KR100834628B1 - Signaling Message Processing Method of No.7 Signaling Network - Google Patents

Abstract

The present invention relates to a signaling message processing method in No.7 signaling network which can prevent the signaling message to fail to be routed to MTP.

Conventionally, when attempting to transmit a signal message of an MTP user part to a signal network at a signal point of No. 7 signal network, if routing is impossible for the signal message, only the signal message is discarded, and There is a problem in that the MTP user part does not transmit any information on discarding the signal message to the MTP user part requesting delivery, and the MTP user part continues to deliver the signal message to be discarded to the MTP.

According to the present invention, when routing to a corresponding signaling message becomes impossible, the MTP user can be informed why the routing is impossible, so that the MTP user can prevent a request for transmission of the signaling message to be discarded to the MTP, thereby increasing the load on the system. You can prevent it in advance.

Description

No.7 Signaling Message Processing Method of Signaling Network             

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

Fig. 2 shows the internal protocol structure of each signal point of No. 7 signal network.

3 is a diagram illustrating a configuration of MTP level 3. FIG.

4 is a diagram showing the configuration of a routing label.

Figure 5 shows the configuration of a conventional MTP suspend primitive.

6 is a diagram showing the configuration of the MTP stop primitive applied to the present invention.

7 is a flowchart for explaining a signal message processing method in No. 7 signal network according to the present invention;

*** Explanation of symbols for the main parts of the drawing ***

10.TUP, 20.ISUP,

30 TC, 40 SCCP,

50. MTP, 60. signaling message processing unit,

63. message distribution unit, 65. message determination unit,

67. Message routing unit, 70. Signaling network management unit

The present invention relates to a signal message processing method in a No.7 signal network, and more particularly, to a signal message processing method in a No.7 signal network to prevent a signal message to be routed from being transmitted to MTP.

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

This No. 7 signal network is made as shown in FIG. 1, and assuming that all signal link sets in the signal network are available, each signal point of the signal network has an internal protocol structure as shown in FIG. In addition, the ISDN user unit considering the correspondence between the telephone user part (TUP) 10 and the various services of the ISDN (Integrated Services Digital Network), which are in charge of the processing of telephone signal processing and call exchange connection control. Message Transfer (MTP) such as (ISDN User Part; ISUP) 20 and Signaling Connection Control Part (SCCP) 40, which enables the transmission of various signals or data other than the normal line-compatible control signals. Part) The user portion is connected to the MTP 50. In FIG. 2, TC (Transaction Capabilities) 30 is an SCCP user part. Here, the signal point performing only a signal transfer function may not have a protocol such as the SCCP 40 and the ISUP 20.

As described above, the MTP is a function unit that reliably delivers No.7 signal related messages transmitted and received between signal points. As shown in FIG. 3, the MTP performs signal traffic transmission and user part message distribution functions. The signal message processing unit 60 and all the specifications (signal link, signal link set, signal point, signal route) belonging to the signal network are efficiently used for reliable signal message transmission, while maintaining the correspondence between the elements. It is provided with a signal network management unit 70 that performs a function for managing the signal network shape.

In such a configuration, the signal message processing unit 60 analyzes the received message and checks whether the final destination of the message is its own country, and processes it, and a message distribution unit that delivers the message to the user unit of the local country. And a message routing section 67 for routing to a signal route connected with an adjacent signal point in order to transmit the message to the final destination.

When the MTP user unit 10, 20, 40 requests the signaling message to the MTP 50 in the No. 7 signal network, the message routing unit 67 sends a signal to be transmitted from the MTP user unit 10, 20, 40. The message is received and the routing message of the signaling message is checked based on the routing label information. If the test result is possible to route, route the signal message to the signal network, and if it is impossible, discard the signal message.

In more detail, as shown in FIG. 4, the message routing unit 67 receiving the signal message to be transmitted from the MTP user units 10, 20, and 40 is a routing label included in each signal message. Collects routing label information (Destination Point Code, Signaling Link Selection) of the corresponding signaling message, and determines whether an incoming signaling point exists based on the collected routing label information.

If it is determined that the incoming signal point exists, it is determined whether the incoming signal point is accessible, and if the incoming signal point is accessible, the corresponding signal message is routed to the signal network.

However, if the incoming signaling point does not exist or if the incoming signaling point is inaccessible and routing to the signaling message is impossible, the signaling message is discarded.

As described above, conventionally, when attempting to transmit a signal message of the MTP user part at a signal point of No. 7 signal network to the signal network, when routing to the corresponding signal message becomes impossible, only the signal message is discarded. However, the MTP does not transmit any information about the discarding of the signaling message to the MTP user part requesting delivery of the signaling message. Accordingly, the MTP user part continues to request the signal message to be routed to the non-routing signal point, and the MTP has a problem in that the load of the system is increased due to the processing of the signal message to be discarded, thereby degrading the performance and efficiency of the overall system.

