KR20080069103A - System for monitering optical network unit and method for monitering the optical network unit - Google Patents

Abstract

A system for monitoring an ONU(Optical Network Unit) and a method thereof are provided to manage the ONU efficiently at a remote place by transmitting a reset signal to the ONU, resetting the ONU and making the ONU normally operated in case that the ONU is in a wrong operation state. A method for monitoring an ONU comprises the following several steps. A signal storage module of a monitoring system stores plural abnormal signals related to wrong operations of the ONU(301). A monitoring module receives sensed signals from the ONU(302). The monitoring module checks whether the received sensed signals are the same as one among the abnormal signals stored at the signal storage module(303). If so, a signal generating module generates an ONU resetting signal, and a signal transmitting module transmits the resetting signal to the ONU(304). The monitoring module checks whether the ONU is normally operated after being reset(305). If the ONU is not normally operated though it is reset, the monitoring module notifies a manager of a wrong operation state of the ONU for dispatching the manager to an area where the ONU is located(306).

Description

Monitoring system for optical communication network unit and its monitoring method {SYSTEM FOR MONITERING OPTICAL NETWORK UNIT AND METHOD FOR MONITERING THE OPTICAL NETWORK UNIT}

1 is a view showing the overall configuration of an optical communication network unit according to an embodiment of the present invention.

2 is a block diagram illustrating a monitoring system of an optical communication network unit according to an embodiment of the present invention.

3 is a flowchart illustrating a method of monitoring an optical communication network unit according to an embodiment of the present invention.

4 is a flowchart illustrating a monitoring method of an optical communication network unit according to another embodiment of the present invention.

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

200: monitoring system of optical communication network unit

201: signal storage module

202: monitoring module

203: device diagnostic module

204: signal generation module

205: signal transmission module

The present invention relates to a monitoring system for an optical network unit and a method for monitoring the same, wherein the sensing signal received from the optical network unit is monitored to reset or notify an administrator of the optical network unit according to the state of the optical network unit.

An optical network unit (ONU) is an end device of an optical network that provides a service interface to end users and is installed in a subscriber's home. The optical network unit is implemented to be accessible to users by accommodating FTTC, fiber to the building (FTTB), fiber to the floor (FTTF), and fiber to the office (FTTO). In addition, the optical network unit is a device that connects the cable and optical facilities for transmitting the analog signal of the customer, where the optical signal and the electrical signal are exchanged.

Such an optical communication network unit is used in an optical coaxial hybrid network (HFC: Hybrid Fiber) and is composed of an optical fiber and an optical coaxial cable. That is, data signals (Internet, cable TV, crime prevention, disaster prevention, remote metering, automatic control) can be transmitted by using optical fiber to broadcasting stations and optical communication network units and coaxial cables from optical end stations to subscribers.

However, when the optical network unit is broken, the manager often needs to go to the site to diagnose the malfunction. This is because, if an abnormality occurs in the network of the optical communication network unit, the possibility of resolving remotely is low. In addition, in the current optical network unit, there is a difficulty in management due to the absence of an IP address.

Therefore, in order to overcome the above-mentioned problems of the prior art and to facilitate the management of the optical network unit, by monitoring the state of the optical network unit, if a malfunction occurs, the hardware is reset or when the normal operation is difficult due to hardware reset The development of a system for notifying managers is required.

The present invention has been made to solve the problems of the prior art as described above, in order to effectively manage the optical network unit even in the remote, by monitoring the detection signal received from the optical network unit in real time, the optical network unit is in a malfunction state In this case, an object of the present invention is to provide a monitoring system of an optical communication network unit and a method of monitoring the same, by transmitting a reset signal to the optical communication network unit to reset the optical communication network unit to operate normally.

The monitoring system of the optical communication network unit and the monitoring method thereof according to the present invention, if the optical communication network unit is not normally operated by a reset signal for operating the optical communication network unit normally, it is determined whether the optical communication network unit is malfunctioning for on-site operation. It is for the purpose to inform the manager.

The monitoring system and method for monitoring the optical network unit according to the present invention, when the optical network unit malfunctions, connects to the monitoring module via a pre-assigned IP address, thereby diagnosing the equipment of the optical network and generating a reset signal. The purpose of this is to notify the administrator of the malfunction of the optical network unit for on-site dispatch if not connected.

In order to achieve the above object and solve the above-mentioned problems of the prior art, the monitoring system of the optical network unit according to an embodiment of the present invention is a signal storage for storing a plurality of abnormal signals associated with the malfunction of the optical network unit A module, a monitoring module for determining whether a detection signal received from the optical communication network unit is the same as any one of the plurality of abnormal signals, and resetting the optical communication network unit if the detection signal is the same as any one abnormal signal. And a signal generation module for generating a reset signal for transmitting the reset signal to the optical communication network unit.

