KR101460326B1 - Method, System and Storing device for Inference And Surveillance of Optical Cable Fault - Google Patents

Abstract

The present invention relates to an optical cable failure monitoring apparatus and method for collecting alarms caused by an optical cable error from at least one communication apparatus, and a recording medium on which the method is recorded. In the present invention, an alarm generated in the communication device connected to the optical cable is collected, and it is determined whether the collected alarm is an alarm due to an optical cable failure. If the collected alarm is an alarm of such an optical cable, the optical cable which failed is estimated using the information determined by the optical cable alarm, and the failure of the estimated optical cable is notified to the target responsible for the optical cable. By doing so, it is possible to expect rapid and accurate recognition and quick recovery of the optical cable failure.

Optical cable, failure, monitoring, estimation, management, track

Description

TECHNICAL FIELD [0001] The present invention relates to a system, a method, and a recording medium for recording an optical cable failure monitoring system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical cable monitoring system, and more particularly, to a system and method for monitoring an optical cable failure and a recording medium on which the method is recorded.

Recently, a lot of optical cables have been installed and used for various modern communication needs.

Optical cable does not generate an alarm because it is a simple line, not a mechanical device. Conventionally, in order to judge the abnormality of the optical cable, a report was received by the customer using the optical cable and related persons, and the abnormality was detected and repaired.

Unlike general communication cable, fiber optic cable is used to transmit a large amount of data, and it is likely to lead to a large communication accident when cutting due to construction etc. However, due to the recognition of the customer, There is no choice but to be long.

Therefore, a new method for escaping the conventional method is required.

An object of the present invention is to provide an optical fiber failure monitoring system and method, and a recording medium on which the method is recorded, to accurately determine and notify which optical cable failure occurred when an optical cable failure occurs.

According to an aspect of the present invention, there is provided an optical fiber failure monitoring system,

An optical cable failure monitoring system for collecting an alarm of an optical cable from at least one communication device,

An optical cable information database for storing a connection relationship between a plurality of optical cables;

An optical fiber alarm database storing information on the optical cable alarm;

A control unit for collecting an alarm from the communication device, determining whether the alarm is an optical cable related alarm by referring to the optical cable alarm database, and determining which optical cable is faulty by referring to a connection relationship between information determined by the optical cable alarm and the optical cable;

And an alarm unit for notifying the failure of the object corresponding to the optical cable having the failure determined by the control unit.

Wherein,

An alarm collecting unit collecting an alarm from the communication device;

An optical cable alarm determining unit for referring to the optical cable alarm database to determine whether the alarm is an optical cable related alarm;

And a failure judgment unit for receiving the information determined by the optical cable alarm in the optical cable alarm judging unit and referring to the connection relation between the optical cables to judge which optical cable is faulty.

According to an aspect of the present invention, there is provided a method for monitoring an optical fiber failure,

An optical cable failure monitoring method for collecting an alarm of an optical cable from at least one communication device,

Collecting alarms generated in the communication device connected to the optical cable;

Determining whether the collected alarm is an optical cable alarm;

Estimating a faulty optical cable using the information determined to be the fault of the optical cable if the collected alarm is an optical cable alarm;

And notifying an object responsible for the estimated optical cable that a failure has occurred.

According to an aspect of the present invention, there is provided a recording medium on which an optical fiber failure monitoring method is provided,

A recording medium recording an optical cable failure monitoring method for collecting an alarm of an optical cable from at least one communication device,

A function of collecting an alarm generated in the communication device connected to the optical cable;

A function of determining whether the collected alarm is an optical cable alarm;

And a program for implementing a function of estimating a faulty optical cable by using information determined to be the fault of the optical cable when the collected alarm is an optical cable alarm.

In the embodiment of the present invention, fast and accurate recognition and quick restoration of the optical cable failure can be expected. In addition, the existing network surveillance area is expanded by generating an alarm on the optical cable where no alarm exists. In addition, accurate and reliable optical cable failure information can be provided by presenting effective optical cable estimation failure issuing criteria to prevent false alarms.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

In the embodiment of the present invention, the optical cable and the optical core to be monitored refer to a bundled optical cable of the fiber (optical core) that transmits the optical signal. The communication devices 210 to 240 are connected to the optical core, so that both ends of the various communication devices are accommodated through one or a duplicated optical cable. In the embodiment of the present invention, the term " optical cable section " means the beginning and end sections without special distribution. If an amplifier is connected to an amplifier and an alarm is generated, the corresponding section may be regarded as an optical cable section. A communication device referred to in an embodiment of the present invention refers mainly to an SDH transmission device, but is extendable to all communication devices that connect using an optical core. The communication device generates an alarm when an error related to various optical cables including optical cable cutting is detected.

1 is a block diagram of an optical fiber failure monitoring system according to an embodiment of the present invention.

Referring to FIG. 1, an optical fiber failure monitoring system according to an embodiment of the present invention includes:

An optical cable information database 110, a control unit 120, a fault information DB 130, an optical cable alarm DB 140, and an alarm unit 150. The control unit 120 includes an alarm collecting unit 122, an optical cable alarm determining unit 123, and a failure determining unit 121.

