KR20100000108A - Method, system and storing device for inference and surveillance of optical cable fault - Google Patents

Abstract

PURPOSE: An optical cable obstacle observation system for collecting alarms generated by an optical cable error from a communication device, a method and a recording medium recording the method thereof are provided to accurately recognize the optical cable failure by notifying a person in charge. CONSTITUTION: An optical cable information database(110) stores a connection relation between a plurality of optical cables. An optical cable alarm database(140) stores the information about the optical cable emergency signal. A controller(120) collects emergency signals. The controller decides the whether the emergency signal is the optical cable related emergency signal.

Description

Optical cable fault monitoring system, method and recording medium recording the method {Method, System and Storing device for Inference And Surveillance of Optical Cable Fault}

The present invention relates to an optical cable monitoring system, and more particularly, to an optical cable failure monitoring system, a method and a recording medium recording the method.

Nowadays, many optical cables are installed and used for various communication needs in modern times.

The optical cable does not generate an alarm because it is a simple line rather than a mechanical device. Conventionally, in order to determine the abnormality of such an optical cable, by receiving a report from a customer or a person in charge using the optical cable to detect and repair the failure.

Unlike general communication cable, optical cable is used to transmit a large amount of data, and when cutting due to construction, it is likely to lead to large communication accidents. This can only be long.

Therefore, there is a need for a new method for deviating from the conventional method.

An object of the present invention is to provide an optical cable failure monitoring system, a method and a recording medium recording the method, which accurately determine and inform which optical cable has failed when an optical cable failure occurs.

Optical cable failure monitoring system according to a feature of the present invention for solving the above technical problem,

An optical cable failure monitoring system for collecting alarms of optical cables from at least one communication device.

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

An optical cable alarm database for storing information about the optical cable alarm;

A controller configured to collect an alarm from the communication device, determine whether the alarm is an alarm related to an optical cable by referring to the optical cable alarm database, and determine which optical cable is disabled by referring to a connection relationship between the information determined as an optical cable alarm and the optical cable;

And an alarm unit that notifies the object corresponding to the defective optical cable determined by the controller.

The control unit,

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

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

The optical cable alarm determination unit includes a failure determination unit for receiving information determined as an optical cable alarm and determining which optical cable is disabled by referring to the connection relationship between the optical cables.

Optical cable failure monitoring method according to a feature of the present invention for solving the above technical problem,

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;

If the collected alert is an optical cable alert, estimating a failed optical cable using information determined as the optical cable failure;

Informing the subject in charge of the estimated optical cable that a failure has occurred.

Recording medium recording an optical cable failure monitoring method according to a feature of the present invention for solving the above technical problem,

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

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

Determining whether the collected alarm is an optical cable alarm;

When the collected alarm is an optical cable alarm, a program in which a function of estimating a failed optical cable is stored using information determined as the optical cable failure.

In an embodiment of the present invention, it is possible to expect a fast and accurate recognition and fast recovery for an optical cable failure. In addition, the existing network monitoring area was extended by generating an estimated alarm on the optical cable that did not exist. In addition, accurate and reliable optical cable failure information can be provided by providing an effective optical cable estimation failure issue standard to prevent false alarms.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

In the embodiment of the present invention, an optical cable and an optical core to be monitored refer to an optical cable that is a bundle of fibers (optical cores) that transmit an 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 redundant optical cables. In the embodiment of the present invention, the optical cable section means a first section and an end section followed without special distribution. If the amplifier goes through a repeater and the alarm occurs in the amplifier, the corresponding section may be regarded as an optical cable section. The communication device referred to in the embodiment of the present invention mainly refers to an SDH transmission device, but can be extended to all communication devices connected by using an optical core. The communication device generates an alarm in the event of various fiber-related errors, including fiber cable disconnection.

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

1, the optical cable failure monitoring system according to an embodiment of the present invention

The optical cable information database 110, the control unit 120, the failure information DB 130, the optical cable alarm DB 140, and the alarm unit 150. The controller 120 includes an alarm collector 122, an optical cable alarm determiner 123, and a failure determiner 121.

