KR100658298B1 - A method for searching the connection of a fault circuit in telecommunication network - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a method for extracting a fault line detail connection of a communication network and a computer readable recording medium storing a program for realizing the method.

2. The technical problem to be solved by the invention

The present invention provides a method and method for extracting a faulty link detail connection for extracting a detail connection detail of a circuit necessary to identify and cope with the damage situation flow of a fault alarm occurring in a circuit more quickly using a transmission facility, a circuit, and a fault database. To provide a computer-readable recording medium that records a program for realizing this.

3. Summary of Solution to Invention

The present invention relates to a method for extracting a detailed connection history of a broken line in a communication network. When the network is detected and a failure is detected in a specific line, the present invention searches a line database and assigns the signal to each signal level and facility layer. Analyzing the line name to determine whether the fault line is a wide-band station, a DS3-class line, or a DS1-class line; As a result of the grasping, if the fault line is an optical end station, information on the optical cable connection constituting the optical end station is obtained. If the fault line is a DS3 class line, the connection history information of the optical end station path constituting the DS3 class line is obtained. Obtaining connection history information of a DS3-class path constituting a DS1-class line if the line is a DS1-class line; Searching for a transmission facility database to obtain detailed information of a corresponding transmission apparatus included in the failure line connection history information while obtaining the connection history information of the failure line; And retrieving a failure database from a failure database to obtain a current failure state, a maximum failure state, a failure point, an occurrence time, a failure period, and a frequency of failures when a failure alarm is received from the transmission device while obtaining detailed information of the transmission device.

4. Important uses of the invention

The present invention is used for troubleshooting of a communication network.

Fault line, detailed connection details, transmitter information, fault information

Description

A method for searching the connection of a fault circuit in telecommunication network             

1 is an exemplary configuration diagram of a system for extracting a failure line detail connection of a communication network to which the present invention is applied.

2 is a flow chart of an embodiment of a method for extracting a failure line detail connection of a communication network according to the present invention;

Figure 3 is a detailed flow diagram of an embodiment of the process of extracting the connection history of the DS3 class fault line of the fault line detail connection history extraction method of the communication network according to the present invention.

Figures 4a to 4c is an embodiment detailed flow chart for the process of extracting the connection history of the DS1 fault line of the fault line detail connection history extraction method of the communication network according to the present invention.

Figure 5 is an exemplary diagram of the connection history extraction of the DS1 class fault line according to the present invention.

* Explanation of symbols for the main parts of the drawings

101: operator 102: synchronous transmission network management system

103: breakdown line detail connection history extraction system

104: transmission facility database 105: circuit database

106: fault database

The present invention relates to a method for extracting a faulty link detail of a communication network and a computer-readable recording medium recording a program for realizing the method, in particular a line (DS1, DS3, optical end station) assigned to each signal level and facility layer. Details of communication line to extract hierarchical connection details necessary to identify and cope with the damage situation flow of fault alarm occurring in optical fiber) using transmission facility, line and fault database and display hierarchically on screen A method of extracting a connection history and a computer-readable recording medium having recorded thereon a program for realizing the method.

In the present operating station, when a fault alarm occurs on a specific line, the operator must directly search the transmission facility, the line and the fault database to obtain the necessary connection history information in order to identify the device history and fault information connected to the line.

Therefore, not only it takes a long time, but also the algorithm is complicated, which makes it difficult to extract the accurate connection details. Therefore, the problem of degrading line quality and reliability in the centralized maintenance maintenance system requiring fast and accurate fault alarm analysis and recovery is required. have.

The present invention has been made in order to solve the above problems, by using the transmission facility, the circuit and the failure database to find the detailed connection details of the circuit required to more quickly identify and cope with the damage flow of the fault alarm occurred in the circuit. It is an object of the present invention to provide a method for extracting a fault line detail connection for extraction and a computer-readable recording medium recording a program for realizing the method.

The method of the present invention for achieving the above object is a method for extracting the detailed connection history of a broken line in a communication network, if the network is detected while detecting that a failure occurs in a specific line, the circuit database is searched for a signal Analyzing whether the fault line is a wide-band station, a DS3-class line, or a DS1-class line by analyzing the line name assigned to each of the hierarchy and facility layer; As a result of the grasping, if the fault line is an optical end station, information on the optical cable connection constituting the optical end station is obtained. If the fault line is a DS3 class line, the connection history information of the optical end station path constituting the DS3 class line is obtained. Obtaining connection history information of a DS3-class path constituting a DS1-class line if the line is a DS1-class line; Searching for a transmission facility database to obtain detailed information of a corresponding transmission apparatus included in the failure line connection history information while obtaining the connection history information of the failure line; And searching for a fault database to obtain a current fault state, a peak fault state, a fault point, an occurrence time, a fault period, and a frequency of faults when the fault alarm is received from the transmitter in the state of obtaining the detailed information of the transmitter.

