KR0176393B1 - Communication path supply method - Google Patents

Abstract

The present invention provides a communication for a plurality of remote switching device functions in an all-electronic exchange that provides an interworking function between these remote switching devices when the remote switching module has a certain limited capacity and operates one or more remote switching devices in one remote area. A method of providing a route, and in the related art, two first and second remote switching devices 1 and 2 operated in the first telephone station 3 as shown in FIG. It is connected to the main body switch 6 in the second telephone station 7 via the links 4 and 5, so that in case of a link failure between the first and second subscribers, it is not only possible to provide a call between the first, second and third subscribers. In the case where the capacity of) is exceeded, there is a disadvantage in that the margin of the second link 5 cannot be used, but the present invention provides a communication path between two first and second remote switching devices 10 and 10 '. The amount of communication between 10 and 10 'goes through the main body exchanger 20. Since it not digested because they, even if it is possible to improve the call handling capacity of the switch, a failure of the data link from one device generation to communicate via the other device will not be disruptive to the service.

Description

Communication path providing method for multiple remote switching device functions in all electronic switch

1 is a block diagram showing in hardware one embodiment of a method of operating a remote switching device in a conventional all-electronic exchange.

2 is a block diagram showing in hardware the embodiment of a method for configuring a communication path between two remote switching devices according to the method for providing a communication path for a plurality of remote switching device functions in the electronic switching system of the present invention.

3 is a block diagram illustrating a control signal path for communication with an adjacent remote control processor in a remote control processor according to a method for providing a communication path for a plurality of remote switching device functions in an electronic switching system of the present invention.

4 is a flowchart illustrating a call processing procedure through a communication path between two remote switching devices, and a flowchart showing step by step an embodiment of a method for providing a communication path for a plurality of remote switching device functions in an electronic switching system according to the present invention.

* Explanation of symbols for main parts of the drawings

10,10 ': First and second remote exchange device 11,11': Participant matching device

12,12 ': Local switch unit 13,13': Remote control unit

14,15,14 ', 15': 1st, 2nd, 3rd, 4th data link 16: Central link matching device

17: central switch unit 20: main body exchanger

21: Remote control main processor 22: Communication node for peripheral processor

23: peripheral processor 24: node for communication with the main body

25: Node for communication with the partner remote control main processor

26: local switch unit

The present invention relates to a method for providing a communication path for a plurality of remote switching device functions in an all-electronic exchange having a remote switching module for accommodating a remote subscriber outside a range that can be accommodated by one main body exchange. If the remote switching module has a certain limited capacity and one or more remote switching devices are operated in one remote area, a communication path for multiple remote switching device functions in all electronic switching devices that provides interworking functions between these remote switching devices. It is about.

In this regard, FIG. 1 is a block diagram showing in hardware a embodiment of a method of operating a remote switching device in a conventional all-electronic switching system. The second remote switching device 1, 2 is connected to the main body switch 6 in the second telephone station 7 through separate communication paths 1 and 2 links 4 and 5, respectively. Not only is it impossible to provide a call between the first, second and third subscribers, but there is a disadvantage in that the margin of the second link 5 cannot be used when the capacity of the first link 4 is exceeded.

The present invention has been made to solve the drawbacks of the prior art, and in the conventional case, even if two first and second remote switching devices 1 and 2 are installed in one first telephone station 3, The first and second remote switching devices 1 and 2 exist only in the connection with the main exchanger 6, so that when the connection with the main exchanger 6 is broken, there is no communication path between the two incoming systems. It is an object of the present invention to provide a communication path providing method for a plurality of remote switching device functions in an all-electronic exchange that can provide a connection and control method between two remote switching devices.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention for achieving the above object is as follows.

