KR100236943B1 - A proxy atm signaling system and method using the permanent virtual circuits - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a surrogate broadband signal protocol processing system and method using a permanent virtual circuit.

2. The technical problem to be solved by the invention

An object of the present invention is to provide a broadband signal protocol processing system and method in which an ATM processor merely relays a signal and an ATM signal processing server processes the signal instead.

3. Summary of Solution to Invention

The present invention includes a plurality of signal relay means for performing a function of simply relaying all signal related cells input from an ATM terminal; Signal processing means for instead processing ATM cell signals transmitted from the plurality of signal relay means; First connection means each provided between a plurality of signal relay means and signal processing means and capable of bidirectional communication; And second connection means for the signal processing means to transmit the control command according to the processing result to the plurality of signal relay means, respectively, and the plurality of signal relay means to respectively transmit the response according to the control command to the signal processing means.

4. Important uses of the invention

The present invention is used in a wideband signal protocol processing system and method.

Description

System and method for processing surrogate broadband signal protocol using permanent virtual circuit

According to the present invention, an Asynchronous Transfer Mode (ATM) processor is a user of the Recommendation Q.2931 / Q.2971 Signaling Protocol and Asynchronous Transfer Mode Forum of the International Telecommunications Union-Telecommunications sector (ITU-T). Instead of processing the network interface (UN) signaling protocol, a surrogate broadband signal protocol processing in which a permanent virtual circuit (PVC) is connected so that a separate asynchronous transmission mode signal processing server can process the signaling protocol. System and method.

In order for the asynchronous transfer mode processor to communicate with another asynchronous transfer mode processor, a virtual channel for transmitting and receiving data cells must be secured in advance using a signal protocol.

In the prior art asynchronous transfer mode processing unit processing an asynchronous transfer mode signal protocol, the application program uses the processor power as much as the processor power required for the asynchronous transfer mode signal processing module of the asynchronous transfer mode processing unit to process the signal protocol. Because of this, there is a problem in that the efficiency of the asynchronous transfer mode processing apparatus is reduced and the size of the entire program is increased.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, the asynchronous transfer mode processing device and the asynchronous transfer mode signal processing server is connected through a permanent virtual circuit, the asynchronous transfer mode processing device is simply It is an object of the present invention to provide a surrogate broadband signal protocol processing system and method for relaying a signal protocol and processing a signal protocol by an asynchronous transmission mode signal processing server.

1 is a block diagram of a surrogate broadband signal protocol processing system to which the present invention is applied.

2 is a block diagram of an embodiment of a surrogate broadband signal protocol processing system according to the present invention;

3 is a diagram illustrating an embodiment of a module of an asynchronous transmission mode processing apparatus of FIG. 2 and an asynchronous transmission mode signal processing server;

4 is a flowchart of an embodiment of a method for processing a surrogate broadband signal protocol in accordance with the present invention.

* Explanation of symbols for main parts of the drawings

101: asynchronous transmission mode processing unit 102: asynchronous transmission mode terminal

103: asynchronous transmission mode network 104: asynchronous transmission mode signal processing server

105, 106: permanent virtual circuit

A system of the present invention for achieving the above object, in the wideband signal protocol processing system, a plurality of signal relay means for performing a role of simply relaying without directly processing all the signal-related cells input from the asynchronous transmission mode terminal ; Signal processing means for processing the asynchronous transmission mode cell signals transmitted from the plurality of signal relay means instead, and then transmitting the response signal to the corresponding signal relay means; First connection means provided between the plurality of signal relay means and the signal processing means and capable of bidirectional communication; And the signal processing means each transmits a control command according to a processing result to the plurality of signal relay means, and the plurality of signal relay means each transmits a response according to the control command to the signal processing means. A second connecting means for connecting between the signal relay means and the signal processing means.

In addition, the method of the present invention for achieving the above object is, in the wideband signal protocol processing method, the asynchronous transmission mode processing apparatus is a first to select a permanent virtual circuit for asynchronous transmission mode signal processing and a permanent virtual circuit for control command processing; step; And a second step of processing the asynchronous transfer mode cell according to the use of the corresponding cell by the asynchronous transfer mode processing apparatus determining the use of the asynchronous transfer mode cell when the asynchronous transfer mode cell is input after the first step. Include.

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

1 is a block diagram of a surrogate broadband signal protocol processing system to which the present invention is applied.

The surrogate broadband signal protocol processing system receives the signal cells received from the asynchronous transmission mode terminal 102 and the asynchronous transmission mode terminal 102, which transmits the asynchronous transmission mode data signal cell through the asynchronous transmission mode network 103. The asynchronous transmission mode network 103 processes the signals received from the asynchronous transmission mode processing apparatus 101 and the asynchronous transmission mode processing apparatus 101 for relaying signals to the asynchronous transmission mode server 104 through the mode network 103. Asynchronous transmission mode signal processing server 104 for transmitting a signal processed through the.