As described above, in the situation where the MTP user part continuously requests the signal message to be routed to the non-routing signal point, the MTP stop primitive (MTP_PAUSE primitive) in which the MTP 50 notifies the MTP user part of the inaccessible state of the signal point is not available. It occurs when it is lost. Since the MTP stop primitive (MTP_PAUSE primitive) shown in FIG. 5 is transmitted only when an accessible signal point is changed to an inaccessible state, a signal point for routing a signaling message exists at all in the MTP signaling network. If not, there is a problem that can not be recognized by the MTP user unit without the intervention of the signal network operator.

The present invention has been made to solve the above-mentioned problems, and when routing the signal message of the MTP user part at the signal point of No.7 signal network to the signal network, if routing for the corresponding signal message becomes impossible, routing is It is an object of the present invention to provide a signaling message processing method in No.7 signaling network that enables an MTP user to prevent a request for delivery of a signaling message to be discarded by informing the MTP user of the impossible reason.

Signal message processing method in the No.7 signal network according to the present invention for achieving the above object, upon receiving a signal message transmission request, based on the routing label information of the signal message requested to transmit the signal message, Determining whether routing is possible; If it is determined that the routing of the signal message is impossible, the method may include transmitting an MTP stop primitive indicating that the routing of the signaling message is impossible.

The transmitting of the MTP suspend primitive may include: determining whether the signaling message is a signaling message of a local MTP user unit when the signaling message cannot be routed because an incoming signaling point of the signaling message does not exist; And when the signaling message is a signaling message of the local MTP user unit, sets the reason field of the MTP suspend primitive to a value indicating that an incoming signal point of the signaling message does not exist in the signaling network, and transmits to the local MTP user unit. Discarding the signaling message; If the signal message is not the signal message of the MTP user part of the local station, the signal message transfer prohibition procedure is performed, and the signal message is discarded.

Determining whether the signaling message is a signaling message of a local MTP user unit when the incoming signaling point of the signaling message is inaccessible and the routing of the signaling message is impossible; In response to the determination that the signaling message is a signaling message of the local MTP user unit, the reason field of the MTP suspend primitive is set to a value indicating that an incoming signal point of the signaling message is inaccessible and transmitted to the local MTP user unit. Discarding; If the result of the determination is that the signal message is not a signal message of the MTP user part of the local station, the method may further include performing a signal message prohibition procedure and discarding the signal message.

Hereinafter, with reference to the accompanying drawings will be described in detail a signal message processing method in the No.7 signal network according to a preferred embodiment of the present invention.

Since the configuration of the MTP to which the signal message processing method is applied in the No. 7 signal network according to the present invention is similar to that of the related art, the following description will be given with reference to FIG. 3.

6 is an APC (Affected) which is a signal point code value for distinguishing an inaccessible signal point of a road network showing the configuration of an MTP stop primitive (MTP_PAUSE primitive) applied to a signal message processing method in No. 7 signal network according to the present invention. APC field indicating a Point Code and a reason field indicating a reason for transmitting an MTP suspend primitive (MTP_PAUSE primitive).

As described, the reason field indicates a reason for transmitting an MTP suspend primitive (MTP_PAUSE primitive), and coding thereof is shown in Table 1 below.

8 bit Reason 00000000 Unknown signaling point 00000001 Inaccessible signaling point

7 is a flowchart illustrating a signal message processing method in No. 7 signal network according to the present invention.

First, the MTP waits for a signaling message transfer request from a signaling network or an MTP user unit, and when receiving a signaling message transfer request, the message routing unit 67 sends a corresponding signal at a routing label included in the signaling message requested to be transferred. The routing label information of the message is collected (S10 and S12).

Thereafter, on the basis of the routing label information collected in step S12, it is determined whether an incoming signal point of a signaling message requested to be transmitted exists in the No. 7 signal network (S14).

As a result of the determination in step S14, when the incoming signal point exists in the No. 7 signal network, it is determined whether the incoming signal point is accessible (S16).

If the corresponding incoming signal point is accessible as a result of the determination of step S16, the signal message requested to transmit the signal message is encoded in step S10 and routed to the signal network (S18).

On the other hand, if the incoming signal point is inaccessible as a result of the determination in step S16, it is determined whether the signal message requested for signal transmission in the step S10 is the signal message of the local MTP user unit (S20).

If the corresponding signal message is the signal message of the MTP user part of the local station as a result of the determination of step S20, the MTP user part transmits an MTP suspend primitive (MTP_PAUSE primitive) having the reason field set to 'No access point', and the process described above. In step S10, the signal message requested for signal transmission is discarded (S24 and S26).