Optical cable information database 110 stores the connection information between the optical cable and the core, the optical cable accommodated by the communication device (210 ~ 240), for example, of the optical cable / core connected to each telephone company and the communication device shown in FIG. Saving history. Since each communication device (210 ~ 240) is usually passed through a plurality of optical cable intervals, the database is stored 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. Collect alarms 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 performs the optical cable alarm classification operation. The optical cable alert DB 140 is a database indicating whether the corresponding fault is an optical cable alert generated when an optical cable fails by an alarm type for each communication device. Refer to the manual of the device expert or refer to the manual of each device to classify and save 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 collecting unit 122 is an optical cable alarm. It can be discriminated by simple comparison with DB already secured. Then, the optical cable alert determination unit 123 stores the information determined by the optical cable alert in the failure alert DB 130 or transmits the information to the failure determination unit 121. The failure determining unit 121 estimates an optical cable having a failure in consideration of an optical cable alarm, communication device / cable connection information, and time information. Specifically, each time an optical cable alert occurs, a list of optical cable sections for the optical cable alert that has occurred during the recent predetermined time (minutes) is calculated. The target time is set to several minutes in consideration of the possibility of delayed alarm collection time from the communication device. Even if fiber breaks occur, the time at which alarms are collected at each communication device may vary slightly. Thus, it is adjustable according to the overall equipment characteristics and determined to be less than approximately 10 minutes. The section with the highest frequency among the sections where the optical cable alarm occurred is selected as the fault estimation optical cable section. At this time, it is recognized as a fault only if the frequency is exceeded at least several times to prevent false alarms. Since 32, 64, and 128 cores are mounted on one optical cable, a large number of devices fail when one optical cable is cut, which is a condition of effective false alarm prevention. The optical cable estimation failure determined as such a condition provides information to a worker or another system through the alarm unit 150 to enable quick recognition and recovery.

This will be described in detail with respect to the optical cable failure monitoring method according to an embodiment of the present invention.

First, the database and the device connected to the optical cable consisting of the core and the bundle of the core is stored in the optical cable information DB (110). It is used later to infer which fiber alerts from which device occurred, which fiber and core section, and to pinpoint the actual faults. The degree of detail of the device database may vary depending on the type of device, but the level of detail of the optical fiber core caused by the alarm generated by the device is performed.

In addition, the alarm generated in the event of an optical cable failure for the alarm generated in the device connected to each optical cable is represented as an optical cable alarm and stored in the optical cable alarm DB (140). This is an example of a failure such as LOS (Los Of Signal), SD (Signal Degrade), etc. of a connected transmission device. However, whether or not an optical cable alarm is different from device to device and manufacturer, and the device is classified by device with the help of a device administrator who understands the communication device. This is the basic data for determining the failure of the optical cable, and when the database is completed, it is determined whether the alarm generated by the communication device is an alarm due to the failure of the optical cable by comparing with the database data.

Such a database can be modified as necessary, and when this process is completed, the alarm collecting unit 122 collects an alarm from the communication device (210 ~ 240) connected to the optical cable (S210). Alarm collection is the work that telcos are currently doing to monitor the network, and alarms from each communication device are collected to the target system through a short delay.

Next, the optical cable alarm determination 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 (S220). It can be discriminated by simple comparison with DB already secured. Then, the optical cable alert determination unit 123 stores the information determined by the optical cable alert in the failure alert DB 130 (S230) or transmits to the failure determination unit 121 as necessary.

Then, the failure determination unit 121 derives the optical cable section in which the alarm has occurred, targeting only the optical cable alarm generated within the latest predetermined time (S240). Comparing the list of the fiber cable sections thus derived, it is possible to derive more than a certain frequency and a section where the fiber cable alarm occurs the most, and an optical cable failure occurs for the section. In this case, the reason for adding a condition above a certain frequency is that it is difficult to estimate that the actual optical cable failure when a network optical cable alarm occurs in only one section. In the case of sensitive communication devices, optical cable alarms are generated with excessive frequency, so that the limit of false alarms is limited to intervals above a certain frequency. Since an optical cable has a large amount of optical cores in one cable, when an accident such as cutting occurs, a large amount of failures occur in the cable, and therefore, a failure occurs in a large amount of communication devices. Thus, subjecting a certain frequency above a certain frequency can effectively reduce false alarms.

