KR100840084B1 - The management method of fault and alarm in access network composed xDSL - Google Patents

Abstract

The present invention detects and generates a failure between an xDSL modem (ATU-R) and a DSLAM constituting a Refersto all Digital Subscriber Line (xDSL) -based service (xDSL) capable of transmitting voice and high-speed data using a general telephone line. The present invention relates to a method of managing a failure and an alarm of an xDSL access interval for recovering a fault.

The present invention generates a loopback cell for a loopback test in the DSLAM, transmits the loopback cell to the ATU-R, and compares the received loopback cell with the transmitted loopback cell according to the ATU-C of the DSLAM according to the match. It is configured to determine whether or not a failure in the access interval between the ATU-R, and if the failure of the access interval is detected, the ATU-C and ATU-R is initialized to perform a failure recovery.

The present invention can effectively manage the xDSL service by effectively detecting the point of failure when xDSL failure, thereby improving the quality of service for the xDLS.

Description

{The management method of fault and alarm in access network composed xDSL}

1 is a system structure diagram for explaining a general network structure.

2 is a main block diagram of an apparatus to which a failure and alarm management method of an xDSL access interval according to an embodiment of the present invention is applied.

3 to 4 are flowcharts illustrating a failure and alarm management method of an xDSL access interval according to an embodiment of the present invention.

The present invention relates to a method of managing an error and an alarm of an xDSL access interval, and more particularly, a failure of a reference DSDS-based service (xDSL) capable of transmitting voice and high-speed data using a general telephone line. And a method of handling the alarm.

As is well known, DSL (Digital Subscriber Line) is a technology for high-speed information transfer to homes and small businesses over ordinary copper telephone lines. XDSL collectively refers to various variants of DSL such as ADSL, HDSL, RADSL, and so on.                         

In particular, ADSL (Asymmetric Digital Subscriber Line), which is popular among xDSLs, is a technology for transmitting digital information with high bandwidth through telephone lines installed in homes and businesses. This ADSL is used to transmit most of the channel down to the user side, and it is an asymmetric structure that allocates very little to the information received from the user. It can accept not only digital information but also analog (voice) information on the same line. In general, it provides downlink data rates of around 6 Mbps at 512 Kbps.

In order to use the ADSL, a landline telephone subscriber must have an ADSL modem (ATU-R) 100 in a computer equipped with a web browser, and the ADSL modem can simultaneously process a voice signal and a data signal. Meanwhile, the ADSL modem is connected to the DSLAM through the ATU-C 120, which is a physical port of the Digital Subscriber Line Access Multiplexer (DSLAM) 110, as shown in FIG. It is also connected to the Internet, which is a network device that is typically installed in telephone offices. It receives signals from digital subscriber line connections from multiple customers and uses multiplexing technology to send signals to high-speed backbone lines.

In the figure, reference numeral 130 denotes a device that connects separate networks using the same transport protocol to perform a routing function by connecting network layers to each other, and 140 denotes a NAS (network attached) which is a file server specialized to be connected to a network. 150 is a dedicated-switch switching ATM switch that divides the digital data output from the DSLAM 110 into 53 bytes of cells or packets and transmits them through a medium using digital signal technology.

In the ATM network or the IP network configured as described above, when a link is established between the DSLAM 110 and the NAS 140, the user who installs the ATU-R 100 through the link can use the Internet.

On the other hand, the failure rate of xDSL is statistically high between the computer and modem corresponding to the terminal and between the modem and DSLAM.

In fact, there are frequent cases in which the line connecting DSLAM and ATU-R fails, the ATU-R fails, or the computer environment occurs. Since it was not possible to accurately identify, if a failure occurs because of the above-described subscribers who do not use the xDSL service reports a failure, the repair staff had to visit the subscribers directly to find out the obstacles.

Accordingly, the present invention has been made in view of the above-mentioned point, and an xDSL modem (ATU) constituting a Referral all DSL-based service (xDSL) capable of transmitting voice and high-speed data using a general telephone line is provided. -R) and to detect the failure between the DSLAM.

In addition, the present invention provides a method for recovering from a failure caused between ATU-R and DSLAM, which constitutes a Referral all DSL-based service (xDSL) capable of transmitting voice and high-speed data using a general telephone line. Another purpose.