The optical cable information database 110 stores connection information between the optical cables and the optical cables accommodated by the communication devices 210 to 240 and stores the connection information between the communication device and the optical cable / You are saving the history. Since a plurality of optical cable sections are usually provided between the communication devices 210 to 240, they are stored in a database so that the connection details can be determined. The alarm collecting unit 122 is a module for collecting alarms from the communication devices 210 to 240. And collects alarms generated from communication devices such as transmission devices and IP devices. In this case, the optical cable alarm is collected separately, and then the optical cable alarm determination unit 123 proceeds to perform the optical cable alarm classification operation. The optical cable alarm DB 140 is a database indicating whether or not the failure corresponds to an optical cable alarm generated when an optical cable fails in accordance with the type of alarm for each communication device. Refer to the manual of each device or the help of a device specialist to distinguish and store the optical cable alarm. The optical cable alarm determination unit 123 refers to the optical cable alarm DB 140 to determine whether the alarm received from the alarm collection unit 122 is an optical cable alarm or not. It is possible to discriminate through DB comparison with existing DB. The optical cable alarm determination unit 123 stores the information determined by the optical cable alarm in the failure alarm DB 130 as necessary or transmits the information to the failure determination unit 121. The failure determination unit 121 estimates the optical cable in which the failure occurs in consideration of the optical cable alarm, communication device / cable connection information, time information, and the like. Specifically, every time an optical cable alarm occurs, a list of optical cable sections for optical cable alarms generated for a predetermined period of time (several minutes) is calculated. This target time is determined by taking into account the possibility of delaying the alarm collection time from the communication device and setting it to several minutes. This is because the time for collecting alarms in each communication device may be slightly different even if the optical cable is disconnected. Therefore, it is adjustable depending on the overall equipment characteristics and is determined to be less than about 10 minutes. The section with the highest frequency is selected as the faulty optical cable section. In order to prevent the false alarm, the frequency is exceeded at least several times before it is recognized as a fault. Since one optical cable has 32, 64, and 128 cores, it is common that a failure occurs in a large number of devices when one optical cable is disconnected, which is an effective condition for preventing false alarms. The optical cable estimation failure judged based on such a condition provides information to a necessary operator or other system through the alarm unit 150 to enable quick recognition and recovery.

An optical fiber failure monitoring method according to an embodiment of the present invention will be described in detail.

First, a device connected to an optical cable composed of a core and a bundle of the core is converted into a database and stored in the optical cable information DB 110. This is used to infer which optical cable alarm occurred in a certain device in the future, which optical cable and the core section occurred, and accurately indicate the optical cable in which the actual failure occurred. The degree of detailing of the device database may be different depending on the type of the device, but is performed to such an extent that it is possible to distinguish which optical cable core is caused by an alarm generated in the device.

In addition, an alarm generated when an optical cable failure occurs with respect to an alarm generated in a device connected to each optical cable is represented by an optical fiber alarm and stored in a database in the optical cable alarm DB 140. This is an example of a failure such as loss of signal (LOS) and signal degrade (SD) of connected transmission devices. However, since the form of the optical cable alarm differs depending on the device and the manufacturer, it is classified according to the device-specific alarm with the help of the device manager who understands the communication device. This is basic data for judging the failure of the optical cable. When the database is completed, whether or not the alarm generated in the communication device is an alarm caused by the optical cable failure is judged by comparing with the database data.

When such a process is completed, the alarm collecting unit 122 collects alarms from the communication devices 210 to 240 connected to the optical cable (S210). Alert collection is a task that telecommunication companies are currently doing to conduct network monitoring and alerts generated from each communication device are collected into the processing target system through a short time delay.

Next, the optical cable alarm determining unit 123 refers to the optical cable alarm DB 140 to determine whether the alarm received from the alarm collecting unit 122 is an optical cable alarm or not (S220). It is possible to discriminate through DB comparison with existing DB. The optical cable alarm determination unit 123 stores the information determined by the optical cable alarm in the failure alarm database 130 as needed (S230), and transmits the information to the failure determination unit 121. [

Then, the failure determination unit 121 derives an optical cable interval in which an alarm occurs, targeting only the optical cable alarm that occurred within a predetermined time (S240). Comparing the derived optical cable section list, it is possible to derive the section where the optical cable alarm is generated more than a certain frequency and the optical cable trouble occurs for the section. At this time, the reason for adding the condition of more than a certain frequency is because it is difficult to estimate that the optical fiber cable failure occurs when a network optical cable alarm occurs in only one section. In the case of sensitive communication devices, since the optical cable alarm is generated at an excessive frequency, it is limited to a frequency more than a predetermined frequency in order to reduce false alarms. Since optical cables have a large number of optical cores in one cable, if an accident such as disconnection occurs, a large number of cores are obstructed, so that it is common that obstacles come from a large number of communication devices. Therefore, it is very effective to reduce the number of false alarms by setting the condition to be more than a certain frequency.

If the optical cable fails due to the above process (S250), the alarm unit 150 provides information on the occurrence time of the specific optical cable to the operator, organization, system or the like necessary for the optical cable failure (S260) Text message, voice information, text information, and the like, and the receiving side can perform work such as work instruction based on the information.