The monitoring system of the optical network unit according to another embodiment of the present invention is a monitoring module for receiving a detection signal from the optical network unit to monitor the malfunction of the optical network unit, connected to the monitoring module via an assigned IP address A device diagnosis module for diagnosing equipment of the optical communication network unit when connected to the monitoring module, a signal generation module for generating a reset signal for resetting the optical communication network unit according to the equipment state of the optical communication network unit, and the reset signal. And a signal transmission module for transmitting the signal to the optical communication network unit to reset the optical communication network unit.

Method for monitoring the malfunction of the optical network unit according to an embodiment of the present invention is to determine whether the detection signal received from the optical network unit is the same as any one of a plurality of stored abnormal signal of the optical network unit Diagnosing a condition, or accessing a monitoring module through an assigned IP address and diagnosing the equipment of the optical communication network unit according to whether or not the connection is established, and resetting the optical communication network unit when the state of the optical communication network unit malfunctions. Generating a reset signal, and transmitting the reset signal to the optical network unit so that the optical network unit is reset.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings and the contents described in the accompanying drawings, but the present invention is not limited or limited to the embodiments.

1 is a view showing the overall configuration of an optical communication network unit according to an embodiment of the present invention.

The optical network unit (ONU) 100 includes a monitoring module and a signal generating module in association with an optical network, and a data transmission module in association with a coaxial network, which modules are connected on a circuit. The monitoring module monitors the optical communication network unit 100 to remotely control when a problem occurs in the optical communication network unit 100 itself or when a coaxial network connection or a data transmission module error occurs.

To this end, when an IP address is assigned to the monitoring module and an abnormality of the optical communication network unit 100 occurs, the monitoring module accesses the monitoring module through the IP address. When connected to the monitoring module, to diagnose the equipment of the optical network unit 100, the signal generation module generates a reset signal for resetting the optical network unit 100, and transmits to the optical network unit 100 . The monitoring module determines whether the optical communication network unit 100 operates normally after the reset signal is reset. However, when the optical communication network unit 100 does not operate normally even after the reset, or when the optical communication network unit 100 is not connected to the monitoring module, the administrator is notified of a malfunction state of the optical communication network unit 100 so as to be dispatched on-site.

Hereinafter, the monitoring system of the optical communication network unit will be described in detail with reference to FIG. 2.

The signal storage module 201 of the monitoring system 200 stores a plurality of abnormal signals associated with a malfunction of the optical communication network unit 100. The abnormal signal is a kind of detection signal received from the optical communication network unit 100 and means a detection signal received when the optical communication network unit 100 malfunctions.

The monitoring module 202 receives the detection signal from the optical communication network unit 100 in real time and monitors an operation state of the optical communication network unit 100. To this end, the monitoring module 202 determines whether the received detection signal is equal to any one of a plurality of abnormal signals stored in the signal storage module 201. The monitoring module 202 determines the optical communication network unit 100 as a malfunction state when the detection signal is the same as any one abnormal signal.

The signal generation module 204 generates a reset signal for resetting the optical communication network unit 100 when the detection signal is the same as any one abnormal signal. The signal transmission module 205 transmits the generated reset signal to the optical communication network unit 100.

The monitoring module 202 receives the detection signal from the optical communication network unit 100 after the optical communication network unit 100 is reset by the reset signal, and determines whether the detection signal is the same as any one of the plurality of abnormal signals. Determine whether or not. The monitoring module 202 determines that the optical communication network unit 100 is operating normally by the reset signal when the detection signal is not the same as any of the plurality of abnormal signals. In this case, there is an effect that can be effectively managed by monitoring the optical communication network unit 100 remotely without having to go out on-site every time the malfunction of the optical communication network unit 100.

However, when the detection signal is the same as any one of the plurality of abnormal signals, the monitoring module 202 determines that it is not operating normally and is malfunctioning even after being reset, and the optical communication network unit 100 is transmitted to the manager for on-site dispatch of the manager. It can be notified whether the malfunction of the.

In addition, the monitoring module 202 receives external data, processes network traffic, and enables interworking with a network management system (NMS) using a simple network management protocol (SNMP).

According to another embodiment of the present invention, when an error occurs in the optical network unit 100, the equipment diagnostic module 203 connects to the monitoring module 202 through the IP address assigned to the monitoring module 202. When the equipment diagnostic module 203 is connected to the monitoring module 202, the equipment diagnosis module 203 diagnoses equipment of the optical communication network unit 100, and when the equipment of the optical communication network unit 100 malfunctions as a result of the diagnosis, the signal generation module 204 Command to generate a reset signal. The signal generation module 204 generates a reset signal according to the command, and the signal transmission module 205 transmits the generated reset signal to the optical communication network unit 100. However, when not connected to the monitoring module 202, the equipment diagnostic module 203 may notify the manager whether the optical communication network unit 100 is malfunctioning for on-site dispatch of the manager.

