced again. It was difficult to determine and recover from the failure of the signal network, such as the need to take action.

In summary, the conventional No.7 signaling network collects only the information on the signal message discarded due to the failure of the signal network when the operator's command is received, and notifies the operator. Because the information on the discarded signal message is not collected, it could not be confirmed by the operator.

The present invention is to solve the problems as described above, the purpose is to collect the cause and time and process information discarded for all signal messages discarded in the signal network in real time at the workstation connected to the corresponding signal relay point By managing the log file, the operator can always check all discarded message information discarded due to a signal network failure, operator's malfunction or restriction of the gateway station. In this case, the relevant recovery measures can be promptly processed.

In addition, another object of the present invention is to collect and manage signal messages discarded due to operator misoperation or gateway station limitation, without additional operator command, thereby improving the performance of the signal relay point as well as speedy signal network recovery. In addition, it is to enable efficient signal network management even in remote places connected through the workstation and data network.

1 is a view schematically showing a general No. 7 signal network.

2 is a diagram showing a hierarchical structure of a general No. 7 signal network.

3 is a block diagram illustrating a message transfer unit in a No. 7 signal network for explaining the present invention;

4 is a flowchart illustrating a discard message management procedure in No. 7 signaling network according to the present invention;

Explanation of symbols on the main parts of the drawings

31: signal message processing unit 32: signal network management unit

A feature of the present invention for achieving the above object is that a signaling message is discarded due to a gateway station limitation on a signaling message processed in a signaling network, or an error generated during message determination and distribution, message routing, or message transmission processing. Checking the cause, time and location of the discarded signal message and transmitting the corresponding discarded message information to the workstation; And collecting discarded message information from the workstation and retrieving the discarded time information to manage the discarded message information in the signal network as a log file. have.

At this time, the signal message discarded in the signal network is a signal message having a calling point code, a called point code, or a service identifier which is a gateway station restriction target, or performs message determination, distribution processing, message routing processing, or message transmission processing. It is characterized in that the error message is a signal message.

The transmitting of the discard message information to the workstation may include checking a call point code, a call point code, and a service identifier information included in a header of the signal message to determine whether the discard message information is a signal message subject to restriction of a gateway station; ; If it is confirmed that the signal message is subject to the restriction of the gateway station, after discarding the signal message, the cause of the disposal of the corresponding signaling message as the gateway station restriction object, the time of the disposal of the signal message, and the disposal process location information are displayed. Sending the discarded message information to the workstation, or an error occurs during the message determination processing to determine whether the final destination of the signaling message is the national station, and the message distribution processing to deliver the signaling message to the upper user part. Checking whether it is; If an error occurs during the message determination or distribution processing, after discarding the signal message, the discarding cause of discarding the corresponding signal message as a discrimination or distribution processing error, time information for discarding the signal message, and discarding process position information Or checking whether an error occurs during message routing or transmission processing for forwarding the signaling message to the final destination; If an error occurs during the message routing or transmission process, after discarding the signaling message, the discarding cause of discarding the corresponding signaling message as a routing or transmission error, time information for discarding the signaling message, and discarding process position information are displayed. And transmitting the discard message information to the workstation.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the No.7 signal network according to the present invention, all signal messages discarded at each signal relay point, the detailed cause, time and discarded process (location) information of the signal signal discarded are stored at the workstation connected to the signal relay point. By collecting and managing, the operator can always check whether there is any abnormality in the signal traffic in real time, so that the user can quickly recover the message. In this case, as shown in FIG. Signal message processing unit 31 that performs signal message routing, discrimination and distribution functions, and the relationship between signal network specifications (ie, signal link, signal link set, signal point, signal route) for reliable signal message transmission. It consists of a signal network management unit 32 that maintains the consistency and performs the signal network shape management function, the signal relay according to the present invention The discard message management function of the point is performed by the signal message processing unit 31.

