KR100284971B1 - Incoming Terminal Switching Method Using Line Loopback Function in Asynchronous Mode Public Network - Google Patents

Abstract

A method of switching a called terminal using a line loopback function in an asynchronous mode public network is disclosed. The ATM cell is provided through a switch connected to the first destination terminal to check the validity of the ATM cell by checking the virtual path identifier / virtual channel identifier of the header of the ATM cell, and if it is valid, the line loopback virtual path identifier / virtual channel. Searches the identifier table to check the existence of the virtual path identifier / virtual channel identifier of the ATM cell, and if the virtual path identifier / virtual channel identifier of the provided ATM cell exists in the line loopback virtual path identifier / virtual channel identifier table The virtual path identifier / virtual channel identifier of the provided ATM cell is changed based on the line loopback table, the ATM cell having the changed virtual path identifier / virtual channel identifier is output to the second called terminal, and the retrieved line loopback table and the provided ATM are provided. If the cells do not match, reassembly is performed.

Description

Receiving terminal switching method using line loopback function in asynchronous mode public network

The present invention relates to a method for switching a called terminal, and more particularly, to a method for switching a called terminal using a line loopback function of a called terminal in an asynchronous mode public network.

The basic purpose of B-ISDN is to provide video, telephony, video conferencing, precision screen transmission, high speed data transmission, video signal transmission from narrowband services such as telemetering, data terminal, telephone, facsimile, and internet services. It is to integrate both real-time signals of continuity and clustered data signals with wide band distribution up to broadband service.

Therefore, there is a need for an effective processing method that can handle these various services together. tea. M (Asychronous Transfer Mode) is a communication method.

At present, ATM forums have been formed around the computer and telecommunications industry, and activities have been actively conducted to accelerate the development and spread of ATM products and services. The ATM Forum is not a standard, but works closely with standardization bodies to define standards for ATM products and services.

Standards established by the ATM Forum include an ATM UNI standard, an ATM Data eXxhange Interface (DXI) standard, and an ATM Broadband Inter-Carrier Interface (B-ICI) standard.

1 shows a method of switching a called terminal in a conventional private switching network.

Referring to FIG. 1, a private branch exchange (PBX) exists in the private switching network, and when a user registers a destination number to be switched to the private switching network, the connection request is switched to a desired place.

2 is a data flow diagram illustrating a point-to-point signaling procedure between terminals in an ATM Forum UNI Signaling 4.0, ATM network defined by standardization.

Referring to FIG. 2, the calling terminal sends a connection setup message to the called terminal by sending an SETUP message, and the link setting message reaches the called terminal through the network. The called terminal sends a CONNECT message to the calling terminal in the sense of acceptance of the connection establishment request, and the message also goes to the calling terminal through the ATM network and is connected between both terminals.

However, in a network using a conventional ATM technology, a call forwarding function is not provided so that a user can transfer various kinds of broadband information communication (BISDN) such as user information, for example, voice, video, data, text, and drawings. There was an inconvenience in not receiving the service information.

In addition, in order to grant the call forwarding function, it is necessary to add or modify an exchange of an ATM network one by one.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, an object of the present invention in the ATM communication technology of the B-ISDN, where the destination terminal user moves the connection request of the calling terminal when moving to another place The purpose of this paper is to define the function of the called terminal and to provide a signal processing method to convert the connection request.

1 is a view for explaining a method of switching a called terminal in a conventional private switching network;

2 is a data flow diagram illustrating a one-to-one signal processing procedure between terminals in an ATM Forum UNI Signaling 4.0, ATM network defined by standardization;

3A to 3B are block diagrams and procedure diagrams for explaining a method of switching a called terminal using a line loopback function in an asynchronous mode public network according to the present invention;

4 is a flowchart illustrating a line loopback process according to the present invention in detail; And

5 is a block diagram for explaining in more detail a called terminal having a line loopback function according to the present invention.

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

X: calling party Y: first called party

Z: Second destination terminal A, B, C: ATM switch

100: PHY physical layer 300: line loop back verification unit

400: reassembly 500: multiplexer

600: ATM header addition unit 310: line loop back verification unit

610: ATM header part 620: ATM header table

200: virtual path identifier / virtual channel identifier verification unit

220: virtual path identifier / virtual channel identifier table

320: Line loopback virtual path identifier / virtual channel identifier table

210: virtual path identifier / virtual channel identifier verification unit

In order to realize the above object of the present invention, the present invention provides a source terminal, a first called terminal, a second called terminal, and a switch connected to the calling terminal corresponding to each terminal, the first called terminal. In the asynchronous transmission mode public network having a switch connected to, and a switch connected to a second destination terminal,

(Iii) receiving an ATM cell through a switch connected to the first called terminal;

(Ii) checking the validity of the ATM cell by checking a virtual path identifier / virtual channel identifier of a header of the provided ATM cell;