In order to achieve the above object, a failure and alarm management method of an xDSL access period according to an embodiment of the present invention,

An xDSL modem, ATU-R, is connected to a physical port (ATU-C) of a DSLAM (Digital Subscriber Line Access Multiplexer) that performs aggregation function for an xDSL subscriber. The xDSL element management system (DSLAMEMS) has a hierarchical structure with the DSLAM. In the xDSL access interval failure and alarm management method applied to a communication network having a network management system having a hierarchical structure with the DSLAMEMS,

a first step of the network management system confirming whether the xDSL subscriber is a registered subscriber when a failure report is received from an xDSL subscriber;

If the xDSL subscriber is a registered subscriber, a failure detection test is performed for the access interval between the port ATU-C of the DSRAM to which the xDSL subscriber is connected via the DSLAM and ATU-R, which is an xDSL modem installed at the xDSL subscriber. A second process performed;

A third step of diagnosing a failure of a subscriber station if the result of the failure detection test is successful, and re-running the failure detection test for the access period after initializing the access period if the failure detection test has failed;

If the failure detection test re-run result is a failure, characterized in that the fourth step of diagnosing the failure in the access period.

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

FIG. 2 is a block diagram of a main system for realizing a failure and alarm management method of an xDSL access period according to an embodiment of the present invention. In the drawing, reference numeral 240 denotes a network management system 230 when a failure report is received from a subscriber. As a service management unit for commanding a test for a specific xDSL subscriber, 230 is a test command for a specific xDSL subscriber from the service management unit 240, DSLAMEMS (220) operating the DSLAM (110) to which the corresponding xDSL subscriber is connected. It is a network management system that transmits a test command to the corresponding xDSL subscriber, 220 receives a failure report from the DSLAM (110a) in a state that accommodates a plurality of DSLAM (110a), it is to the upper layer network management system 230 And a test between the ATU-R 100, which is an xDSL modem installed in the subscriber, on the failed xDSL line under the control of the network management system 230, may be performed. DSLAMEMS (xDSL Element Management System)

In particular, the DSLAM shown as 110a in FIG. 2 generates a loop back cell for testing when a test command for a specific xDSL line is transmitted from the DSLAMEMS 220 to the subscriber side ATU-R 100. After the transfer, the loop back cell is checked to receive the received DSLAMEMS 220.

In the present invention, the loop back cell is a loopback OAM cell recommended by T.610 of ITU-T, which is an international standardization organization, and if it does not receive a loopback cell transmitted after a certain time, it is between the ATU-R 100 and the DSLAM 110a. Judge as a disability or Alternatively, after transmitting a certain loopback OAM cell, the quality of a circuit is determined according to the number of received OAM cells among the transmitted OAM cells.

Hereinafter, the operation of an apparatus for managing an error and an alarm of an xDSL access period configured as described above will be described with reference to the flowchart shown in FIG.

First, when an xDSL subscriber reports a failure to the service manager 240 via a wired telephone / mobile phone / web (S10), the operator of the service manager 240 uses the subscriber registration information stored in advance. Check whether the subscriber is registered in the xDSL service (S12), and if the subscriber is not the subscriber registered in the xDSL service (No in S12), the operator of the service manager 240 notifies the subscriber of the state of no repair. (S14).

However, unlike this, if the subscriber confirms that the subscriber is registered in the xDSL service in S12 (YES in S12), the operator of the service manager 240 is a lower layer network management system 230 for the subscriber. Information (ADSL service type information, area information, line number information, etc. currently being subscribed) is transmitted to the network management system 230 so that the test of the subscriber line of the xDSL subscriber is performed.

Looking at the test process for the subscriber line in detail, the network management system 230 checks which DSLAM the subscriber is currently connected to, and which DSLAMEMS accepts the DSLAM using the subscriber information. The subscriber information is transmitted to the DSLAMEMS 200 to instruct a test of the xDSL line for the corresponding subscriber. Accordingly, the DSLAMEMS 200 transmits the subscriber information to the DSLAM 110a to which the subscriber is connected to instruct the test of the xDSL line for the subscriber. The DSLAM 110a is connected to the ATC-R 100 through the ATU-C 120, which is a physical port, and generates a cell for a loopback test (hereinafter referred to as a 'loopback cell') to generate an ATU-C 120 And transmits to the ATU-R (100), and checks whether the test is successful by checking whether the loopback cell returned through the ATU-R is the same as the first loopback cell transmitted.