In addition, the signal message processing unit 31 processes the signal message, and the gateway station restriction is set so that the signal message may be discarded, or the signal message may be discarded due to any one of a message identification and distribution function, a message routing function, or a message transmission process. When discarding, the detailed cause, time, and location of the discard are identified, and the corresponding discard message information (disposal message, reason for discard, time, and discarded process information) is sent to the workstation, which is a signal message. After collecting the discarded message information transmitted from the processor 31, the discarded time information is retrieved and stored as a log file, thereby managing the discarded message due to the signal network failure related to the signal network processing without the operator's command. Disposal messages due to misoperation Whenever the operator is able to see even the information.

Here, the corresponding signaling message is a call control message, a test and maintenance message, a signaling network management message, and a signaling connection control part (SCCP) message based on a destination / subsystem or based on a global title translation, depending on the message type. And SCCP management messages.

The discard message management procedure in the No. 7 signal network configured as described above will be described with reference to FIG. 4.

First, when a signal message is received at a signal relay point through a predetermined signal link as a signal message is transmitted from a predetermined origination point of No. 7 signal network (step S41), the message transmission unit of the corresponding signal relay point is currently received. By analyzing the signal message to determine whether to discard, at this time, the signal message processing unit 31 of the corresponding message transmission unit is the originating point code (Originating Point Code) and the destination point code (component) included in the header of the received signal message ( Check whether the destination point code and the service indicator information are checked and whether the signaling message should be performed to restrict the gateway station, that is, whether the signaling message has the calling point code, the destination code, or the service identifier information. It is confirmed (step S42).

In the case of a signal message that should be performed by the gateway limit operation, after discarding the received signal message according to the gateway limit operation, the cause and time and location of discarding the signal message, that is, due to the gateway limit operation, Specifically, it is a signal message having a limited originating point code, called party code, or service identifier information. Therefore, the cause of discarding, the time when the signal message was discarded, and the corresponding signal message during the gateway station restriction operation processing were discarded. The positional information on the discard process is checked (step S43), and the corresponding discard message information is transmitted to the workstation (step S44).

However, in the case of the signal message that should not perform the gateway station limiting operation in step S42, the corresponding signal message processing unit 31 discards the corresponding signal message when an error occurs while performing message determination, distribution, and routing for processing the signal message. After that, the cause, time and location of discarding the signal message are identified, and the corresponding discard message information is transmitted to the workstation.

In more detail, the signal message processing unit 31 checks whether a final destination of a received signal message is a local station, and a message distribution function of transferring a signal message to a user unit corresponding to the case where the final destination is a local station. Then, it is checked whether a message discrimination or distribution error occurs (step S45).

In this case, if a message discrimination or distribution error occurs, the corresponding signal message is discarded and then the cause and time and location of the signal message, that is, the cause of discarding due to signal message identification or distribution error, and The time for discarding the signal message and the positional information on the discard process of discarding the corresponding signal message during the determination or distribution of the signal message are checked (step S43), and the corresponding discard message information is transmitted to the workstation (step S43). S44).

In addition, when the final destination of the signal message received in the state in which the corresponding message determination or distribution error does not occur is not the own station, the corresponding signal message processing unit 31 selects a signal link so that the received signal message is delivered to the final destination. Checking whether an error occurs while performing the message routing function (step S46), if a message routing error occurs, discard the corresponding signaling message, and then cause, time and location of discarding the signaling message, that is, signaling message routing. Confirm the discarding cause of discarding due to an error, the time of discarding the signal message, and the positional information on the discarding process of discarding the corresponding signal message during the signal message routing process (step S43). Is transmitted to the workstation (step S44).

However, when the signaling link is normally selected without the message routing error, that is, when the message determination, distribution, and routing are normally performed, the signaling message is finally received through the signaling link selected according to the message routing function. In this case, the signal message processing unit 31 checks whether a message transmission error occurs (step S47), and if a message transmission error does not occur, performs normal transmission processing to the final destination side (step S47). Step S48), if a message transmission error occurs, after discarding the corresponding signal message, the cause and time and position of discarding the signal message, that is, the cause of discarding due to the signal message transmission error, and the signal message And signals that are discarded during message transmission processing The positional information on the discarding process of discarding the message is confirmed (step S43), and the corresponding discarding message information is transmitted to the workstation (step S44).

