KR100201809B1 - Message transfer active method of full electronic switching system for multi signal point management - Google Patents

Abstract

1. Technical field to which the invention described in the claims belongs

The present invention relates to a method of operating a message transfer unit of an electronic switch that can process multiple signal points in common.

2. Technical problem that the invention tries to solve

The present invention provides a method of operating a message transfer unit of an electronic switchboard capable of performing No. 7 message communication for efficient software management.

3. Summary of Solution to Invention

A method of operating a message transfer unit of an electronic switch for processing multiple signaling points, the method comprising: receiving, at the message transfer unit, a message including a routing label having a common signaling point from a user unit; Reading the signal point DPC of the power from the routing label; reading the signal link connected to the power signal point; determining the size of the power signal point to which the signal link is connected; and receiving from the user unit. Changing the message to the No. 7 message transmission mode corresponding to the size of the signal point of the power station; 7 The summary consists of the process of sending a message.

4. Important uses of the invention

It is suitable for the operation method of message transfer part of electronic switching system.

Description

Operation Method of Message Transfer Unit of Electronic Switching System for Processing Multiple Signal Points

1 is a diagram showing a routing label for message processing No. 7 according to a conventional CCITT recommendation.

Figure 2 shows a routing label in China that does not comply with the CCITT Recommendation.

3 shows a routing label with a common signal point.

4 is a diagram showing the physical components of No.7 message processing according to an embodiment of the present invention.

FIG. 5 is a diagram showing a software flow for signal point common processing of the message transfer unit 22 according to FIG.

The present invention relates to a message transfer unit of an electronic switchgear for transmitting signal information to a user part of a called point in an electronic switchgear, and in particular, a message transfer unit of an electronic switchgear capable of processing multiple signal points in common. It relates to a method of operation.

In general, when routing No.7 messages, signaling link management, and signaling network management messages in an electronic switchgear, the message routing in the message transfer section of the electronic switchgear is used as the routing label defined in the CCITT Recommendation.

1 is a diagram showing a routing label of message processing No. 7 defined in the conventional CCITT recommendation. That is, it consists of a 4-bit signal point SLS 2, a 4-bit signal point OPC 4, and a 4-bit signal point DPC 6.

In a country where the above No. 7 message transfer unit of the conventional electronic switchboard does not apply the routing label according to FIG. 1, the No. 7 message processing is recommended by recommending a routing label unique to the country. The representative country is China. Figure 2 shows a routing label in China that does not comply with the CCITT Recommendation. That is, it consists of a 4-bit signal point SLS 8, a 24-bit signal point OPC lO, and a 24-bit signal point DPC 12.

As such, in the case of China, the example of routing diagram in the form of FIG. 2 is used. When exporting the electronic switchboard with the No.7 message processing function to the above-mentioned countries, the management is difficult and incompatible. There is an impossible problem.

In other words, the No. 7 message processing unit of the current electronic switchboard is used in the form of Fig. 1 when the No. 7 routing label is transmitted to a power station. Likewise, the signal point DPC 6 must be composed of l4 bits to transmit No.7 messages, which makes communication impossible.

Accordingly, an object of the present invention for solving the above problems is to provide a method of operating a message transfer unit of an electronic switchboard which is capable of transmitting No. 7 messages regardless of the size of a signal point.

Another object of the present invention is to provide a method of operating a message transfer unit of an electronic switchboard capable of performing No. 7 message communication for efficient software management.

Still another object of the present invention is to provide a method of operating a message transfer unit of an electronic switching system for processing multiple signal points.

According to the technical idea of the present invention for achieving the above object, in the message transfer unit operating method of the electronic switchboard for processing multiple signal points, a routing label having a common signal point from the user unit is included; Receiving a message from the message transfer unit; reading a signal point DPC of a power station at a routing label of the received message; reading a signal link connected to the power signal point; Determining the size of the power station signal point; changing the message received from the user unit into a No. 7 message transmission mode corresponding to the size of the power station point; Characterized in that the process consisting of transmitting.

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

3 is a view showing a routing label having a common signal point according to an embodiment of the present invention. That is, it consists of a 4-bit signal point SLS 14, a 32-bit signal point OPC l6, and a 32-bit signal point DPC 18.

4 is a diagram showing the physical components of No.7 message processing according to an embodiment of the present invention. Referring to FIG. 4, a path having a common signaling point from the user part 20 for which the No.7 message processing function defined by the ISDN user part (ISDN UP), the telephone user part (TUP), and the signal connection control part (SCCP) is desired. The message transfer unit 22 for receiving the No. 7 message including the setting label and transmitting the message to the station signal point via the signal link is a 14-bit country signal point 28 or a 24-bit country signal point 30 through the signal links 24 and 26. Send it. That is, the MTP message transfer unit 22 transmits the No. 7 message by dividing the signal point of 14 bits and the signal point of 24 bits and the like.

5 is a diagram illustrating a software flow for signal point common processing of the message transfer unit 22 according to FIG. 4 according to an embodiment of the present invention. Referring to FIG. 5, a process 34 of receiving a message including a routing label and service information as shown in FIG. A process 36 for reading the signal point DPC of the power from the label; a process 38 for checking whether the state of the power signal point is normal and terminating the processing routine in case of abnormality; and a process 40 for reading the signal link connected to the power signal point; The signal link of inputs the size of the power signal point to the MMC at the initial generation. A process 42 for determining the size of the power signal point to which the signal link is connected; and if the size of the power signal point is 14 bits, the message input from the user of the message transfer unit transmits a No. 7 message of l4 bits. In the case of 24 bits, the message inputted from the user of the message transfer unit is changed to a 24 bit No. 7 message transmission form.

The flow of the software according to the present invention is terminated by the process 48 of transmitting the message No. 7 changed from the process 44, 46 to the power station.

Therefore, according to the present invention, although the message transfer part of the conventional electronic switchboard is limited to a 14-bit signal point in the routing label in the case of No.7 message, the 14-bit signal point 28 and the 24-bit signal point according to the present invention. Communication with players with 30 is possible. Of course, it is also possible to communicate with large stations that use signal points other than 14 bits and 24 bits.

As described above, the signal point sharing processing method of the message transfer unit of the electronic switching system having the No.7 message processing function according to the embodiment of the present invention provides a method of counterpoint signaling of a routing label having a common signaling point received from a user. According to the size, the message received from the user can be changed and transmitted to the corresponding No.7 message transmission form, which enables efficient management.

Claims (1)

CLAIMS What is claimed is: 1. A method of operating a message transfer unit of an electronic switch for processing multiple signaling points, the method comprising: receiving, at a message transfer unit, a message including a routing label having a common signaling point from a user unit; Reading signal point DPC of a power station from a routing label of the received message; Reading a signal link connected to the power signal point; Determining the magnitude of the power signal point to which the signal link is connected; Changing the message received from the user unit into a No. 7 message transmission mode corresponding to the size of the signal point of the power station; And transmitting the message No. 7 changed from the above process.