KR20000074162A - Method For Processing In Case Of Routing Failure Of Signal Message In A No.7 Signalling Network - Google Patents

Abstract

PURPOSE: A method for processing a signal message routing failure is provided to define a new signaling connection control part(SCCP) routing failure(SRF) message and an additional procedure, when the signal message routing failure is done in a No.7 signal network, and to continuously close the signal message, so as to prevent increasing an excessive signal traffic caused by a SCCP carrier message on a signal link set between a service switching point(SSP) and a service control point(STP). CONSTITUTION: When a service switching point(SSP) receives a signaling connection control part(SCCP) message and can not route to a service conversion point(S11,S12), the SSP generates a SCCP routing failure(SRF) message(S14). The SSP includes address information of a routing failure SCCP message in the SRF message, to route to the service conversion point. The SSP checks a carrier selection of a SCCP message resulted in the SCCP message routing failure. The SSP performs a SCCP message carrier procedure according to the SCCP message carrier selection17). The SSP closes the SCCP message and waits for a new SCCP message receiving(S18).

Description

Method for Processing In Case Of Routing Failure Of Signal Message In A No.7 Signaling Network}

The present invention relates to a method for handling a signaling message routing failure in a NO.7 signaling network, and more particularly, when a signaling message cannot be routed at a signaling point of a NO.7 signaling network, the signaling message is continuously discarded or In addition, the present invention relates to a method for handling a signaling message routing failure in a NO.7 signaling network that prevents excessive transmission of the message message to the signaling network to improve the utilization and efficiency of the signaling network.

In general, the NO.7 signaling system is different from the existing paths in which both the call path and the signal path are used together. A common signaling method for transmitting and receiving signal information through an independent channel.

As shown in FIG. 1, the conventional general NO.7 signal network has a plurality of signal points A to H connected to each other through a set of signal links. 7 is a service switching point (SSP) of a signaling network (hereinafter referred to as an 'SSP'), and the second, third, fourth, and fifth signal points B to E are signaling transfer points (STP). And the sixth, seventh, and eighth signal points F to G are service control points (SCPs).

And, Figure 2 shows the structure of the protocol at each signal point (A ~ H) at the time of message routing in the NO.7 signal network, in the G / W STP SCCP message routing up to the SCCP level, non-G In / W STP, SCCP message routing is performed only up to the message transfer part (MTP) level.

Here, assuming that all signal link sets for the transmission of signaling messages in the corresponding NO.7 signaling network are available, the Signaling Connection Control Part (SCCP) in the corresponding NO.7 signaling network is referred to as 'SCCP'. The routing of the message is set as follows, and the corresponding SCCP message is transmitted and received in a format as shown in FIG.

For example, in order to obtain service control information such as intelligent network service in SSP (A) of the corresponding NO.7 signaling network, SCCP messages can be transmitted and received to SCP (F ~ G) in the signaling network via STP (B ~ E). In this case, the routing of SCCP messages in STP (B ~ E) can be summarized into two ways. First, when the SCCP messages are routed in SSP (A), a GT (Gobal Title) is used. After translating it in STP (B ~ E), it operates the signal network in the form of routing SCCP message to SCP (F ~ G), and secondly, the signal network and SCP (F ~) to which SSP (A) belongs. If the signaling network to which G) belongs interlocks the signaling networks between different operators, the SSP (A) performs routing for SCCP messages only to the gateway station (G / W; Gate Way, hereinafter referred to as 'G / W'). There is a way to operate the signal network in the form of routing STP (B ~ E) to SCP (F ~ G).

Hereinafter, the operation of signal message routing processing in the above-described NO.7 signal network will be described in detail.

In the first method described above, the SCCP message processing unit of the SSP (A) includes the GT in the called address of the SCCP message and routes the SCCP message using the STP (B or C) as the destination of the GT translation function. In STP (B or C), after translating the GT included in the SCCP message received from SSP (A), SCCP message is sent to SCP (F ~ G) with the resultant signal point as the destination. Root

Here, a translation request for a GT not defined in STP (B ~ E), etc., fails to translate the GT included in the called address of the SCCP message, or a signal point that appears after performing the GT translation is inaccessible. If a case in which the SCCP message cannot be routed occurs, the return selection of the SCCP message is checked.

As a result of the return selection check of the SCCP message, if there is a return selection of the corresponding SCCP message, a SCCP return signal message (UDTS; Unit Data Service) is transmitted to the originator of the message, and if there is no return selection of the SCCP message, the corresponding SCCP message is returned. Discard it.