If the test succeeds (Yes in S18), the test success signal output from the DSLAM 110a is transmitted to the DSLAMEMS 220, the network management system 230, and the service manager 240, and thus the network management system 230. The operator and the operator of the service management unit 240 determines that the current access interval between the ATR-C and the ATU-R is normal, and the failure of the subscriber terminal (eg, an abnormality has occurred in the subscriber's computer or the computer environment is set incorrectly). Case, etc.) (S24).

On the other hand, if it is determined that the transmitted loopback cell is not the same as the received loopback cell (No at S18) as a result of the test performed in S16, the DSLAMEMS 220 is connected to the ATU-C 120 port and the ATU-R ( Initialization is performed for the access line 100 (S20).

Next, the DSLAMEMS 220 sends a loopback cell in the DSLAM 110a by issuing a test command again to the DSLAM 110a to which the xDSL subscriber is connected (S22). As a result of the determination, if the test result is successful (Yes in S22), the process proceeds to step S22 and a diagnosis of the failure of the subscriber station is performed. The DSLAMEMS 220, the network management system 230, and the service manager 240 are transmitted to the DSLAMEMS 220. Thus, the operator of the network management system 230 and the operator of the service manager 240 currently access an interval between the ATR-C and the ATU-R. It is determined that a failure has occurred, and take measures to recover the failure (S26).                     

The loopback test performed in the above steps S18 and S22 can be performed many times, not just once.

Next, a failure and alarm management method of an xDSL access interval according to another embodiment of the present invention will be described with reference to the flowchart shown in FIG. 4, which is a case where an xDSL subscriber secures two ATU-Rs. .

When two ATU-Rs are secured, the ATU-Cs of the DSLAMs connected to the ATU-Rs are also separately allocated, and two links are formed between the subscriber side and the DSLAMs. Information about two ATU-Cs assigned to the subscriber is stored.

When a failure is detected in the DSLAM 110a and reported to the DSLAMEMS 220, the DSLAMEMS 220 transmits the information of the ATU-C 120 of the DSLAM 100a in which the failure occurs to the network management system 230 (S30). The network management system 230 determines whether the subscriber is a two-line registrant based on the information of the ATU-C 120 (S32). If it is determined that the subscriber is the second line registrant (YES in S32), the connection line is changed to ATU-C 120a other than the ATU-C 120 which has failed among two ATU-C secured for the xDSL subscriber. That is, when the network management system 230 commands the DSLAMEMS 220 to connect to the ATU-C (120a), the DSLAMEMS 220 controls the ATU-C (120a) connected DSLAM (110a) Set the connection with C120a to the active state. As a result, the xDSL subscriber is switched from the failed access interval of the ATU-C (120,120a) secured in advance to the access interval without failure (S38).                     

Then, the network management system 230 initializes between the ATU-C 120 and the ATU-R 100 corresponding to the failed access section through the DSLAMEMS 110 (S40), and when the initialization procedure is completed As in step S36, the loopback test is performed for the access interval between the ATU-C 120 and the ATU-R 100 using the loopback cell in the DSLAM 110a (S42).

Subsequently, the DSLAM 110a transmits the test result to the network management system 230 through the upper layer DSLAM 220 (S44), whereby the network management system 230 assigns an ATU allocated to each xDSL subscriber. It is possible to manage xDSL subscribers by obtaining fault information between ATU-R installed at -C and xDSL subscribers.

On the other hand, if it is determined in the S32 that the network management system 230 determines that the subscriber is not a two-line registrant (No in S32), the process proceeds to step S20 described in FIG. 3 and the ATU-C port and the ATU- port of DSLAM. Initialize the access section between R.

According to the present invention as described above, it is possible to effectively perform a failure processing to the subscriber provided with the xDSL service that is in the spotlight as the access network, thereby improving the xDSL service quality.

In addition, it is possible to clarify the distinction between a failure occurring at the subscriber terminal side and a failure occurring in the access section when a failure repair request is requested from the xDSL subscriber, thereby enabling efficient troubleshooting.

