KR20000013621A - Continuous check testing method of asynchronous transfer mode of frame relay call - Google Patents

Abstract

PURPOSE: A continuous check testing method of asynchronous transfer mode of frame relay call is provided to produce data for continuous check call test. CONSTITUTION: The continuous check testing method includes the steps of: producing a continuity check cell from a CPU; displaying a transmitter on a continuity check cell by an asynchronous transfer mode adaptation layer 1 chip; transferring the continuity check cell to a trunk module through a switching module; receiving the continuity check cell by the received trunk module; displaying the continuous check cell's normal or abnormal state by the trunk module; reporting it to a network manager system user.

Description

Test method for continuous check of asynchronous transmission mode for frame relay call

The present invention relates to the operation of a Frame Relay call service on an Asynchronous Transfer Mode (ATM). In particular, the present invention relates to a method for testing a continuous check of an asynchronous transmission mode by generating a cell for diagnosing a call between a packet switched terminal or communication equipment and searching for a failure site.

When performing a continuous check test in a conventional packet switched communication equipment, the user interface module 103, the CPU 107 provided in the user interface module, and the user interface module are transmitted to the trunk module. Frame relay switch 101 including an Asynchronous Adaptation Layer (AAL) 1 chip 105, and a switching module 109 that performs switching between the user interface module 103 and the trunk module 111. In addition, separate measurement equipment was connected separately to the communication equipment to generate data for the continuous check test call. And it is transmitted to the receiving side exchange 113 through the user interface module 103, the switching module 109 and the trunk module 111. When the continuous check test call is transmitted through the trunk line, it is received by the trunk module 115 and transmitted to the user interface module 119 through the switching module 117. Finally, the results were confirmed at the receiving exchange and reported to the operator.

Therefore, in the conventional method, the equipment for a separate continuous check test call only needs to search for a diagnosis and trouble spot of a call between communication devices.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a method for generating data for continuous check call test in an exchange and reporting the result thereof to an operator.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

1 is a configuration diagram for a continuous check test for a conventional frame relay call.

2 is a configuration diagram for the continuous check test of the asynchronous transmission mode for the frame relay call according to an embodiment of the present invention.

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

101: switch on the sending side 103: user interface module on the sending side

105: AAL 1 chip on send side 107: CPU on send side

109: switching module on the transmitting side 111: trunk module on the transmitting side

113: switch at receiving side 115: trunk module at receiving side

117: receiving side switching module 119: receiving user interface module

121: AAL 1 chip on the receiving side 123: CPU on the receiving side

125: frame relay module 225: asynchronous transmission mode module

In the present invention devised to achieve the above object, a preferred embodiment of the continuous check test method of the asynchronous transmission mode for the frame relay call is a user interface module, included in the user interface module to generate a continuous check cell Asynchronous transmission module adaptation layer 1 chip (CPU), which is included in the user interface module, receives the continuous check cell, indicates a transmitting side or a receiving side, and transmits the same to a trunk module; In the continuous check test device of the asynchronous transmission mode comprising a trunk module for indicating whether there is an abnormality or not, and a switching module for switching between the user interface module and the trunk module, the CPU checks the continuous check cell ( Continuity Check Cell), the ratio Indicating that the synchronous transmission mode adaptation layer 1 chip is a sender in the continuous check cell, the continuous check cell being transmitted to the trunk module via the switching module, and the trunk module of the receiving side is the continuous check cell And receiving, by the trunk module, indicating whether there is an abnormality of the continuous check cell, and reporting the abnormality to a network management system user.

In the present invention, it is preferable that the trunk module of the transmitting side and the trunk module of the receiving side are connected to an asynchronous transmission mode module, and the generated cell is transmitted to the generated cell in the step of generating a continuous check cell by the CPU. It is preferable to indicate that.

While the invention is susceptible to various modifications and alternative forms, only specific embodiments thereof are shown in the drawings and will be described in detail. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the specification, but rather that the invention is intended to cover all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to include.

Hereinafter, with reference to the accompanying Figure 2 describes a continuous check test method of the asynchronous transmission mode for the frame relay call of the present invention.

