KR20020009222A - Method for watching automatically link trunk line in msc system - Google Patents

Abstract

PURPOSE: A trunk line link automatic monitoring method in an exchange is provided to automatically cut off a trunk line with an error so that it may not perform a call processing service operation by periodically testing the overall path of a trunk line link device by using signal equipment. CONSTITUTION: A trunk line link control processor periodically receives an automatic link monitoring signal from a dual port RAM of a trunk line link matching board and outputs a corresponding link trunk line select signal to a dual port RAM of the trunk line link matching board(S1). The trunk line link matching board receives the link trunk line select signal and selects a trunk line of a corresponding link(S2). Signal equipment receives a signal equipment connection control signal from a signal equipment control processor and connects corresponding signal equipment(S3). A time switch receives a time switch connection control signal from a time switch control processor and connects a corresponding time switch(S4). The signal equipment receives a testing signal sound transmission control signal from the signal equipment control processor, performs an internal testing by itself and outputs a testing signal sound to the time switch(S5). The signal equipment compares the testing signal sound performed for the internal testing and the testing signal sound transmitted and received through a connection path between the time switch and the trunk line channels of the trunk line link matching board, and outputs a corresponding signal sound result value to a speech path maintenance block through the signal equipment control processor(S6). The speech path maintenance block determines whether there is an error in the trunk line link(S7). If there is no error in the trunk line link, the speech path maintenance block determines whether the overall trunk lines of the corresponding link has been tested(S8).

Description

Relay line automatic monitoring method in exchange {METHOD FOR WATCHING AUTOMATICALLY LINK TRUNK LINE IN MSC SYSTEM}

The present invention relates to a method for automatically monitoring a trunk line link at an exchange, and more particularly, after the entire path of the trunk line link device is periodically tested using signal equipment, the relay line which has a fault does not automatically perform a call processing service operation. The present invention relates to a method for automatic monitoring of trunk line links at an exchange, which makes it possible to block them.

In a conventional method of automatically monitoring a link of a relay line, the relay line link control processor periodically receives an automatic execution request signal and simultaneously outputs a corresponding relay line selection signal to the relay line matching board. Then, the relay line matching board searches for an automatic test target relay line, connects an automatic test target trunk line loop back, and then transmits and receives test data, and then transmits the result value according to the test result to the relay line control processor. To the relay maintenance block. Then, the relay line maintenance block outputs a relay line disconnection or relay line disconnection release signal to the relay link control processor according to a test result, and notifies the operator of the state of the relay line through a terminal.

However, as described above, the method for automatic monitoring of a trunk line link in a conventional exchange has been tested with respect to the connection inside the trunk line link device as the trunk line channel is tested using its own loopback function provided separately within the trunk line link. Although it was possible, failures occurred in the entire path constituting the relay link such as those connecting the trunk line link and the time switch were not detected. In this case, not only the failure section and the cause of the failure can be quickly determined, but also the call occupancy error occurs frequently and the call occupancy rate is slowed, thereby reducing the quality of the call processing service.

Accordingly, the present invention has been made to solve the conventional problems as described above, and an object of the present invention is to periodically test the entire path of the relay line link device to automatically block the relay line in which an abnormality occurs, thereby eliminating the occupancy error phenomenon. In order to provide users with a higher quality mobile communication service, the present invention provides a method for automatically monitoring a trunk line link at an exchange.

In order to achieve the above object, the relay line link automatic monitoring method of the present invention includes: a relay line link matching board including a dual port RAM, firmware, and a plurality of links; Call processing block; Trunk line link control processor; A time switch control processor; Time switch; Signal equipment control processor; Signaling equipment; Monetary system maintenance block; In a relay line link monitoring method in a switch configured with a terminal,

The relay line link control processor periodically receives the automatic link monitoring signal from the dual port RAM in the relay line link matching board and simultaneously outputs the corresponding link line selection signal to the dual port RAM in the relay line link matching board. step;

A second step of the relay line matching board receiving the relay line selection signal for each link from the relay line link control processor and selecting the relay line corresponding to the corresponding link;

A third step of the signal equipment receiving a signal equipment connection control signal from the signal equipment control processor and then connecting the corresponding signal equipment corresponding thereto;

A fourth step of connecting the corresponding time switch after the time switch receives the time switch connection control signal from the time switch control processor;

A fifth step of, after the signal equipment receives the test beep transmission control signal from the signal equipment control processor, performs the internal test and outputs a test beep to the time switch;

The signal equipment compares the test signal to which the test equipment performs its internal test with the test signal transmitted / received through the connection path between the relay line channels of the time switch and the trunk line link matching board, and then compares the result signal to the signal equipment control processor. A sixth step of outputting to the call path maintenance block;

A seventh step of determining, by the call path maintenance block, whether an abnormality has occurred in a relay line link;

An eighth step of determining, if the abnormality does not occur in the relay line link in the seventh step, whether the call path maintenance block has tested the entire relay line in the corresponding link; And

If the test of the entire relay line in the corresponding link is not completed in the eighth step, the process proceeds to the second step again, and when the test of the entire relay line is completed, the call path maintenance block causes abnormality of the link. And a ninth step of informing the operator of the value through the terminal.