3 is a flowchart illustrating a method of monitoring an optical communication network unit according to an embodiment of the present invention. The monitoring method of the optical communication network unit according to the present embodiment may be performed by the monitoring system 200 as shown in FIG.

First, the signal storage module 201 of the monitoring system 200 stores a plurality of abnormal signals associated with a malfunction of the optical communication network unit 100 (step 301). The abnormal signal refers to a detection signal received when the optical communication network unit 100 malfunctions.

The monitoring module 202 receives the sensing signal from the optical network unit 100 (step 302). The detection signal is used as information for determining a malfunction state of the optical communication network unit 100.

The monitoring module 202 determines whether the received detection signal is equal to any one of a plurality of abnormal signals stored in the signal storage module 201 (step 303). When the detection signal is the same as any one of the plurality of abnormal signals, the monitoring module 202 determines the state of the optical communication network unit 100 as a malfunction. However, if the detection signal is not the same as any one of the plurality of abnormal signals, the monitoring module 202 may perform again from step 302.

When the detection signal is the same as any one of a plurality of abnormal signals, the signal generation module 204 generates a reset signal for resetting the optical network unit 100, and the signal transmission module 205 receives the reset signal. Transmit to network unit 100 (step 304). The optical communication network unit 100 is reset by the reset signal.

The monitoring module 202 determines whether the optical communication network unit 100 operates normally after being reset (step 305). The determination method may be determined according to whether a detection signal received from the optical communication network unit 100 is the same as any one of a plurality of abnormal signals. If the determination results in the normal operation, the monitoring module 202 may perform again from step 302.

However, when the optical network unit 100 does not operate normally even after the optical network unit 100 is reset, the monitoring module 202 tells the administrator whether the optical network unit 100 is malfunctioning for the on-site dispatch of the administrator. Notify (step 306).

4 is a flowchart illustrating a monitoring method of an optical communication network unit according to another embodiment of the present invention. The monitoring method of the optical communication network unit shown in FIG. 4 may also be performed by the monitoring system 200 shown in FIG.

The monitoring module 202 receives the sensing signal from the optical network unit 100 (step 401). The detection signal is used as information for determining a malfunction state of the optical communication network unit 100.

The monitoring module 202 analyzes the detection signal to determine whether an abnormality of the optical communication network unit 100 occurs (step 402). The analysis of the detection signal may be directly confirmed by the administrator or processed on the system. That is, the monitoring module 202 may determine whether an abnormality of the optical communication network unit 100 occurs by comparing the plurality of abnormal signals stored in advance as described above with the detection signal.

If an error of the optical network unit 100 occurs, the equipment diagnostic module 203 connects to the monitoring module 202 through the assigned IP address (step 403). The IP address is previously given to the monitoring module 202.

The equipment diagnostic module 203 determines whether it is accessible to the monitoring module 202 (step 404). If it is not connected to the monitoring module 202, it is determined that the on-site dispatch of the manager is necessary and performs step 408 to notify the manager.

However, when connected to the monitoring module 202, the equipment diagnostic module 203 diagnoses the equipment of the optical communication network unit 100 (step 405).

If the equipment malfunctions, the signal generation module 204 generates a reset signal for resetting the optical communication network unit 100, and the signal transmission module 205 transmits the reset signal to the optical communication network unit 100. (Step 406). The optical communication network unit 100 is reset by the reset signal.

The monitoring module 202 determines whether the optical communication network unit 100 operates normally after being reset (step 407). The determination method may diagnose and determine a state of equipment of the optical communication network unit 100. If the determination results in the normal operation, the monitoring module 202 may perform again from step 401.

However, when the optical network unit 100 does not operate normally even after the optical network unit 100 is reset, the monitoring module 202 tells the administrator whether the optical network unit 100 is malfunctioning for the on-site dispatch of the administrator. Notify (step 408).

As described above, according to the present invention, when the optical communication network unit malfunctions, it connects to the monitoring module through a pre-assigned IP address, and when connected, diagnoses the equipment of the optical communication network to generate a reset signal, or if the optical communication network unit is not connected, In order to notify the administrator of the malfunction of the optical network unit, there is an effect that the administrator can be dispatched only when necessary, rather than dispatching the site every time the malfunction.