(Iii) discarding the provided ATM cell if the ATM cell is invalid in step (ii);

(Iii) checking the existence of the virtual path identifier / virtual channel identifier of the ATM cell by searching a line loopback virtual path identifier / virtual channel identifier table if the ATM cell is valid in step (ii);

(Iv) if the virtual path identifier / virtual channel identifier of the ATM cell provided in step (iii) exists in the line loopback virtual path identifier / virtual channel identifier table, the based on the retrieved line loopback table; Changing the virtual path identifier / virtual channel identifier;

(Iii) outputting an ATM cell having the modified virtual path identifier / virtual channel identifier to a second called terminal via a switch connected to a first called terminal and a switch connected to a second called terminal; And

(Iii) reassembling the ATM cell if the line loopback table retrieved in step (iii) and the ATM cell provided in step (iv) do not match, using the line loopback function in an asynchronous mode public network. Provide a method of switching a called terminal.

According to the method of switching a called terminal using a line loopback function in the asynchronous mode public network, by adding a line loopback processing function to the called terminal, it is possible to easily provide a called terminal switching service without involvement of an asynchronous mode public network (ATM network).

Hereinafter, with reference to the accompanying drawings, it will be described in detail the present invention through an embodiment of the present invention.

3A is a block diagram illustrating a method of switching a called terminal using a line loopback function in an asynchronous mode public network according to the present invention, and FIG. 3B is a flowchart illustrating the line loopback function described above.

First, referring to FIG. 3A, an asynchronous transmission mode public network having a line loopback function is connected to an originating terminal (X), a first called terminal (Y), a second called terminal (Z), and an ATM network. The ATM network includes: a switch (A) connected to a calling terminal corresponding to each terminal (X, Y, Z), a switch (B) connected to a first called terminal, and a second called terminal It consists of a switch (C). In this case, the address of the first called terminal Y is 1357924680, and the address of the second called terminal Z is 1234567890. In addition, the switch connected to each terminal may be used for incoming / outgoing calls, but in the present invention, a switch used at the outgoing call and a switch used at the incoming call are distinguished for convenience of description.

Referring to FIG. 3B, when the user using the first called terminal Y moves to the second called terminal Z, a connection request that comes to the application of the first called terminal Y comes to him. All register a command to switch to the second destination terminal (Z).

Subsequently, when the calling terminal X transmits a setup message including an address of the first called terminal Y to connect with the first called terminal Y, the set up message is sent. Via the switch (A) connected to the calling party terminal and the switch (B) connected to the first called party terminal, the first called party terminal (Y) comes to the second called party. The connection request message including the address of the second called party terminal Z is sent to the terminal Z. More specifically, a connection path to {X-A-B-Y} is generated and another connection path to {Y-B-C-Z} is generated by the connection establishment request of the calling party terminal (X).

When the connection path is made in this way, the ATM cell sent by the originating terminal X arrives at the first called terminal Y, but the reassembly process is performed by the line loopback tableing of the first called terminal Y. The virtual path identifier / virtual channel identifier is converted at the ATM cell level without going through, and then directed to the switch C connected to the second called terminal. At this time, ATM is a connectivity method. In general, an ATM establishes a virtual channel to transmit service information, and whenever a virtual channel is established, a virtual channel identifier, which is a connection identification number, is assigned. When the connection is released, the virtual channel identifier is also released. At the cell level, the virtual path identifier / virtual channel identifier is converted.

4 is a flowchart illustrating a line loopback process according to the present invention in detail.

4 and 3A to 3B, first, an ATM cell is provided through a switch connected to a first called terminal (step S11).

The validity of the ATM cell is checked by checking the virtual path identifier / virtual channel identifier of the header of the provided ATM cell (step S13).

If the ATM cell is invalid in step S13, the provided ATM cell is discarded (step S15).

If the ATM cell is valid in step S13, the line loopback virtual path identifier / virtual channel identifier table is searched (step S17).

It is checked whether the virtual path identifier / virtual channel identifier of the ATM cell provided in step S11 and the line loopback virtual path identifier / virtual channel identifier table retrieved in step S17 match.

If the virtual path identifier / virtual channel identifier and the line loopback virtual path identifier / virtual channel identifier table of the ATM cell provided in step S19 match, the provided ATM is based on the retrieved line loopback virtual path identifier / virtual channel identifier table. The virtual path identifier / virtual channel identifier of the cell is changed (step S21).

The ATM cell having the modified virtual path identifier / virtual channel identifier is outputted to the second destination terminal via a switch connected to the first destination terminal and a switch connected to the second destination terminal (step S23).

If the virtual path identifier / virtual channel identifier and the line loopback virtual path identifier / virtual channel identifier table of the ATM cell provided in step S19 do not match, the provided ATM cell is read through a reassembly process (step S25).