On the other hand, the present invention is not limited to the above-described embodiment, but can be modified and modified within the scope not departing from the gist of the present invention, such modifications and changes should be regarded as belonging to the following claims. will be.

Claims (8)

An xDSL modem, ATU-R, is connected to a physical port (ATU-C) of a DSLAM (Digital Subscriber Line Access Multiplexer) that performs aggregation function for an xDSL subscriber. The xDSL element management system (DSLAMEMS) has a hierarchical structure with the DSLAM. In the xDSL access interval failure and alarm management method applied to a communication network having a network management system having a hierarchical structure with the DSLAMEMS, a first step of the network management system confirming whether the xDSL subscriber is a registered subscriber when a failure report is received from an xDSL subscriber; If the xDSL subscriber is a registered subscriber, a failure detection test is performed for the access interval between the port ATU-C of the DSRAM to which the xDSL subscriber is connected via the DSLAM and ATU-R, which is an xDSL modem installed at the xDSL subscriber. A second process performed; A third step of diagnosing a failure of a subscriber station if the result of the failure detection test is successful, and re-running the failure detection test for the access period after initializing the access period if the failure detection test has failed; And a fourth process of diagnosing the failure as the failure in the access period when the failure detection test re-execution result is unsuccessful. The method of claim 1, The failure detection test generates a loopback cell in the DSLAM, transmits the loopback cell to the ATU-R, and detects a failure state based on whether the received loopback cell matches. And alarm management methods. The method of claim 1, In the second process, The failure detection test is performed one or more times, xDSL access interval failure and alarm management method. The method of claim 1, In the third process, And re-executing the fault detection test at least once. An xDSL modem, ATU-R, is connected to a physical port (ATU-C) of a DSLAM (Digital Subscriber Line Access Multiplexer) that performs aggregation function for an xDSL subscriber. The xDSL element management system (DSLAMEMS) has a hierarchical structure with the DSLAM. In the xDSL access interval failure and alarm management method applied to a communication network having a network management system having a hierarchical structure with the DSLAMEMS, When a failure of an access interval between the ATU-C and the ATU-R is reported from the DSLAM from the DSLAM to which a specific xDSL subscriber is connected, the network management system initializes the access interval through the DSLAMEMS and then Performing a failure detection test; If the failure detection test execution result is successful, it is diagnosed as a failure of the subscriber terminal side, and if the failure detection test execution result is failure, an error in the xDSL access period, characterized in that the process consisting of the step of diagnosing the failure. How to manage. An xDSL modem, ATU-R, is connected to a physical port (ATU-C) of a DSLAM (Digital Subscriber Line Access Multiplexer) that performs aggregation function for an xDSL subscriber. The xDSL element management system (DSLAMEMS) has a hierarchical structure with the DSLAM. In the xDSL access interval failure and alarm management method applied to a communication network having a network management system having a hierarchical structure with the DSLAMEMS, A first step of confirming whether the xDSL subscriber is a subscriber assigned with a plurality of ATU-Cs when a failure of an access interval between the ATU-C and ATU-R is reported from the DSLAM to which the xDSL subscriber is connected; If there is only one ATU-C assigned to the xDSL subscriber, an error detection is performed for an access interval between the ATU-C and the ATU-R connected to the ATU-C via the xDSL modem, and the ATU-C assigned to the xDSL subscriber. Is 2, xDSL is characterized in that a second process of activating a second ATU-C which does not cause a failure occurs and sets a second ATU-R connected to the second ATU-C as an access interval for an xDSL service. How to manage faults and alarms in access intervals. The method of claim 6, In the second process, If there is only one ATU-C allocated to the xDSL subscriber, fault detection for an access interval between the ATU-C and the ATU-R connected to the ATU-C through the xDSL modem is performed. A first step of the network management system initializing the access section through the DSLAMEMS and performing a failure detection test for the access section; If the failure detection test execution result is successful, it is diagnosed as a failure of the subscriber terminal side, and if the failure detection test execution result is failed through the second step of diagnosing the failure in the access interval of the xDSL access interval of the How to manage faults and alarms. The method of claim 6, The second process is And initializing the access interval between the ATU-C and the ATU-R in which a failure occurs, performing the failure detection test, and reporting the failure detection test result to a higher layer network management system. How to manage faults and alarms in access intervals.

Images