The monitoring method of the optical communication network unit according to the present invention can be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Magneto-optical media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, although the present invention has been described with reference to limited embodiments and drawings, the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

In the monitoring system and method for monitoring the optical communication network unit according to the present invention, a detection signal received from the optical communication network unit is monitored in real time to transmit a reset signal to the optical communication network unit when the optical communication network unit is in a malfunction state. By resetting the network unit to operate normally, there is an effect that can effectively manage the optical network unit even from a remote location.

In the monitoring system and method for monitoring the optical network unit according to the present invention, when the optical network unit is not normally operated by a reset signal for operating the optical network unit normally, by notifying an administrator whether the optical network unit is malfunctioning or not. In addition, there is an effect that the administrator can be dispatched to the site where the optical communication network unit is installed.

In the monitoring system and method for monitoring the optical network unit according to the present invention, when the optical network unit malfunctions, it connects to the monitoring module through a pre-assigned IP address, and when connected, diagnoses the equipment of the optical network and generates a reset signal. For example, by notifying the administrator of the malfunction of the optical communication network unit for on-site dispatch when not connected, there is an effect of allowing the administrator to be dispatched only when necessary, without being dispatched on-site for each malfunction.

Claims (12)

In the monitoring system of the optical network unit (ONU: Optical Network Unit), A signal storage module for storing a plurality of abnormal signals associated with a malfunction of the optical communication network unit; A monitoring module for determining whether a detection signal received from the optical communication network unit is the same as any one of an abnormal signal in the signal storage module; A signal generation module for generating a reset signal when the detection signal is the same as any one abnormal signal; And A signal transmission module for transmitting the generated reset signal to the optical communication network unit to induce a reset of the optical communication network unit Surveillance system comprising a. The method of claim 1, Equipment diagnosis module for accessing the monitoring module through an assigned IP address and for determining whether to generate a reset signal by diagnosing the equipment of the optical communication network unit when connected to the monitoring module. Surveillance system comprising a further. The method of claim 1, The monitoring module, And judging whether the detection signal received from the optical communication network unit is identical to any one of the abnormal signals in the signal storage module after the optical communication network unit is reset. The method of claim 3, The monitoring module, And if it is the same as a result of the judging panel, confirming that the optical communication network unit is in a malfunction state and notifying an administrator. In the monitoring system of the optical network unit, A monitoring module for receiving a detection signal from the optical communication network unit and monitoring whether the optical communication network unit is malfunctioning; An apparatus diagnostic module for accessing the monitoring module through an assigned IP address and for diagnosing equipment of the optical communication network unit when connected to the monitoring module; A signal generation module for generating a reset signal for resetting the optical communication network unit according to the diagnosis result; And A signal transmission module for transmitting the reset signal to the optical communication network unit to reset the optical communication network unit Surveillance system comprising a. The method of claim 5, A signal storage module for storing a plurality of abnormal signals associated with a malfunction of the optical communication network unit, The monitoring module, And determining whether the detection signal received from the optical communication network unit is the same as any one of the abnormal signals in the signal storage module, and monitoring whether the optical communication network unit is malfunctioning based on the determination result. In the method for monitoring the malfunction of the optical communication network unit, Diagnosing a state of the optical communication network unit by determining whether the detection signal received from the optical communication network unit is the same as any one of a plurality of stored abnormal signals; Generating a reset signal if the state of the optical communication network unit is malfunction as a result of the diagnosis; And Inducing a reset of the optical communication network unit by transmitting the generated reset signal to the optical communication network unit. Malfunction monitoring method of an optical communication network unit comprising a. The method of claim 7, wherein Diagnosing a state of the optical communication network unit, Diagnosing a state of the optical communication network unit as a malfunction when the detection signal is the same as any one of a plurality of abnormal signals; Malfunction monitoring method of an optical communication network unit comprising a. In the method for monitoring the malfunction of the optical communication network unit, Diagnosing the equipment of the optical communication network unit according to whether to connect to the monitoring module through the assigned IP address; Generating a reset signal if the state of the optical communication network unit is malfunction as a result of the diagnosis; And Inducing a reset of the optical communication network unit by transmitting the generated reset signal to the optical communication network unit. Malfunction monitoring method of an optical communication network unit comprising a. The method of claim 7, wherein The diagnosing the equipment of the optical communication network unit, Diagnosing a state of the optical communication network unit as a malfunction when connected to a monitoring module Malfunction monitoring method of an optical communication network unit comprising a. The method according to claim 7 or 9, Judging whether the detection signal received from the optical communication network unit is identical to any one of the abnormal signals in the signal storage module after the optical communication network unit is reset; And Ascertaining the optical communication network unit as a malfunction state and notifying an administrator if the judged result is the same. Malfunction monitoring method of the optical communication network unit further comprising. A computer-readable recording medium having recorded thereon a program for executing the method of claim 7.

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