In addition, the method of the present invention, the detailed connection details of the fault line, the detailed information of the transmission device and its current fault state, the highest fault state, fault location, occurrence time, fault period, number of faults are displayed hierarchically on the screen. It further comprises the step.

On the other hand, the present invention, when detecting a failure in a specific line while monitoring the communication network to the fault line detail connection history extraction system connected to the communication network, the line database is searched to analyze the line name assigned to each signal level and facility layer To determine whether the fault line is a wide-band station, a DS3-class line, or a DS1-class line; As a result of the grasping, if the fault line is an optical end station, information on the optical cable connection constituting the optical end station is obtained. If the fault line is a DS3 class line, the connection history information of the optical end station path constituting the DS3 class line is obtained. Obtaining connection history information of a DS3-class path constituting a DS1-class line if the line is a DS1-class line; A function of searching for a transmission facility database and obtaining detailed information of a corresponding transmission apparatus included in the failure line connection history information while obtaining the connection history information of the failure line; And when the fault alarm is received from the transmitter in the state where the detailed information of the transmitter is obtained, a function of searching the fault database to obtain the current fault state, the highest fault state, the fault point, the occurrence time, the fault period, and the number of faults. A computer readable recording medium having recorded a program is provided.

In addition, the present invention, the function of displaying the detailed connection history of the fault line, the detailed information of the transmission device and its current fault state, the highest fault state, fault location, occurrence time, fault period, the number of faults on the screen hierarchically Provided is a computer readable recording medium having recorded thereon a program for further realization.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary configuration diagram of a system for extracting a failure line detail connection of a communication network to which the present invention is applied.

When the operator 101 directly inputs a failure line or inputs a failure line in a centralized operation maintenance system such as a synchronous transmission network management system (MOST) 102, the operator 101 receives the failure line and receives the transmission line database 104 and the line database 105. Search for and analyze the details of the fault line connection.

Thereafter, the transmission facility database 104 is searched to obtain detailed information of the transmission apparatus included in the detailed connection history. Then, the failure database 106 is searched for the failure of the transmission apparatus and the necessary failure alarm is obtained. Finally, the detailed information of the fault line, connection information, and fault information collected is displayed in a hierarchical manner.

2 is a flowchart illustrating an embodiment of a method for extracting a failure line detail connection of a communication network according to the present invention.

First, a connection with the centralized operation maintenance system or an initialization operation for searching a database is performed (201).

Check if a fault line occurs in the communication network, and if a fault line occurs (202), it is received through the operator or the centralized operation maintenance system, and the line name assigned to each signal level and facility layer is analyzed to determine whether the fault line is an optical end station. In step 203, it is determined whether it is a DS3-class line or a DS1-class line.

As a result of the determination (203), if the fault line is an optical end station, information on the optical cable connection information (optical cable name, core line number, water transmission segment, relay section number, patch section number) constituting the optical end station is obtained (204). If it is a DS3-class line, as shown in FIG. 3 to be described later, the connection history information of the optical end station path constituting the DS3-class line is obtained (205). If the fault line is a DS1-class line, it is shown in FIGS. 4A to 4C described below. As described above, connection history information of the DS3-class path constituting the DS1-class line is obtained (206).

When the connection details of the fault line are obtained as described above, the details of the transmission devices (optical cable, optical station, multiplexing device, DXC) included in the connection details using the transmission facility database 104 (device model, slot number, Bay, self, cross connection, etc.) are obtained (207).

Thereafter, when a failure alarm occurs in the transmission apparatuses, the failure database 106 is used to obtain information on the current failure state, the highest failure state, and the location of the failure, the occurrence time, the failure period, and the number of failures (208).

Finally, the detailed connection details of the fault line, the detailed information of the transmission device, and the fault information are collectively displayed on the screen in a hierarchical manner so that the operator can easily grasp (209).

3 is a detailed flowchart illustrating an embodiment of a process for extracting connection history of a DS3 class fault line in a method for extracting a fault line detailed connection history of a communication network according to the present invention.

When a DS3-class breakdown line occurs (301), first, the DS3 line name and the upper station name are added to the connection history list (302). Using the circuit configuration table of the circuit database 105, a list of the upper paths (system name (STM1 class) and slot number) of the DS3-class failure line is obtained (303).