Accordingly, the workstation collects the discard message information transmitted from the signal message processing unit 31, that is, the detailed cause and time and position information of the discarded signal message (step S49), and then the time information of the discarded signal message is discarded. The search is made, stored in a log file, and managed (step S50).

As described above, in the present invention, the discard message information for all signal messages discarded in the signal network without the operator's command, that is, the discard message, and the cause and time and process information of the discarded message in the workstation connected to the corresponding signal relay point By collecting the log file in real time and managing it as a log file, the operator can check the discard message information due to the signal network failure and the discard message information due to the operator's malfunction or restriction of the gateway station at any time.

When the cause of the discarding of the signaling message is related to the failure of the signal network, the corresponding recovery measures can be promptly processed.

In addition, by collecting and managing signal messages that have been discarded due to operator's misoperation or gateway station limitation, the operator can improve signal relay point performance and recover the signal network quickly. This enables signaling network management even at remote sites connected by Transmission Control Protocol / Internet Protocol (TCP / IP) protocol or X.25 protocol.

In addition, the embodiment according to the present invention is not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, the present invention collects the cause, time, and process information of all discarded signal messages in the signal network in a workstation connected to the corresponding signal relay in real time and manages them as log files, Any discarded message information discarded due to the operator's misoperation or gateway limitations can be checked at any time by the operator, and if the cause of the discarded signal message is related to a signal network failure, the corresponding recovery measures can be promptly taken. It becomes possible.

In addition, by collecting and managing signal messages that have been discarded due to operator's misoperation or gateway station limitation, the operator can improve signal relay point performance and recover the signal network quickly. Efficient signaling network management is possible even at remote sites connected through

Claims (5)

The cause, time and location of the discarded signaling message when the signaling message is discarded due to gateway station restrictions on the signaling message processed in the signaling network or an error occurring during message identification and distribution, message routing, and message transmission processing. Confirming and transmitting the corresponding discard message information to the workstation; And retrieving the discarded time information after collecting the discarded message information in the workstation and managing the discarded message information in the signal network as a log file. Way. The method of claim 1, The signal message discarded in the signal network is a signal message having a calling point code, a called point code, or a service identifier which is a gateway station restriction target, or an error during message determination, distribution processing, message routing processing, or message transmission processing. A number is a signaling message that has occurred. A discard message management method in a seven signal network. The method of claim 1, The transmitting of the discard message information to the workstation may include checking a calling point code, a called point code, and a service identifier information included in a header of the signaling message to determine whether the discarded message information is a signal message subject to a gateway station restriction; If it is confirmed that the signal message is subject to the restriction of the gateway station, after discarding the signal message, the cause of the disposal of the corresponding signaling message as the gateway station restriction object, the time of the disposal of the signal message, and the disposal process location information are displayed. And transmitting the discard message information to the workstation. The method of claim 7, further comprising: transmitting the discard message information to the workstation. The method of claim 1, The transmitting of the discard message information to the workstation may include determining whether an error occurs while performing a message determination process for checking whether a final destination of a signal message is a local station and a message distribution process for delivering a signal message to a higher user. Steps; If an error occurs during the message determination or distribution processing, after discarding the signal message, the discarding cause of discarding the corresponding signal message as a discrimination or distribution processing error, time information for discarding the signal message, and discarding process position information And transmitting the discard message information to the workstation. The discard message management method of the seven signal networks. The method of claim 1, The transmitting of the discard message information to a workstation may include: checking whether an error occurs during message routing or transmission processing for delivering a signaling message to a final destination; If an error occurs during the message routing or transmission process, after discarding the signaling message, the discarding cause of discarding the corresponding signaling message as a routing or transmission error, time information for discarding the signaling message, and discarding process position information are displayed. And transmitting the discard message information to the workstation. The method of claim 7, further comprising: transmitting the discard message information to the workstation.