If there is an optical cable failure by this process (S250), the alarm unit 150 provides the necessary worker, organization, system, etc. with the information on the occurrence time of the specific optical cable for the derived optical cable failure (S260), the provided form is an email, It may be provided in various forms such as text message, voice information, text information, etc. The receiving side may perform a task such as a work order based on this information.

In fact, the following is an example of applying this process to the actual case.

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

Referring to FIG. 3, the communication device A 210 and the communication device A ′ 220 are duplexed and connected with various cables 280, 250, 260, 300, and 310 in the middle. In addition, communication device B 230 and communication device B ′ 240 are connected by three cables 290, 250, and 270. If an optical cable alarm occurs in all communication devices, the optical cable alarm occurrence period is generated in all optical cables shown in FIG. Based on this, an optical cable estimation failure occurs. However, it is assumed that the minimum frequency of the estimated failure of the optical cable is 2. If the optical cable alarm occurs only in the communication device A 210 and the communication device A '220, the frequency is all 1, so the minimum frequency cannot be satisfied. This example is only an embodiment, the frequency can be variously adjusted, the number of communication devices is shown as four for convenience, in practice it is more than that.

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

It will be appreciated that various changes and modifications can be made by those skilled in the art to which the present invention pertains without departing from the technical spirit of the present invention. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

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

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

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

Claims (11)

An optical cable failure monitoring system for collecting alarms of optical cables from at least one communication device. An optical cable information database for storing a connection relationship between a plurality of optical cables; An optical cable alarm database for storing information about the optical cable alarm; A control unit configured to collect an alarm from the communication device, determine whether the alarm is an alarm related to an optical cable by referring to the optical cable alarm database, and determine which optical cable is disabled by referring to a connection relationship between the information determined as an optical cable alarm and the optical cable; Including optical cable fault monitoring system. The method of claim 1, The optical cable failure monitoring system further comprises an alarm unit for notifying a target corresponding to the optical cable with a failure determined by the controller. The method according to claim 1 or 2, The control unit, An alarm collecting unit collecting an alarm from the communication device; An optical cable alarm determining unit for determining whether the alarm is an optical cable related alarm by referring to the optical cable alarm database; And an error determination unit configured to receive information determined as an optical cable alarm from the optical cable alarm determination unit, and determine which optical cable is disabled by referring to a connection relationship between the optical cables. The method of claim 3, The failure determination unit, the optical cable failure monitoring system, characterized in that the optical cable section is determined as a failure when there is an alarm a predetermined number of times within a predetermined time. The method of claim 3, The failure determination unit, the optical cable failure monitoring system, characterized in that it determines that the failure when the corresponding optical cable section overlap by a plurality of alarms. The method of claim 3, The failure determination unit, the optical cable failure monitoring system, characterized in that for determining the section in which the highest frequency among the section in which the optical cable alarm occurs as a failure section. 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; And estimating an optical cable having a failure by using the information determined as the optical cable alarm when the collected alarm is an optical cable alarm. The method of claim 7, wherein And notifying a subject in charge of the estimated optical cable that a failure has occurred. The method according to claim 7 or 8, Determining whether the collected alarm is an optical cable failure, the optical cable failure monitoring system, characterized in that it is determined that when the collected optical cable section has a predetermined number of alarms within a predetermined time considering the alarm collection. The method according to claim 7 or 9, The determining of whether the collected alarm is an optical cable impairment, when the overlapping by a plurality of optical cable alarms, the optical cable failure monitoring method, characterized in that for determining the corresponding optical cable section as a failure. A recording medium recording an optical cable failure monitoring method for collecting an alarm of an optical cable from at least one communication device, Collecting alarms generated by the communication device connected to the optical cable; Determining whether the collected alarm is an optical cable alarm; And storing the program in which the function of estimating the failed optical cable is implemented using the information determined as the optical cable alert when the collected alarm is an optical cable alert.

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