On the other hand, in the second method, since the SSP (A) is not able to know the complete signal network information of the operator belonging to the SCP (F ~ G), it routes the SCCP signal message only to the STP functioning the G / W bar, SSP (A) The SCCP message processing unit routes the SCCP message by using the called address of the SCCP message as SCP or GT, and the destination point is STP (B ~ E).

Here, the SSP (A) can directly set the destination point to SCP (F ~ H), but when interworking with other operators, G / W is a signal message instead of the G / W signal point code for the security of the signal network. Discard unconditionally.

Therefore, the STP (B ~ E) performs the G / W function on the SCCP message received from the SSP (A), and then delivers the SCCP message to the final destination SCP (F ~ G). If the SCCP message received in E) can no longer be routed, the return selection of the SCCP message is checked, and if the SCCP message returns selection, the SCCP return signal message is sent to the originating point. If there is no return of the SCCP message, the corresponding SCCP message is discarded.

If there is a failure in the signal link set (BC, CD, CE) in the conventional NO.7 signaling network, or the SCCP of the STP (C) fails, the GT translation function cannot be performed. In this case, the transmission of the SCCP return signal message through the continuous discard of the SCCP message and the signal link set (AC) may be continued for a certain period of time.

In such a situation, the SCCP message management procedure and related messages are not defined in the Recommendation No.7 in terms of NO.7 signaling network management, and the SCCP message return procedure using the message message signaling message is not defined. Although this is not a message of the SCCP network management unit, and if the SCCP user does not use the message return selection, the SCCP message is continuously discarded.

Therefore, there is a problem in that the utilization and efficiency of the signal network is deteriorated because the SCCP message is discarded or the message transfer signal message is excessively transmitted to the signal network.

The present invention has been made in view of the above-described problems, and in the case of signaling message routing failure in NO.7 signaling network, a new SRF message is defined and an additional processing procedure thereof is defined so that the signaling message is continuously discarded in the STP. In order to improve the utilization and reliability of the signaling network by preventing the excessive signal traffic caused by the SCCP transport message on the signal link set between the SSP and the STP, appropriate response to the occurrence of the failure of the signaling network. It is an object of the present invention to provide a method for handling a signaling message routing failure in a number seven signaling network.

1 is a diagram showing the configuration of a typical NO.7 signal network.

2 is a diagram illustrating a protocol structure of each signal point in signaling message routing in a general NO.7 signaling network.

3 illustrates a typical SCCP message format.

4 is a diagram showing the configuration of a signal network NO.7 according to an embodiment of the present invention.

5 is a flowchart illustrating a processing operation when an SCCP message routing fails at a signal transfer point of a NO.7 signal network according to an embodiment of the present invention.

6 is a flowchart illustrating a processing operation in response to receiving an SCCP network management message at a service switch point of a NO.7 signaling network according to an embodiment of the present invention.

In order to achieve the above object, the present invention, in the signal message routing processing method in the number seven signal network, when receiving the SCCP message from the service switch point at the signal transmission point to generate an SRF message when it cannot route to another signal point Process of doing; Routing to the service switch point by including address information of a routing failure SCCP message in the SRF message; Checking the return selection of the SCCP message according to the routing failure of the SCCP message; And performing a SCCP message return procedure or discarding the SCCP message and waiting for a new SCCP message reception again according to the SCCP message return selection.

On the other hand, the process of determining whether the SCCP message received through the process of routing the SRF message and SCCP message return procedure whether the SCCP network management message; Determining whether the type of the SCCP message is an SRF message when the SCCP message is an SCCP network management message; Changing the SCCP message routing information with respect to the address information of the routing failure SCCP message included in the SRF message when the type of the SCCP message is the SRF message; And after the SRF message is processed, waiting for a new SCCP message to be received again.

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

The structure of the NO.7 signal network including the SCCP message routing of the present invention is similar to that shown in FIG. 1, and will be described below using the configuration of the NO.7 signal network shown in FIG.

As described above, the operation of the SCCP message routing failure in the STP in the NO.7 signaling network of the present invention will be described with reference to the accompanying drawings.

For example, when the SCCP user part of the SSP (A) routes the SCCP message to the STP (B ~ E) to obtain service control information from the SCP (F ~ H), as shown in FIG. Suppose that you are routing to STP (C) with a failure of BC, CD, and CE).

Here, the processing operation when the SCCP message cannot be routed due to the failure of GT translation of the SCCP message or the impossibility of accessing the signal point in the STP (C) will be described with reference to FIG. 5.

First, when the SCP (C) receives the SCCP message from the SSP (A) (step S11), a routing process is performed for the corresponding SCCP message (step S12).