1 is a functional block diagram showing a configuration of a relay line automatic monitoring device in an exchange according to an embodiment of the present invention;

2 is an operation flowchart showing a relay line link automatic monitoring method in an exchange according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: relay line matching board 101: dual port RAM

102: firmware 103: link

200: call processing block 300: trunk line link control processor

400: time switch control processor 500: time switch

600: signal equipment control processor 700: signal equipment

800: telephone line maintenance block 900: terminal

Hereinafter, a relay line link automatic monitoring method in an exchange according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram of a relay line automatic monitoring device in an exchange according to an embodiment of the present invention, the relay line automatic monitoring device in an exchange according to an embodiment of the present invention is a dual port RAM (Dual Port RAM) (101), firmware (102), relay line link registration board (100) consisting of a plurality of links (103); Call processing block 200; Relay line link control processor 300; A time switch control processor 400; Time switch 500; Signal equipment control processor 600; Signal equipment 700; Monetary system maintenance block 800; And a terminal 900.

The relay line link matching board 100 receives a relay line selection signal from the relay line link control processor 300 when a call is generated, selects a relay line corresponding thereto, and simultaneously transmits a call processing related signal through the relay line to the time switch 500. Pass through the dual port RAM 101, and periodically outputs the automatic link monitoring signal to the relay line link control processor 300.

Here, the plurality of links 103 in the relay line matching board 100 are composed of four links 103 in which 32 relay line channels exist for each link 103 and at the same time for each link 103. One loop back is shared, and the relay lines in each link 103 are connected 1: 1 with the time switch 500 through a sub-highway.

In addition, the call processing block 200 outputs a relay line occupancy request signal to the relay line link control processor 300 through the call line maintenance block 800 when a call is generated.

Meanwhile, the relay line link control processor 300 receives the automatic link monitoring signal periodically from the dual port RAM 101 in the relay line matching board 100, and at the same time, the relay line selection signal for each link 103. It outputs to the dual port RAM 101 in the relay line matching board 100, while receiving the relay line occupancy request signal from the call processing block 200 is mounted in the relay line matching board (100) Attempts to occupy the idle relay line of each link 103.

In addition, the relay line link control processor 300 serves to block a relay line corresponding to the relay line blocking signal from the call line maintenance block 800.

On the other hand, the time switch control processor 400 is connected between the communication line system maintenance block 800 and the time switch 500, and receives the time switch connection signal from the communication line system maintenance block 800 and At the same time serves to output the time switch connection control signal to the time switch 500.

In this case, the time switch 500 receives a time switch connection control signal from the time switch control processor 400 and then connects the corresponding time switch 500 corresponding thereto. Accordingly, when the selection area of the time switch 500 is an area connected to the selected relay line of the link 103 in the relay line link registration board 100, the relay line is 1: 1 through the time switch 500 and the sub-highway. Will be connected.

On the other hand, the signal equipment control processor 600 is connected between the communication line maintenance block 800 and the signal equipment 700, and receives the signal equipment connection signal from the communication line maintenance block 800 and At the same time serves to output a signal equipment connection control signal to the signal equipment 700.

At this time, the signal equipment 700 receives a signal equipment connection control signal from the signal equipment control processor 600 and then serves to connect the corresponding signal equipment 700 corresponding thereto. Accordingly, since the signal equipment 700 and the time switch 500 are also connected 1: 1 through the sub-highway, the signal equipment control processor 600 is connected to the signal equipment 700. By activating the area of), all the paths between the relay device of each link 103 in the relay line matching board 100 and the time switch 500 and the signal equipment 700 are connected.

On the other hand, the call path maintenance block 800 receives the beep result value from the signal equipment control processor 600 and if the beep result value is a value in which no abnormality occurs in the relay line link, the corresponding link of the trunk line. While testing the entire relay line (103) and notifying the operator of the result value of the abnormality of the link 103 through the terminal 900, the received beep result value is the corresponding link 103 of the relay line If an error occurs in the value, it serves to block the relay line.

In addition, the terminal 900 receives a display control signal output from the call path maintenance block 800 and then informs the operator of the blocking state of the relay line in the corresponding link 103 through the display.

Next, a description will be made of a relay line link automatic monitoring method in the switch according to an embodiment of the present invention using the relay line automatic link monitoring device in the switch having the above configuration.

2 is an operation flowchart showing a relay line link automatic monitoring method in an exchange according to an embodiment of the present invention.

First, the relay line link control processor 300 periodically receives an automatic link monitoring signal from the dual port RAM 101 in the relay line matching board 100 and simultaneously transmits the corresponding relay line selection signal for each link to the relay line link. It outputs to the dual port RAM 101 in the matching board (100) (S1).

