KR100251702B1 - Fault detecting method of specific device in atm network - Google Patents

Abstract

PURPOSE: A fault detecting method of a specific device in an ATM network is provided to check at which device an error has occurred by setting a specific device to a loopback mode and generating a specific asynchronous transfer mode cell when the error has occurred. CONSTITUTION: A loopback mode is set in a device of which a loopback is desired to be tested. In order to set a cell route basically, the device is suitably set, because, a required data can be transmitted and received after the device is suitably set. In case of 1 where a real test pattern is transmitted after the required device is basically set, the state of the device can be checked by viewing a pattern which has been loopbacked and received. In this case, since the normal cell has been received, it is noted that there is no fault in the operation of a corresponding user parameter control device. If there is no response (a response to the corresponding cell) even after a monitoring cell is transmitted by several times within a predetermined time, a specific device is considered to have a fault. Like the case 2, even though a test pattern is transmitted, if there is no cell received, it is considered that there is a fault in the operation of a corresponding routing table device. Thus, the normal operation of the device can be identified by degrees by simple manipulation.

Description

How to Diagnose Faults on Specific Devices in Asynchronous Transfer Mode Networks

The present invention relates to a method for diagnosing a failure of a specific device in an asynchronous transfer mode network, and more particularly, to a method for checking an error diagnosis of a device through a loopback test in an asynchronous transfer mode (ATM) network. will be. This is applicable to all asynchronous transmission mode communication systems using asynchronous transmission mode cells as transmission units.

In general, the call setup process must be performed to send the desired information between the source and destination through the network. Only after such call establishment can user data be transmitted. However, due to various internal factors, it may be impossible to transmit or receive cell transmissions. In this case, a method of identifying where a transmission failure occurs in detail should be taken. Referring to Figure 1 as an example. Cell Mux (CM), Asynchronous Transport Mode Adaptation Layer 1/5: AAL 1/5, Usage Parameter Control (UPC), Routing Table (RT) Is a device through which an asynchronous transmission mode cell is transmitted. Normal cell transfers (usually cell transfers can be thought of in two directions: forward data transfers are from source to destination, and reverse data transfers are from destination to source). Assume that has occurred. Because this is a problem inside the device, when looking from the outside, it is impossible to know where cell transmission was interrupted. Data transmission in the forward direction cannot be delivered normally, and only data in the reverse direction is correctly received. The subscriber on page B knows that an error has occurred, but cannot know specifically where the transmission was interrupted.

Therefore, the present invention was devised to compensate for the weaknesses of the fault diagnosis that can occur in the conventional system as described above. When an error occurs, a specific asynchronous transmission mode cell is generated after setting the loopback mode to a specific device. It is an object of the present invention to provide a method for checking in which device an error has occurred.

1 is an error checking process diagram of a device applied to the present invention.

2 is an error checking process diagram of a device according to the present invention.

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

One preferred embodiment of a method for diagnosing a failure of a specific device in an asynchronous transmission mode network according to the present invention, which is designed to achieve the above object, is to validate the cell path of a system composed of a plurality of asynchronous transmission mode devices. In order to,

Sending and receiving test patterns

Initializing the device.

In the present invention, the process of transmitting and receiving the test pattern preferably comprises a process of generating a constant asynchronous transmission mode pattern and the process of checking the received cell is looped back,

The initializing of the corresponding device may include setting the corresponding device in a loopback mode and initializing the corresponding device in order to send the test pattern normally.

Another preferred embodiment of a method for diagnosing a failure of a specific device in an asynchronous transmission mode network of the present invention for achieving the above object is to verify the validity of a cell path of a system composed of several asynchronous transmission boards,

Setting a loopback mode on a device to test loopback;

Basically setting the device appropriately to set the cell path; And

Sending and receiving a test pattern to verify the error of the device.

In the present invention, it is preferable to appropriately set the device in order to transmit and receive necessary data,

If the actual test pattern is sent after the basic setting of the required device, it is desirable to check the status of the device by looking at the received pattern looped back.

When the test pattern has received the normal cell, it is preferable to confirm that there is no abnormality in the operation of the corresponding user parameter control device.

If there is no response (response to the cell) even after transmitting several monitoring cells within a certain time, it is preferable to determine that a specific device is abnormal.

If the test pattern is transmitted but no cell is received, it is preferable to determine that there is an error in the operation of the corresponding routing table device.

The configuration of the present invention may be composed of a portion for transmitting and receiving a test pattern and a portion for initializing the device as shown in FIG.

The transmission and reception portion of the test pattern may be divided into a portion generating a constant asynchronous transmission mode pattern and a portion identifying a received cell by looping back.

The initializing part of the device may include a part for setting the device in the loopback mode and a part for initializing the asynchronous transmission mode cell of the test pattern so as to be normally transmitted and received.

Hereinafter, the operation principle of the present invention with reference to the accompanying drawings in detail as follows.

First, as shown in FIG. 2, the loopback mode is set in the device to test the loopback. Basically, you set up the device appropriately to set the cell path. Only when it is set can the required data be sent and received. Next, you can verify the error of the device by sending and receiving a test pattern.

As in case 1, if the actual test pattern is sent after basic setting of the required device, the status of the device can be checked by looking at the pattern that is received by looping back. In this case, since normal cell reception is performed, it can be confirmed that there is no abnormality in the operation of the corresponding user parameter control device. If there is no response (response to the cell) even after transmitting several monitoring cells within a certain time, it is possible to check that a specific device is abnormal. If the test pattern is transmitted as shown in 2 but no cell is received, it can be confirmed that there is an error in the operation of the corresponding routing table device.

You can check the normal operation of the device step by step with simple operation.

The present invention operating as described above is a method for detecting an error of a device that may occur in a conventional system, and can confirm the asynchronous transmission mode cell path before transmitting a cell of an actual subscriber and also detects an error of the corresponding device. It can work.

Claims (9)

To prove the validity of the cell path of a system composed of multiple asynchronous transmission mode devices, Sending and receiving test patterns A method for diagnosing a failure of a particular device in an asynchronous transmission mode network, including initializing the device. The method of claim 1, wherein the transmitting and receiving of the test pattern comprises generating a constant asynchronous transmission mode pattern and checking a received cell by looping back. The specific device of claim 1, wherein the initializing of the corresponding device comprises setting the corresponding device to a loopback mode and initializing the corresponding device to send the test pattern normally. How to diagnose faults. The method for validating the cell path of a system composed of several asynchronous transmission boards, Setting a loopback mode on a device to test loopback; Basically setting the device appropriately to set the cell path; And A method of diagnosing a failure of a specific device in an asynchronous transmission mode network, including transmitting and receiving a test pattern to verify an error of the corresponding device. 5. The method of claim 4, wherein the device is appropriately set up to send and receive the necessary data. The method of claim 4, wherein when the actual test pattern is sent after the basic setting of the required device, the device is looped back and the received pattern is checked to check the state of the device. 7. The method of claim 6, wherein when the test pattern has received a normal cell, it is confirmed that there is no abnormality in the operation of the corresponding user parameter control device. The fault diagnosis of a specific device in an asynchronous transmission mode network according to claim 6, wherein if there is no response (response to the cell) even after the transmission of several monitoring cells within a certain time period, the device determines that there is an error. Way. The method of claim 4, wherein when there is no cell received when the test pattern is transmitted, it is determined that an operation of the corresponding routing table device is abnormal.

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