Referring to FIG. 2, FIG. 2 is a block diagram showing hardware example of a method of configuring a communication path between two remote switching apparatuses according to a method for providing a communication path for a plurality of remote switching device functions in the electronic switching system of the present invention. As shown in the drawing, the first and second remote switching devices 10 and 10 'are connected to subscriber matching devices 11 and 11' for matching the remote subscriber telephone lines and connected to the subscriber matching devices 11 and 11 '. Local switch (12,12 ') which provides inter-party connection, connection to the central switch, and a remote switch (13) which controls these two devices (11, 11', 12, 12 ') and handles all functions of the exchange. 13 '), and the data link providing the communication path between the remote switching device 13, 13' and the main body exchange period is divided into two sets (first, third data link 14, 14 ') and second, second, 4 data links (15, 15 '), and a central link low-interference device as a main body exchanger (20) for connecting these first and second remote exchange devices (10, 10'). There is a central switch device 17 which provides exchange between the 16 and the connected communication paths.

In this case, the second data link 15 of the first remote switching device 10 and the third data link 14 'of the second remote switching device 10' are connected to each other to provide a communication path and a signal path. Even if the first and fourth data links 14 and 15 'are in a failure state, the communication service between the first and second remote switching devices 10 and 10' is continued.

When the first subscriber belonging to the first remote switching device 10 attempts to make a call, the remote control device 13 first checks the state of the first side data link 14 of the first remote link device. Call processing is performed through communication. If abnormal, the number translation is performed. If the translation result is a call that is received by the subscriber, normal call processing is performed. If the translation result is not the call, the second data link (15) is transmitted. Check the status of).

Subsequently, if the other side is also abnormal as a result of the check, a call failure processing procedure is performed to the first calling party, and if the other side is normal, the call proceeds using the second data link 15 connected to the other side.

3 is a block diagram illustrating a control signal path for communication with an adjacent remote control processor in a remote control processor according to a method for providing a communication path for a function of a plurality of remote switching apparatuses in the present invention. The processor 21 may use three communication nodes 22, 24, and 25 for communication with other processors. The communication with the peripheral processor 23 for internal hardware control may be performed using the communication node 22 for the peripheral processor. In order to communicate with the main body switch, a communication node 24 with the main body is used, and the node 25 for communication with the counterpart remote control main processor is used as a spare node for the counterpart remote switching device.

Therefore, the communication path for the counterpart remote control device is established by using the data link to the counterpart remote switching device side via the local switch device 26.

FIG. 4 is a flowchart illustrating a call processing procedure through a communication path between two remote switching devices, and is a flowchart showing step by step an embodiment of a method for providing a communication path for a plurality of remote switching device functions in an all-electronic exchange according to the present invention.

First, when a first subscriber belonging to the first remote switching device 10 attempts to make a call, the remote control device 13 first checks (31) the state of its own first data link 14 and if it is normal, the main body exchanger. Perform a call processing (32) through communication with (20); if abnormal, perform a number translation (33), and perform a normal incoming call processing (34, 35) when the translation result is a call that is received by its subscriber; If the result is not a self-call, the state of the second data link 15 on the other side is checked (34, 36).

Subsequently, if the other side is abnormal as a result of the check, a call failure processing procedure is performed 37 to the first calling party, and if the other side is normal, the call proceeds using the second data link 15 connected to the other side (38).

When the scope of the present invention is expanded to provide a communication path between two remote switching devices in the same country, even when two remote switching devices are located at a long distance, two devices can be connected by using the present invention when the data link with the main body is to be dualized. have.

As described above, the present invention provides a communication path between two first and second remote switching devices 10 and 10 ', thereby extinguishing the amount of communication between the two devices 10 and 10' without passing through the main body exchanger 20. It is possible to improve the call handling capability of the exchange and to communicate with the counterpart device even if a data link failure occurs in any one device, thereby not affecting the service.

Claims (1)

Checking (31) the state of the first data link (14) in the remote control device (13) when the first subscriber belonging to the first remote switching device (10) attempts a call; Performing call processing through communication with the main body exchanger 20 if the check result is normal, and performing number translation (32, 33) if abnormal; Performing normal incoming call processing when the number translation result is the incoming call to his / her subscriber; and checking the state of the second data link 15 of the other party when the translation result is not the incoming call (34, 35, 36). Wow; Performing the call failure processing procedure to the first calling subscriber if the other party is abnormal as well, and proceeding with the call using the second data link 15 connected to the other party if the other party is normal (37, 38). A communication path providing method for a plurality of remote switching device functions in an electronic switch.