On the other hand, if the corresponding signal message is not the signal message of the MTP user part of the local station as a result of the determination in step S20, the signal message transfer prohibition procedure is performed, and the signal message requested to transmit the signal in step S10 is discarded (S22). , S26).

On the other hand, if the corresponding incoming signal point does not exist in the No.7 signal network as a result of the determination in step S14, it is determined whether the signal message requested for signal transmission in the step S10 is a signal message of the MTP user part of the local station (S20). ).

If the corresponding signal message is a signal message of the MTP user part of the local station as a result of the determination in step S20, the MTP user part transmits an MTP suspend primitive (MTP_PAUSE primitive) having the reason field set to 'signal point not present'. In step S10, the signal message requested for signal transmission is discarded (S24 and S26).

On the other hand, if the corresponding signal message is not the signal message of the MTP user part of the local station as a result of the determination in step S20, the signal message transfer prohibition procedure is performed, and the signal message requested to transmit the signal in step S10 is discarded (S22). , S26).

On the other hand, the MTP stop primitive (MTP_PAUSE primitive) sent by the MTP in step S24 described above is received by the MTP user unit, and the MTP suspend primitive (MTP_PAUSE primitive) whose reason field is set to 'no access point' from the MTP. In the case of receiving the MTP user part, the MTP user part knows that it is accessible, but since the corresponding signal point is in an inaccessible state, the state of the corresponding signal point is updated to an inaccessible state to prevent a request for transmission of the signal message to be discarded.

On the other hand, when receiving an MTP stop primitive (MTP_PAUSE primitive) whose reason field is set to 'signal point not present' from the MTP, the MTP user part requests to transmit a signaling message to a signal point that does not exist in No. 7 signaling network. This is a problem caused by the lack of consistency of the signal network data to maintain the consistency of the signal network data by performing a procedure to inform the operator of the information.                     

The signal message processing method in No. 7 signal network of the present invention is not limited to the above-described embodiment, and can be modified in various ways within the scope of the technical idea of the present invention.

According to the signal message processing method of the No.7 signal network of the present invention as described above, when trying to transmit a signal message of the MTP user part to the signal network at the signal point of the No.7 signal network, routing for the corresponding signal message If this is not possible, by informing the MTP user why routing is not possible, the MTP user can prevent the request for the delivery of the signaling message to be discarded to the MTP, thereby preventing the increase in system load in advance.

Claims (6)

No. 7 A signal message processing method in a signaling network, a) when receiving a signaling message delivery request, determining whether an incoming signaling point exists in the signaling message based on routing label information of the signaling message requested to transmit the signaling message; b) if the incoming signal point of the signaling message does not exist as a result of the determination of step a), determining whether the signaling message is a signaling message of a local MTP user unit; c) if the signaling message is a signaling message of the MTP user part of the local MTP user, the MTP user of the local MTP user is set by setting the reason field of the MTP suspend primitive to a value that the incoming signaling point of the signaling message does not exist in the signaling network. Transmitting to the second terminal and discarding the signal message; d) if the signaling message is not the signaling message of the MTP user part of the local station, performing the signaling message prohibition procedure and discarding the signaling message. How to handle signal messages. The method of claim 1, wherein the MTP stop primitive is A signal point code field indicating an inaccessible signal point of the signal network; 7. A method for processing signaling messages in a signaling network, comprising a reason field indicating a reason for sending an MTP stop primitive. The method of claim 2, wherein the reason field, A value that an incoming signaling point of the signaling message does not exist in the signaling network; 7. A method for processing a signaling message in a signaling network, wherein the incoming signaling point of the signaling message is set to any one of an inaccessible state. delete The method of claim 1, If the incoming signal point of the signaling message exists but the incoming signal point of the signaling message is inaccessible as a result of the determination of step a), e) determining whether the signaling message is a signaling message of a local MTP user unit; f) If the signal message is a signal message of the MTP user part of the local station as a result of determining in step e), set the reason field of the MTP suspend primitive to a value indicating that an incoming signal point of the signaling message is inaccessible to the local MTP user part. Transmitting and discarding the signaling message; g) if the signal message is not a signal message of the MTP user part of the local station as a result of the step e), performing a signal message prohibition procedure and discarding the signal message. .7 How to handle signaling messages in a signaling network. 6. The method of claim 1 or 5, wherein when the MTP user unit receives an MTP suspend primitive in which the reason field is set to a value that an incoming signaling point of the signaling message is inaccessible, the state of the signaling point is inaccessible. Updating to a state; When the MTP user unit receives the MTP stop primitive set to the value that the destination signal point of the signaling message does not exist in the signaling network, the MTP user unit notifies the operator of signaling point information that does not exist in the signaling network. A signal message processing method in a signal network.

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