The asynchronous transfer mode terminal 102 is connected to the asynchronous transfer mode processing unit 101 through the asynchronous transfer mode network 103, and the asynchronous transfer mode processing unit 101 transmits asynchronously through the asynchronous transfer mode network 103. The mode signal processing server 104 is connected.

In addition, the asynchronous transmission mode processing apparatus 101 is an asynchronous transmission mode equipment for relaying an asynchronous transmission mode signal cell without processing the asynchronous transmission mode signal, and the asynchronous transmission mode terminal 102 processes the asynchronous transmission mode signal in itself. An apparatus is provided to process an asynchronous transmission mode signal received from the asynchronous transmission mode processing apparatus 101 via the asynchronous transmission mode network 103.

Looking at the operation of the component, the asynchronous transmission mode terminal 102 transmits the signal cell to the asynchronous transmission mode processing unit 101 through the asynchronous transmission mode network 103, the asynchronous transmission mode processing unit 101 is a signal cell To the asynchronous transmission mode server 104 via the asynchronous transmission mode network 103, the asynchronous transmission mode server 104 processes the received signal through the asynchronous transmission mode network 103 asynchronous transmission mode processing apparatus ( 101).

In addition, the asynchronous processing apparatus 101 relays the processed signal to the asynchronous transmission mode terminal 102 through the asynchronous transmission mode network 103, and the asynchronous transmission mode terminal 102 is asynchronous through the asynchronous transmission mode network 103. The signal transmitted from the transfer mode processing apparatus 101 is processed.

2 is a block diagram of a surrogate broadband signal protocol processing system according to the present invention.

In particular, the surrogate broadband signal protocol processing system of FIG. 2 performs the same operation as that of FIG. 1, and the asynchronous transmission mode processing apparatus 101 is configured to convert a signal-related asynchronous transmission mode signal cell into a permanent virtual circuit of the asynchronous transmission mode network 103 ( It simply transmits to the asynchronous transmission mode server 104 via 105, and the asynchronous transmission mode signal processing server 104 processes the signal-related asynchronous transmission mode signal cell received from the asynchronous transmission mode processing apparatus 101. To transmit the processed signal through the permanent virtual circuit 105 of the asynchronous transmission mode network 103.

In addition, the permanent virtual circuit 105 is used to relay the asynchronous transmission mode signal-related cells by connecting the asynchronous transmission mode processing device 101 and the asynchronous transmission mode signal processing server 104 through the asynchronous transmission mode network 103, The permanent virtual circuit 106 connects the asynchronous transfer mode processing device 101 and the asynchronous transfer mode signal processing server 104 through the asynchronous transfer mode network 103 to control commands of the asynchronous transfer mode signal processing server 104. It is used to transmit to the asynchronous transfer mode processing unit 101.

The control command as described above may be defined differently according to the characteristics of the asynchronous transmission mode processing apparatus 101, but the control command is basically a virtual path identifier (VPI) and a virtual circuit identifier (Virtual) for a call that is basically set. Circuit Identity (VCI) is used to transmit information to the asynchronous transmission mode processing unit 101. This control command has a simpler configuration than the primitives defined for asynchronous transfer mode signal processing, and consists of control commands suitable for each application program.

The asynchronous transmission mode processing apparatus 101 is connected to the asynchronous transmission mode signal processing server 104 by using permanent virtual circuits (PVC) 105 and 106 capable of bidirectional communication instead of processing a signal protocol. The asynchronous transmission mode processing apparatus 101 transmits to the asynchronous transmission mode signal processing server 104 through the permanent virtual circuit 105 without processing all signal related cells input from the asynchronous transmission mode terminal 102.

In addition, the asynchronous transfer mode signal processing server 104 transmits a response signal to the signal received from the asynchronous transfer mode processing unit 101 through the same permanent virtual circuit 105, and the asynchronous transfer mode processing unit 101 is asynchronous. It is possible to reduce the time required for the processing of the signal protocol by simply relaying the cell related to the transmission mode signal.

Here, one asynchronous transmission mode signal processing server 104 may replace asynchronous transmission mode signal processing of a plurality of asynchronous transmission mode processing apparatuses 101.

3 is a block diagram illustrating an embodiment of the asynchronous transmission mode processing apparatus and asynchronous transmission mode signal processing server of FIG. 1.

The asynchronous transmission mode processing apparatus 101 is composed of an asynchronous transmission mode signal relay module 110 and the application program 111, the asynchronous transmission mode signal processing server 104 is a control command processing module 112, asynchronous transmission mode signal A processing module 113, an asynchronous transmission mode signal processing server management module 114, a permanent virtual circuit table 115 for processing control commands, and a permanent virtual circuit table 116 for asynchronous transmission mode signal processing.

The asynchronous transmission mode signal processing server management module 114 is a permanent virtual circuit table 116 for asynchronous transmission mode signal processing and a permanent virtual circuit for processing an asynchronous transmission mode control command connected to each asynchronous transmission mode processing device 101. Manage the table 115.