An example of how this process is applied to actual cases is as follows.

3 is a diagram illustrating a process of detecting an optical fiber failure in an optical fiber failure monitoring system according to an embodiment of the present invention.

Referring to FIG. 3, the communication device A 210 and the communication device A '220 are connected in a duplex fashion to various cables 280, 250, 260, 300 and 310 in the middle. In addition, the communication device B 230 and the communication device B '240 are connected by three cables 290, 250 and 270. If all the communication apparatuses generate an optical cable alarm, the optical cable alarm occurrence period occurs in all the optical cables shown in FIG. 3, but the optical fiber cable 250 in the center becomes the optical cable section having the highest frequency more than twice, , The optical cable estimation failure occurs. However, it is assumed that the minimum frequency of the optical cable estimation failure is 2 at this time. If only the communication apparatus A 210 and the communication apparatus A '220 generate an optical cable alarm, the optical frequency estimation failure is not issued because the frequency is all 1 and the minimum frequency is not satisfied. This example is merely an example, the frequency can be adjusted in various ways, the number of communication devices is represented by four for the sake of convenience, and actually more.

The embodiments of the present invention described above are not implemented only by the apparatus and / or method, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

1 is a block diagram of an optical fiber failure monitoring system according to an embodiment of the present invention.

2 is a flowchart illustrating an operation of an optical fiber failure monitoring system according to an embodiment of the present invention.

3 is a diagram illustrating a process of detecting an optical fiber failure in an optical fiber failure monitoring system according to an embodiment of the present invention.

Claims (11)

An optical cable failure monitoring system for collecting an alarm of an optical cable from at least one communication device, An optical cable information database for storing a connection relationship between a plurality of optical cables; An optical fiber alarm database storing information on the optical cable alarm; A control unit for collecting an alarm from the communication device and determining whether the alarm is an optical cable related alarm by referring to the optical cable alarm database and determining which optical cable is faulty by referring to the connection relationship between the information determined by the optical cable alarm and the optical cable ≪ / RTI & Wherein the control unit judges an optical cable section in which a failure has occurred by using a connection relationship between the optical fibers of the communication apparatuses in which the optical fiber alarm is collected if it is determined that the optical cable alarm is collected from the plurality of communication apparatuses connected through the plurality of optical cables, It is determined that the optical cable section in which the frequency that is used for connecting the communication devices from which the optical fiber alarm is collected is greater than or equal to a preset frequency is regarded as a faulty optical cable section Wherein said optical fiber failure monitoring system comprises: The method according to claim 1, And an alarm unit for notifying a failure of the object corresponding to the optical cable having the failure determined by the control unit. 3. The method according to claim 1 or 2, Wherein, An alarm collecting unit collecting an alarm from the communication device; An optical cable alarm determining unit for referring to the optical cable alarm database to determine whether the alarm is an optical cable related alarm; And a failure judging unit for receiving the information judged by the optical cable alarm in the optical cable alarm judging unit and judging which optical cable is faulty by referring to the connection relation between the optical cables. The method of claim 3, Wherein the failure determination unit determines that the optical cable fails if the optical cable section has an alarm for a predetermined number of times or more within a predetermined time. The method of claim 3, Wherein the failure determination unit determines that the failure occurs when a corresponding optical cable section overlaps by a plurality of alerts. delete An optical cable failure monitoring method in which an optical cable failure monitoring system collects an alarm of an optical cable from at least one communication device, Collecting an alarm generated in the communication device connected to the optical cable failure monitoring system; Determining whether the collected alarm of the optical cable failure monitoring system is an optical cable alarm; And estimating a faulty optical cable using the information determined by the optical cable alarm when the collected alarm is an optical cable alarm, In the estimating step, when it is determined that the optical cable alarm is collected from the plurality of communication apparatuses connected through the plurality of optical cables, the optical cable alarm is used to detect the failure of the optical cable section Judges that an optical cable section in which the frequency used for connecting the communication devices to which the optical cable alarm is collected is not less than a preset frequency is regarded as a faulty optical cable section Wherein the optical fiber is a fiber optic cable. 8. The method of claim 7, Further comprising the step of notifying the optical cable failure monitoring system that an obstacle has occurred to an object responsible for the estimated optical cable. 9. The method according to claim 7 or 8, Wherein the step of determining whether the collected alarm is an optical cable failure is determined as a failure when the collected optical cable section has an alarm for a predetermined number of times or more within a predetermined time considering alarm collection. 9. The method according to claim 7 or 8, Wherein the step of determining whether the collected alarm is an optical cable failure comprises determining that the optical cable interval is a failure when the plurality of optical cable alarms overlap. A computer readable recording medium storing a program for implementing an optical cable failure monitoring method for collecting an alarm of an optical cable from at least one communication device, A function of collecting an alarm generated in the communication device connected to the optical cable; A function of determining whether the collected alarm is an optical cable alarm; And estimating a faulty optical cable using the information determined by the optical cable alarm when the collected alarm is an optical cable alarm.

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