Thereafter, one upper path including the same local area as the upper station of the DS3 class fault line is extracted from the upper path list (304), and the path is deleted from the upper path list (305). Using the circuit configuration table, the upper end group (system name and slot number) including the extracted upper path is obtained (306).

Next, by checking whether the upper station of the optical station and the upper station of the DS3 class fault line match (307), if it matches, the optical station name, upper station, slot number, connection history of the optical station, and the optical station name, lower Stations and slot numbers are obtained and added to the connection history list (308 to 310). Then, the upper station name to be used as a key value when extracting the next connection history is set as a lower station of the optical station (311).

On the other hand, if the upper station of the optical station and the upper station of the DS3-class fault line do not match, the optical station name, the lower station, the slot number, the connection history of the optical station and the optical station name, the upper station, the slot number It adds to the list of details (312 to 314), and sets the upper station name to be used as a key value when extracting the next connection history as the upper station of the optical end station (315).

After setting the upper station name to be used as a key value, it is checked whether there is more upper path in the upper path list (316), and if it exists, the process proceeds to the related path extraction process 304, and if there is no upper path, DS3 is added to the connection history list. Add the line name and sub station name (317) and return.

4A through 4C are detailed flowcharts illustrating an embodiment of a process of extracting connection details of a fault class DS1 out of a fault line detail connection history extracting method according to the present invention.

When the DS1 class fault line is input (401), the DS1 line name and the upper station name are first added to the connection history list (402).

Thereafter, a list of the upper paths (system name (DS3 class) and slot number) of the DS1 class failure line is obtained using the circuit configuration table of the circuit database 105 (403). Then, one upper path including the same local area as the upper station of the failure line is extracted from the upper path list (403), and the path is deleted from the upper path list (405).

Then, when the upper station of the upper pass (class DS3) and the upper station of the DS1 class fault line match (406), it is checked whether the upper station equipment of the upper pass is connected to the digital line distribution device (DCS) (407). If connected, add cross-connection information (DCS name, local name, input / output port) of the line to the connection history list (408), and if not, go to the next step.

Thereafter, the path name (DS3 line), the upper station, the slot number, the connection history of the DS3 line, and the path name (DS3 line), the lower station, the slot number are obtained and added to the connection history list (409 to 411).

Next, it is checked whether the lower station equipment of the upper pass is connected to the digital circuit distribution device (DCS) (412), and if connected, cross-connection information (DCS name, local name, input / output port) of the line in the connection history list. After adding (413), the upper station name to be used as the next connection history extraction key value is set to the lower station of the DS3 line (414). The station is set (414).

On the other hand, if the upper station of the upper pass (class DS3) and the upper station of the DS1 class fault line do not match (406), it is checked whether the lower station equipment of the upper pass is connected to the digital line distribution device (DCS) ( 415) If connected, add cross linking information (DCS name, local name, input / output port) of the line to the connection history list (416), and if not, go to the next step.

Thereafter, the path name (DS3 line), the lower station, the slot number, the connection history of the DS3 class line, the path name (DS3 line), the upper station, and the slot number are obtained and added to the connection history list (417 to 419). .

Next, by checking whether the upper station equipment of the upper pass is connected to the digital circuit distribution device (DCS) (420), if the connection is established, the cross-connection information (DCS name, local name, input / output port) of the line is included in the connection history list. After adding (421), the upper station name to be used as a key value when extracting the next connection details is set to the upper station of the DS3 line (422). (422).

After setting the upper station to be used as a key value, it is checked if there is more upper path in the upper path list (423), and if so, the process proceeds to the related path extraction process (404). Add the country name (424) and return.

5 is an exemplary view of extracting the connection history of the DS1 class fault line according to the present invention, the detailed connection details of the fault line obtained by applying the present invention to the DS1 class fault line "HPCS1J-HPCS6A-E1-504K" For example, the fault information can be easily understood and displayed on the screen.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, the present invention provides a hierarchical and detailed hierarchical view of the connection details of a specific line, detailed information and failure states of devices included in the same screen, thereby providing efficiency, accuracy, and convenience of operation management. In addition to this, it is possible to quickly identify and correct faults and increase the reliability of the network.