If the SCCP message routing result (step S13) succeeds in the SCCP message routing in the STP (C), the flow returns to the step S11. On the other hand, if the corresponding SCCP message routing fails, it generates an SCCP message routing failure (SRF) message, which is a general SCCP message format as shown in FIG. The following parameters are included in the fixed essential part.

Parameter Form (F V O) Length (octet) SCMG format identifier (message type code) F One Cause of error F One Failure address V 3 min

Here, the SCMG format identifier is a 1-octet and a new value is added. The cause of error includes 1-octet information on why the routing failed in STP, a signal point inaccessibility, and a GT translation failure. The failure address includes address information that fails to route in STP.

As described above, when generating the SRF message, the STP (C) copies the called address of the SCCP message that fails to route to the failed address of the SRF message. At this time, when the SCCP message that fails to route is a GT translation failure, the called part address before the GT translation is performed, and the error cause includes the reason for the failure of the SCCP routing (step S14).

In this way, after determining the address information of the SCCP message that has failed routing, the SRF message is routed after the message for managing SCCP network is generated by including the above information in the corresponding SRF message (step S15).

In addition, since the routing fails for the SCCP message, the SCCP message return selection is checked. SCCP message bounce selection result (step S16), if there is SCCP message bounce selection, perform SCCP message bounce procedure (step S17). If there is no SCCP message bounce selection, perform SCCP message discard procedure and receive a new SCCP message. The process returns to the wait for step (step S18).

Meanwhile, the processing operation according to the reception of the SRF SCCP network management message in the SSP will be described with reference to FIG. 6.

First, when the SSP (A) receives the SCCP message from the STP (C) (step S21), it is determined whether the received SCCP message is an SCCP network management message (step S22). As a result of the determination, when the received SCCP message is the SCCP network management message, it is determined whether the type of the corresponding SCCP message is an SRF message (step S23). As a result of the determination, in case of the SRF message, the SCCP routing information is changed for the address stored in the failed address information of the SRF message. If the GT is included in the change of the SCCP routing information, the status change for the GT translation is also included.

After the processing for the SRF message, the process returns to the step of waiting for reception of a new SCCP message (step S24).

If it is not the SCCP network management message in step S22, the SCCP message distribution function is performed (step S25). If it is not the SRF message in step S23, the SCCP network management message processing function is performed (step S26).

By restricting the transmission of SCCP messages to the STP in advance for the address that once received the SRF message due to the change of SCCP routing information (failure), the message is discarded in the STP or the message is returned to the set of signaling links between the SSP and the STP. It is possible to prevent the occurrence of more SCCP return messages than necessary.

The method for processing a signal message routing failure in the NO.7 signaling network of the present invention is not limited to the above-described embodiments, and may be modified in various ways within the scope of the technical idea of the present invention.

As described above, the present invention defines a new SRF message and an additional processing procedure in case of signaling message routing failure in the NO.7 signaling network so that the signaling message is continuously discarded in the STP, or the signal link between the SSP and the STP is By preventing excessive signal traffic increase due to SCCP transport message in the set, it is possible to improve the utilization and reliability of the signaling network by performing appropriate response according to the failure of the NO.7 signaling network.

Claims (5)

In the signal message routing processing method in the number seven signal network, Receiving an SCCP message from the service switch point at the signal transfer point and generating an SRF message if it cannot route to another signal point; Routing to the service switch point by including address information of a routing failure SCCP message in the SRF message; Checking the return selection of the SCCP message according to the routing failure of the SCCP message; And performing a SCCP message return procedure or waiting for a new SCCP message to be received again after discarding the SCCP message according to the SCCP message return selection. The method of claim 1, Determining whether the received SCCP message is an SCCP network management message through a process of routing the SRF message and performing a SCCP message return procedure; Determining whether the type of the SCCP message is an SRF message when the SCCP message is an SCCP network management message; Changing the SCCP message routing information with respect to the address information of the routing failure SCCP message included in the SRF message when the type of the SCCP message is the SRF message; And processing for receiving the new SCCP message again after processing the SRF message. The method of claim 1, The SRF message includes a failure address including a called address of a SCCP message that fails to route, information about the reason for the failure of the SCCP routing, an error cause such as a signal point inaccessibility, and a GT translation failure. A method of handling signaling message routing failure in seven signaling networks. The method of claim 2, In the process of changing the SCCP message routing information, when the SRF message includes a GT, the method for processing a signal message routing failure in the number seven signal network, characterized in that it includes a status change for the GT translation. The method of claim 2, In the process of determining whether it is the SCCP network management message and the process of determining whether it is an SRF message, it performs a SCCP message distribution function when it is not an SCCP network management message, and performs a SCCP network management message processing function when it is not an SRF message. A method for handling signaling message routing failures in a number seven signaling network.