The permanent virtual circuit table 116 for asynchronous transmission mode signal processing and the permanent virtual circuit table 115 for asynchronous transmission mode control command processing are connected to the asynchronous transmission mode signal processing server management module 114 and With the same number as the number, the asynchronous transmission mode signal processing module 113 and the control command processing module 112 are generated and controlled.

The asynchronous transmission mode signal processing module 113 includes the International Telecommunication Union (ITU-T) Recommendation Q.2931, the International Telecommunication Union (ITU-T) Recommendation Q.2971, and the Service Specific Connection Oriented Protocol (SSCOP). The protocol stack shown in Table 1 is used.

4 is a flowchart illustrating an alternative wideband signal protocol processing method according to the present invention.

The asynchronous transmission mode processing apparatus selects a permanent virtual circuit for asynchronous transmission mode signal processing (121), selects a permanent virtual circuit for control command processing (122), and waits for asynchronous transmission mode cell input (123).

When the asynchronous transmission mode processor receives the asynchronous transmission mode cell, the asynchronous transmission mode cell determines whether the received asynchronous transmission mode cell is a signal cell received from the asynchronous transmission mode terminal (124). The cell is relayed to the server (125).

The asynchronous transmission mode processing apparatus determines whether the received asynchronous transmission mode cell is a signal relay cell received from the asynchronous transmission mode terminal (124), and if it is not a signal cell, the asynchronous transmission mode processing apparatus determines that the asynchronous transmission mode cell is an asynchronous transmission mode signal. If it is determined that the signal relay cell is received from the processing server (126), the asynchronous transmission mode processing apparatus relays the cell to the asynchronous transmission mode terminal if the signal relay cell (127).

The asynchronous transmission mode processing apparatus determines whether the received asynchronous transmission mode cell is a signal relay cell received from the asynchronous transmission mode signal processing server (126), and determines that the asynchronous transmission mode processing cell is not a signal relay cell. It is determined whether the cell is a control command cell received from the asynchronous transmission mode signal processing server (128). If the cell is a control command cell, the asynchronous transmission mode processing apparatus processes the control command (129).

The asynchronous transmission mode processing apparatus determines whether the input asynchronous transmission mode cell is the control command cell received from the asynchronous transmission mode signal processing server (128) and determines that the asynchronous transmission mode cell is not the control command cell. If it is determined that the data cell is received from (130), the data cell is processed by the application program of the asynchronous transfer mode processing unit (131).

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

Therefore, as described above, the present invention eliminates the module that processes the signal protocol in the asynchronous transfer mode processing unit, thereby enabling the asynchronous transfer mode processing unit to allocate all of the processor's capabilities to the processing of the application program, and the asynchronous transfer mode processing. It can contribute to the miniaturization of device size, and can effectively manage a plurality of asynchronous transmission mode devices through the signal protocol processing unit of the unified asynchronous transmission mode server.

Claims (5)

In a broadband signal protocol processing system, A plurality of signal relay means for performing a function of simply relaying all signal related cells inputted from the asynchronous transmission mode terminal without direct processing; Signal processing means for processing the asynchronous transmission mode cell signals transmitted from the plurality of signal relay means instead, and then transmitting the response signal to the corresponding signal relay means; First connection means provided between the plurality of signal relay means and the signal processing means and capable of bidirectional communication; And The signal processing means respectively transmits a control command according to a processing result to the plurality of signal relay means, and the plurality of signal relay means respectively transmits a response according to the control command to the signal processing means. Second connecting means for connecting between the relay means and the signal processing means Broadband signal protocol processing system comprising a. The method of claim 1, And said first and second connecting means are permanent virtual circuits. The method of claim 2, And said signal relay means is an asynchronous transmission mode processing apparatus. In the broadband signal protocol processing method, A first step of the asynchronous transmission mode processing apparatus selecting a permanent virtual circuit for asynchronous transmission mode signal processing and a permanent virtual circuit for control command processing; And After the first step, when an asynchronous transmission mode cell is input, a second step of processing the asynchronous transmission mode cell according to the use of the corresponding cell by determining the purpose of the asynchronous transmission mode processing device Broadband signal protocol processing method comprising a. The method of claim 4, wherein The second step, A third step of relaying a cell to an asynchronous transmission mode signal processing server when the asynchronous transmission mode cell is a signal cell received from an asynchronous transmission mode terminal; A fourth step of relaying to the asynchronous transmission mode terminal when the asynchronous transmission mode cell is a signal relay cell received from the asynchronous transmission mode signal processing server; A fifth step of processing a control command in the asynchronous transmission mode processing apparatus when the asynchronous transmission mode cell is a control command cell received from the asynchronous transmission mode signal processing server; And A sixth step of processing the data cell in the asynchronous transfer mode processing apparatus when the asynchronous transfer mode cell is a data cell received from the asynchronous transfer mode terminal; Broadband signal protocol processing method comprising a.

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