Referring to FIG. 2, it is assumed that a packet exchange user terminal or equipment forms a call through two exchanges (a transmitting side exchange and a receiving side exchange).

In one embodiment of the present invention, the transmitting and receiving side exchanges 201 and 213 are connected to a network management system (NMS) and are respectively controlled. The user interface module 203 connected to the user equipment is equipped with an asynchronous transmission mode adaptation layer 1 chip (AAL 1 Chip) 205. A cell of a continuity check cell is generated by a CPU provided in the user interface module. The asynchronous transmission mode adaptation 1 chip 205 inserts the continuity check test call cell received from the CPU 207 into the user data flow and transmits it to the switch module 209 to indicate that it is a cell on the transmission side.

The continuity check test call cell is transmitted along the transmission path along with the user's information data. System operators can specify continuity check points through the network management system. This can be either the trunk module 211 or the user interface module 203.

The asynchronous transmission mode adaptation layer 1 chip 205 then transmits this cell via the trunk line to the trunk module 215 of the receiving exchange by means of connection information. The trunk module 215 of the receiving side exchange 213 which receives this continuity check test cell will indicate whether or not the cell is properly received at a given time.

This abnormality is reported to the network management system, and the system administrator who has received the report detects whether the cell flow is normally performed within the set interval.

When releasing the continuity check test call, the sending CPU 207 notifies the asynchronous transfer mode adaptation layer 1 chip 205 that the continuity check test has been released, and further checks the continuity with the asynchronous transfer mode adaptation layer 1 chip 205. Do not transmit test cells.

The user interface module 203 on the receiving side is changed to a cell for asynchronous transmission mode and goes through a backbone network composed of an asynchronous transmission mode switch. In the receiving side exchange 213, data is transmitted to the receiving side user interface module 219 to which the frame relay equipment is connected. The data in the asynchronous transmission mode cell in the receiving user interface module 219 is converted into a frame relay format and entered into the terminal and the user equipment. The receiving side exchange 213 is interworked with the network management system that manages the network, thereby transmitting continuity check test commands to each exchange 201 and 213 and reporting the results.

Frame relay data is asynchronously transmitted to the asynchronous transmission mode switch when it is cellized. The continuity check test in this section has the same characteristics as the asynchronous transmission mode continuity check test.

The exchange 213 that receives the continuity check cell determines whether it is a point for continuity check or not, and receives this cell or flows it to the next exchange as it is. At this time, the cell in which the user holds the data is left as it is and is transmitted to the final destination.

The user interface module 203 which generated the continuity check test call cell continuously transmits the continuity check test call data sent by itself without checking the continuity check test call data. On the other hand, at the point set by the exchange side 213 of the continuity check call cell, it is checked whether the continuity check cell has entered or whether the user's information data has been entered for a predetermined time and reports the result to the network management system when an error occurs.

The present invention operating as described above has the effect of enabling the execution of the continuity check and the confirmation of the result by generating the continuity check data by the exchange itself without a separate measuring instrument in serving the frame relay call.

Claims (3)

A user interface module; A CPU included in the user interface module to generate a continuous check cell; An asynchronous transmission module adaptation layer 1 chip included in the user interface module and configured to receive the continuous check cell, indicate a transmitting side or a receiving side, and transmit the same to a trunk module; A trunk module indicating whether a cell is properly received within a given time; And In the continuous check test device of the asynchronous transmission mode comprising a switching module for performing switching between the user interface module and the trunk module, Generating, by the CPU, the continuity check cell; Indicating that the asynchronous transmission mode adaptation layer 1 chip is a sender in the continuous check cell; Transmitting the continuous check cell to the trunk module via the switching module; Receiving, by the receiving trunk module, the continuous check cell; Displaying, by the trunk module, whether there is an abnormality of the continuous check cell; And And reporting the presence or absence of the abnormality to a network management system user. The method of claim 1, wherein the trunk module at the transmitting side and the trunk module at the receiving side are connected to an asynchronous transmission mode module. 2. The method of claim 1, wherein in the step of generating the continuous check cell by the CPU, the generated continuous check cell indicates that it is the transmitting side at the time of transmission.