KR100461518B1 - Monitoring Method For Call Handling Of Signaling Transfer Point In No.7 Signaling Network - Google Patents

Abstract

According to the present invention, a call processing related signal message is monitored at a signal relay point between two signal points to be monitored in No. 7 signal network, and then transmitted to the network management system to perform call processing monitoring. .7 call processing monitoring method of signal relay point in signal network. In the past, monitoring equipment (workstation) was installed and used externally, which was expensive to purchase expensive monitoring equipment. As the number of and physical locations and the number of signal relays to interlock gradually increase, normal monitoring becomes difficult.

Therefore, the present invention collects call processing related monitoring messages by monitoring the signal messages between two signal points through a signal message processing unit by inputting a calling point and a called point code to be monitored at a signal relay point, and then collecting them into a network management system. By transmitting and displaying it to the operator, call processing monitoring can be performed through the signal relay point in the No.7 signal network without using external monitoring equipment, which causes call processing delay or failure occurrence between the two signal points. It can be detected.

Description

Number Monitoring Method for Call Handling of Signaling Transfer Point in No.7 Signaling Network

The present invention relates to a call processing monitoring method of a signal relay point in No. 7 signal network, and in particular, after performing monitoring on a call processing related signal message at a signal relay point between two signal points to be monitored, the network management system The present invention relates to a call processing monitoring method of a signal relay point in No. 7 signaling network which is transmitted to the call processing monitoring system.

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. Q & A with 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 signaling network, a monitoring equipment (workstation) is separately installed to detect call delays or failures between two signal points, but the call throughput between signal points increases with time. As a result, the number of signal links increases, and since each signal point is interlocked with two signal relay points, the number of signal links to be monitored by the monitoring equipment doubles, thereby detecting call processing delays or failures between the two signal points. There was a disadvantage of becoming difficult.

In addition, because the signal link is monitored by external monitoring equipment, it does not affect the call processing procedure, but there is an economic burden of purchasing expensive monitoring equipment. As the number of signal relay points increases gradually, normal monitoring becomes difficult.

The present invention is to solve the problems as described above, the object of the call, by inputting the calling point and the destination code to be monitored to the signal relay point through the signal message processor to monitor the signal message between the two signal points associated with the call processing After collecting the monitoring message, it transmits it to the network management system and displays it to the operator so that call processing monitoring can be performed through the signal relay point without using external monitoring equipment in No.7 signal 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 diagram illustrating a routing label for a signaling message for explaining the present invention.

5 is a flowchart illustrating a call processing monitoring procedure of a signal relay point in No. 7 signal 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, in the call processing monitoring method of a signal relay point in the number seven signal network, DB signal signal processing unit DB of the call point and destination point to be monitored Inputting to (Database); Setting a monitoring operation by adding a flag to the signal message processing unit DB, and starting the monitoring of the signal message related to the call processing transmitted between the originating point and the destination point by the signal message processing unit of the signal relay point; Analyzing the routing label of the signal message received by the signal message processor to determine whether the received signal message is a signal message for an originating point and a destination point to be monitored; If the received signal message is a signal message to be monitored, the signal message processing unit collecting call processing related signal messages through monitoring; The message processing unit transmits a call processing related signal message collected through monitoring to a network management system, and displays the monitoring information to the operator by the network management system.

Furthermore, in the case where the monitoring information is displayed to the operator by the network management system, monitoring information including a signal message received from the message processing unit, a reception time of the signal message, and a signal relay point that transmits the signal message. It characterized by displaying.

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, the call relaying is performed regardless of the number of signal links or the number of interworking signal relay points by using signal relay points that relay signal messages transmitted and received between each signal point. As a result, the call processing delay or failure occurrence between the two signal points is detected, and the call processing monitoring function is performed by the message transfer unit of the corresponding signal relay point.

In this case, as shown in FIG. 3, the corresponding message transfer unit performs a function of transmitting a signal message transmitted and received between signal points of No. 7 signal network, and performs signal message routing and determination and distribution functions. The signal message processing unit 31 maintains the correspondence between the signal network specifications (ie, signal link, signal link set, signal point, signal route) and performs the signal network shape management function for reliable signal message transmission. It consists of a signal network management unit 32, the call processing monitoring function of the signal relay point according to the present invention is performed by the signal message processing unit 31.