5 is a block diagram for explaining in more detail a called terminal having a line loopback function according to the present invention.

3A and 5, the called terminal having a line loopback function includes a PHY physical layer 100, a virtual path identifier / virtual channel identifier verification unit 200, a line loop back verification unit 300, and a reassembly unit. 400, the multiplexer 500, and the ATM header adder 600.

The PHY physical layer 100 establishes a physical connection between ATM network ends. In particular, the PHY physical layer 100 receives an ATM cell from the first destination side switch B through a path 3 in relation to the electrical and mechanical properties of the physical connection. The virtual path identifier / virtual channel identifier verification unit 200 is provided.

In general, the ATM cell attaches a label to a header to identify a virtual channel (VC) and a virtual path (VP) to which it belongs. The label is composed of two parts: a virtual path identifier (VPI) and a virtual channel identifier (VCI). Each VC is identified by a combination of virtual path identifier number and virtual channel identifier number.

The virtual path identifier / virtual channel identifier verification unit 200 is composed of a virtual path identifier / virtual channel identifier verification unit 210 and a virtual path identifier / virtual channel identifier table 220 and located in a header of an ATM cell to be input. The validity of the ATM cell is determined based on the path identifier / virtual channel identifier and provided to the line loopback verification unit 300 if it is determined to be a valid ATM cell.

The line loopback verifier 300 includes a line loopback verifier 310 and a line loopback virtual path identifier / virtual channel identifier table 320 to verify validity from the virtual path identifier / virtual channel identifier verifier 200. Received virtual ATM cell to check virtual path identifier / virtual channel identifier. In this case, if it is determined that the ATM cell does not exist in the line loopback virtual path identifier / virtual channel identifier table 320, the ATM cell is provided to the reassembly unit 400.

In addition, if it is determined that the ATM cell exists in the line loopback virtual path identifier / virtual channel identifier table 320, the ATM cell is provided to the ATM header adding unit 600 via the multiplexer 500.

The ATM header adder 600 includes an ATM header adder 610 and an ATM header table 620 based on a virtual path identifier / virtual channel identifier (VPI / VCI) of an provided ATM cell based on the ATM header table. After the change, the virtual path identifier / virtual channel identifier is provided to the PHY physical layer 100 with the modified ATM cell through the switch C connected to the second destination terminal set by the user through the path C. Output to send to side terminal (Z).

As described above, according to the receiver terminal switching method using the line loopback function of the present invention, by adding the loopback function to the receiver terminal switching function to the function of the terminal without modification of the exchange, even if the user moves to another place, the transfer to the previous place is performed. The ATM cell can be switched to the current location and received.

According to another embodiment of the present invention, two network servers may be installed, and when a server is busy, a called terminal switching service capable of switching a connection setting request to another server may be provided.

In addition, in another embodiment of the present invention, when the ATM terminal does not respond for a predetermined time, it is obvious that the connection establishment request may be switched to another ATM terminal.

In addition, in another embodiment of the present invention, when the ATM terminal is busy, it is obvious that the connection establishment request may be switched to another ATM terminal.

As described above, according to the present invention, the receiving terminal can switch to the connection setting message transmitted to itself to another receiving terminal at the request of the user while maintaining the existing signal processing procedure. The line loopback can be performed by converting the virtual path identifier / virtual channel identifier using a line loopback table having a field of the virtual path identifier / virtual channel identifier, thereby facilitating the implementation of a service of the called terminal.

Although the above has been described with reference to the preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. I can understand that you can.

Claims (1)

And a switch connected to the calling terminal, the first called terminal, the second called terminal, and the calling terminal corresponding to each terminal, a switch connected to the first called terminal, and a switch connected to the second called terminal. In an asynchronous transmission mode public network, (Iii) receiving an ATM cell through a switch connected to the first called terminal; (Ii) checking the validity of the ATM cell by checking a virtual path identifier / virtual channel identifier of a header of the provided ATM cell; (Iii) discarding the provided ATM cell if the ATM cell is invalid in step (ii); (Iii) checking the existence of the virtual path identifier / virtual channel identifier of the ATM cell by searching a line loopback virtual path identifier / virtual channel identifier table if the ATM cell is valid in step (ii); (Iv) if the virtual path identifier / virtual channel identifier of the ATM cell provided in step (iii) exists in the line loopback virtual path identifier / virtual channel identifier table, the based on the retrieved line loopback table; Changing the virtual path identifier / virtual channel identifier; (Iii) outputting an ATM cell having the modified virtual path identifier / virtual channel identifier to a second called terminal via a switch connected to a first called terminal and a switch connected to a second called terminal; And And (i) reassembling the ATM cell if the line loopback table retrieved in step (iii) does not match the ATM cell provided in step (iii). Receiving terminal switching method using loopback function.