Claims (7)

In the method of extracting the details of the connection about the broken line in the communication network, When monitoring the communication network and detecting that a specific line has failed, it searches the line database and analyzes the line name assigned to each signal level and facility layer to determine whether the fault line is a wide-band station, DS3-class, or DS1-class line. Grasping; As a result of the grasping, if the fault line is an optical end station, information on the optical cable connection constituting the optical end station is obtained. If the fault line is a DS3 class line, the connection history information of the optical end station path constituting the DS3 class line is obtained. Obtaining connection history information of a DS3-class path constituting a DS1-class line if the line is a DS1-class line; Searching for a transmission facility database to obtain detailed information of a corresponding transmission apparatus included in the failure line connection history information while obtaining the connection history information of the failure line; And If the fault information is received from the transmitter after obtaining the detailed information of the transmitter, searching the fault database to find the current fault state, the highest fault condition, the fault point, the occurrence time, the fault period, and the number of faults. Failure line detail connection history extraction method of a communication network comprising a. The method of claim 1, Displaying hierarchical connection details of the fault line, detailed information of the transmission device and its current fault state, peak fault state, fault location, occurrence time, fault duration, and fault count on a hierarchically screen; Failure line detail connection history extraction method of the communication network further comprising. delete The method according to claim 1 or 2, Obtaining the connection history information of the optical end station pass constituting the DS3-class line, Adding a DS3 line name and a higher station name to the connection history list, and obtaining an upper path list of a DS3-class fault line using the line database; After extracting the upper path including the same local as the upper station of the DS3 class fault line from the upper path list, obtaining the upper optical end station including the extracted upper pass, and obtaining the upper station of the optical station and the upper station of the DS3 fault line. Determining whether this matches; As a result of the determination, if it matches, the group name, the upper station, the slot number, the connection history of the group, and the group name, the lower station, and the slot number are obtained and added to the connection list. Setting to a lower station; As a result of the determination, if it does not match, the broad-band station name, lower station, slot number, connection history of the broad-band station, and the broad-band station name, higher station, and slot number are obtained and added to the connection list, and the upper station name is added to the broad-band station. Setting to a higher station of; And Adding a DS3 line name and a lower station name to the connection history list after repeating the determination step for all upper paths existing in the upper path list; Failure line detail connection history extraction method of a communication network comprising a. The method according to claim 1 or 2, The process of obtaining connection history information of the DS3 class pass constituting the DS1 class line, Adding a DS1 line name and a higher station name to the connection history list and obtaining a high path list of a DS1 class fault line using the line database; Extracting an upper path including the same local as the upper station of the DS1 class fault line from the upper path list, and then determining whether the upper station of the extracted upper path and the upper station of the DS1 class fault line match; As a result of the determination, if it is determined that the upper device of the upper path is connected to the digital circuit distribution device (DCS), the cross link information of the line is added to the connection history list, and then the path name, the upper station, and the slot number. And obtain the connection history of the DS3 line and add the path name, the lower station and the slot number to the connection history list, and then confirm that the lower side equipment of the upper pass is connected to the DCS to recall the cross-connection information of the line. Adding to the connection history list and setting the upper station name to the lower station of the DS3 line; As a result of the determination, if it does not match, it confirms that the lower side equipment of the upper path is connected to the DCS, adds cross-connection information of the line to the connection history list, and then passes the path name, lower station, slot number, After obtaining the connection history and the path name, the upper station and the slot number, add to the connection history list, and then confirm that the upper side equipment of the upper path is connected to the DCS, and add cross-connection information to the connection history list. Setting an upper station name as an upper station of a DS3 line; And Adding a DS1 line name and a lower station name to the connection history list after repeating the determination step for all upper paths existing in the upper path list; Failure line detail connection history extraction method of a communication network comprising a. In the fault line detail connection history extraction system connected to the communication network, When monitoring the communication network and detecting that a specific line has failed, it searches the line database and analyzes the line name assigned to each signal level and facility layer to determine whether the fault line is a wide-band station, DS3-class, or DS1-class line. The ability to grasp; As a result of the grasping, if the fault line is an optical end station, information on the optical cable connection constituting the optical end station is obtained. If the fault line is a DS3 class line, the connection history information of the optical end station path constituting the DS3 class line is obtained. Obtaining connection history information of a DS3-class path constituting a DS1-class line if the line is a DS1-class line; A function of searching for a transmission facility database and obtaining detailed information of a corresponding transmission apparatus included in the failure line connection history information while obtaining the connection history information of the failure line; And When the fault information is received from the transmitter when the detailed information of the transmitter is obtained, the fault database is searched to find the current fault state, the highest fault state, the fault point, the occurrence time, the fault period, and the number of faults. A computer-readable recording medium having recorded thereon a program for realizing this. The method of claim 6, The function of displaying the detailed connection details of the fault line, the detailed information of the transmission device and its current fault state, the highest fault state, fault point, occurrence time, fault duration, and fault count on the screen hierarchically. A computer-readable recording medium that records a program for further realization.

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