Then, the relay line link matching board 100 receives the relay line selection signal for each link from the relay line link control processor 300 and selects the relay line of the corresponding link 103 (S2). In this case, the relay lines in each link 103 are connected 1: 1 by the time switch 500 and the sub-highway.

On the other hand, the signal equipment 700 receives the signal equipment connection control signal from the signal equipment control processor 600 and then connects the corresponding signal equipment 700 corresponding thereto (S3).

In this case, the signal equipment 700 and the time switch 500 are also connected 1: 1 through the sub-highway, so that the relay device of each link 103 in the relay line link registration board 100 and the time switch ( 500) and all paths between the signal equipment 700.

In addition, the time switch 500 receives a time switch connection control signal from the time switch control processor 400 and then connects the corresponding time switch 500 (S4). Accordingly, when the selection area of the time switch 500 is an area connected to the selected relay line of the link 103 in the relay line link registration board 100, the relay line is 1: 1 through the time switch 500 and the sub-highway. Connect with

On the other hand, the signal equipment 700 receives a test beep transmission control signal from the signal equipment control processor 600 and performs an internal test at the same time and outputs a test beep to the time switch 500 (S5).

Then, the signal equipment 700 compares the test beep transmitted and received through the connection path between the relay line channels of the time switch 500 and the relay line link matching board 100 and the test beep that has performed its own internal test. The corresponding beep result is outputted to the call path maintenance block 800 through the signal equipment control processor 600 (S6).

Then, the call path maintenance block 800 determines whether an abnormality has occurred in the relay line link (S7).

In this case, if no abnormality occurs in the relay line link in the seventh step S7, the call path maintenance block 800 determines whether the entire relay line in the corresponding link 103 has been tested (S8). .

On the other hand, if an error occurs in the relay line link in the seventh step (S7), the call line maintenance block 800 blocks the corresponding relay line of the link 103 and proceeds to the eighth step (S8). (S10).

In addition, if the test of the entire relay line in the link 103 is not completed in the eighth step S8, the process proceeds to the second step S2 again, and the test of the entire relay line in the link 103 is performed. Upon completion, the call path maintenance block 800 notifies the operator of the result value of the presence or absence of the link 103 through the terminal 900 (S9).

Accordingly, if an error occurs in the relay line link 103 according to the result value notified to the operator through the terminal 900, the corresponding relay line of the link 103 is blocked, and if the error does not occur in the relay line link, The entire relay line in link 103 is tested.

As described above, according to the relay line automatic monitoring method in the switch according to the present invention, after the entire path of the relay link device is periodically tested using the signal equipment, the relay line which has a fault does not automatically perform the call processing service operation. It is possible to block call occupancy errors, thereby increasing the success rate of call processing services, and to improve the ability of maintenance by promptly notifying the operator of failure intervals and causes of failures. There is an outstanding effect that it can provide a higher quality mobile communication service.

Claims (2)

A trunk line link registration board consisting of dual port RAM, firmware, and multiple links; Call processing block; Trunk line link control processor; A time switch control processor; Time switch; Signal equipment control processor; Signaling equipment; Monetary system maintenance block; In a relay line link monitoring method in a switch configured with a terminal, The relay line link control processor periodically receives the automatic link monitoring signal from the dual port RAM in the relay line link matching board and simultaneously outputs the corresponding link relay selection signal to the dual port RAM in the relay line link matching board. step; A second step of the relay line matching board receiving the relay line selection signal for each link from the relay line link control processor and selecting the relay line corresponding to the corresponding link; A third step of the signal equipment receiving a signal equipment connection control signal from the signal equipment control processor and then connecting the corresponding signal equipment corresponding thereto; A fourth step of connecting the corresponding time switch after the time switch receives the time switch connection control signal from the time switch control processor; A fifth step of, after the signal equipment receives the test beep transmission control signal from the signal equipment control processor, performs the internal test and outputs a test beep to the time switch; The signal equipment compares the test signal to which the test equipment performs its internal test with the test signal transmitted / received through the connection path between the relay line channels of the time switch and the trunk line link matching board, and then compares the result signal to the signal equipment control processor. A sixth step of outputting to the call path maintenance block; A seventh step of determining, by the call path maintenance block, whether an abnormality has occurred in a relay line link; An eighth step of determining, if the abnormality does not occur in the relay line link in the seventh step, whether the communication line maintenance block has tested the entire relay line in the corresponding link; And If the test of the entire relay line in the corresponding link is not completed in the eighth step, the process proceeds to the second step again, and when the test of the entire relay line is completed, the call path maintenance block causes abnormality of the link. And a ninth step of notifying an operator of the value through the terminal. The method of claim 1, In the seventh step, if an abnormality occurs in the relay line link, the relay line in the switchboard comprises a tenth step of proceeding to the eighth step after blocking the corresponding relay line of the link. Link automatic monitoring method.