In addition, the signal message processed by the corresponding signal message processing unit 31 may be transmitted through a signal link directly connecting the originating and incoming signal points, or may be transmitted via one or more signal relay points. The processing is performed by a routing label and a service display unit included in the signaling message. The routing label includes a header information unit, 4-bit link selection data (SLS), and the like as shown in FIG. 14 bits each of the originating point code (OPC) and the destination point code (DPC).

In addition, the signal message processing unit 31 monitors a signal message transmitted through a signal link between two signal points (OPC, DPC) to be monitored, and manages the call processing monitoring message collected through monitoring. Or to a central network management system (not shown).

At this time, the network management system displays the call processing monitoring message transmitted from the signal message processing unit 31 of each signal relay point, the reception time of the corresponding monitoring message, and the signal relay point transmitted thereto to the operator.

The call processing monitoring procedure of the signal relay point in the No. 7 signal network configured as described above will be described with reference to FIG. 5.

First, the operator of the No.7 signal network inputs two signal points to be monitored, that is, codes for the origination point and the destination point, into the signal message processing unit DB (DataBase) of each signal relay point (step S51), and the corresponding signal message. By setting whether or not to perform monitoring by adding a flag to the processing unit DB, the signal message processing unit 31 of each signal relay point transmits a signal related to call processing transferred between two input signal points (calling point and receiving point). Monitoring of the message is started (step S52).

In this state, when a signaling message is received from a calling point through a predetermined signal link, when a signaling message is received at a signaling relay point, the message transmission unit of the corresponding signaling relay point confirms whether the currently received signaling message is a signaling message to be monitored. This is done by analyzing the routing label of the signal message received by the signal message processing unit 31 of the corresponding message transfer unit (step S53), and checking whether the signal message is related to the originating point and the destination point to be monitored (step S54). It becomes possible.

In this case, when the received signal message is not a signal message to be monitored, the signal signal is processed according to the original signal message processing procedure, and then waits for reception of the next signal message.

When the received signal message is a signal message to be monitored, the corresponding signal message processing unit 31 collects call processing related signal messages through monitoring (step S55).

Thereafter, the signal message processing unit 31 transmits the call processing related signal message collected through the above-described monitoring to the operation management unit of the local station or to the central network management system (step S56).

Thus, the operation management unit displays the signal message transmitted from the signal message processing unit 31 and the reception time of the signal message to the local operator, the network management system is transmitted from the signal message processing unit 31 of each signal relay point By displaying the signal message to be received, the reception time of the signal message and the signal relay point transmitted to the central operator (step S57), the signal relay point between the specific origination point and the destination point without using external monitoring equipment is displayed. Through this, call processing monitoring can be performed.

In addition, the embodiments according to the present invention are 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 inputs a call point and a call point code to be monitored to the signal relay point to monitor the signal message between the two signal points through the signal message processing unit to collect the call processing-related monitoring message, network management By sending it to the system and displaying it to the operator, call processing monitoring can be performed through the signal relay point in the No.7 signal network without using external monitoring equipment, which causes a delay or failure in call processing between the two signal points. Occurrence can be detected.

Claims (4)

In a call processing monitoring method of a signal relay point in a seven signal network, Inputting a source and destination code to be monitored into a signal message processing unit DB (Database) of a signal relay point; Setting a monitoring operation by adding a flag to the signal message processing unit DB, and starting the monitoring of the signal message related to the call processing transmitted between the originating point and the destination point by the signal message processing unit of the signal relay point; Analyzing the routing label of the signal message received by the signal message processor to determine whether the received signal message is a signal message for an originating point and a destination point to be monitored; If the received signal message is a signal message to be monitored, the signal message processing unit collecting call processing related signal messages through monitoring; And transmitting the call processing related signal message collected through the monitoring to the network management system and displaying the monitoring information to the operator by the network management system. Method of monitoring call processing of relay point. delete delete The method of claim 1, When displaying the monitoring information to the operator by the network management system, And a monitoring message including a signal message received from the message processing unit, a reception time of the signal message, and a signal relay point transmitting the signal message. Process monitoring method.