KR102337967B1 - Intelligent Network Diagnostic System - Google Patents

Abstract

The present invention relates to an intelligent network failure diagnosis system. The intelligent network failure diagnosis system has a main control device integrally forming a sensor unit on an optical distribution FDF and a network port patch panel, controlling it, and storing information of a cable port, wherein when a connection error between the cable port and an optical cable occurs, the intelligent network failure diagnosis system rapidly notifies a manager of the connection error via LED light of the sensor unit and a warning sound and a screen of the main control device and easily identifies which cable port has an error, thereby allowing the manager to rapidly and easily cope with a connection error situation.

Description

Intelligent Network Failure Diagnosis System {Intelligent Network Diagnostic System}

The present invention relates to an intelligent network diagnosis system. More specifically, the sensor unit is integrally formed on the optical distribution FDF and the network port patch panel, and a main control device that controls it and stores the information of the cable port is installed to separate the cable port and the optical cable. If there is a connection problem, it is related to an intelligent network failure diagnosis system implemented to quickly notify the manager of connection errors with the LED lighting of the sensor unit, the warning sound of the main control unit, and the screen, and to easily identify which cable port is faulty.

In general, if you look at a computer room or server room where network devices are placed, numerous cable ports and optical cables are connected. If you look at such a server room or computer room, if there is a problem in the connection between the cable port and the optical cable while operating the network equipment, you have no choice but to stop the equipment and examine each port one by one to find the port with the problem. In addition, when network equipment is added or network cables need to be replaced, it is impossible to identify which user is connected to which cable port. As a result, all networks connected to one network device had to be stopped and cable connection problems were resolved, or the entire building network had to be stopped before proceeding.

Patent Registration No. 10-2106741 (Registration Date: April 18, 2013) In relation to the prior art to solve this problem, the real-time optical cable monitoring management system monitors the optical signal level of the optical cable in real time, and the optical cable and network A tamper monitoring system that finds an alternative route when a port connection error occurs; and a management system that allows users to check the network status; OTDR for measuring the presence or absence of abnormality; an automatic switching system for reconfiguring a network with an alternative path; OSP that transmits call voice over IP network; and MSPS for processing various signals in one optical communication device; helps to quickly respond when an abnormality occurs in the cable port and the optical cable connection.

However, the above system is a workaround that provides an alternative route for network communication. If there is no alternative route, it is impossible to solve the connection error, and the structural limitation is not helpful in fundamental inspection or identification of the cable port and optical cable where the connection error occurs. Therefore, it is impossible to solve the above-mentioned problems.

Patent Registration Publication No. 10-1257807 (Registration date: April 18, 2013) "Real-time optical cable monitoring network management system"

An object of the present invention is to solve the above problem, and when detecting a connection abnormality between a cable port and an optical cable, and detecting a connection abnormality, an LED light, a warning sound, and a monitor screen are used to quickly recognize the connection abnormality to the administrator and troubleshoot the problem. It is to provide an intelligent network failure diagnosis system that can easily identify the port where the error occurs.

This object of the present invention, at least one optical distribution FDF consisting of one or more cable ports and a sensor unit, at least one network port patch panel composed of one or more cable ports and a sensor unit, the optical distribution FDF and a network port patch panel and It is connected to the administrator server and PC by wired or wireless communication, and it saves the connection status of each cable port, the connection partner information, and the partner registration information of each cable port, and outputs it to the screen. This is achieved by an intelligent network fault diagnosis system composed of a main control unit that notifies an abnormality.

The intelligent network failure diagnosis system according to the present invention detects the connection state of each cable port by the sensor unit integrated with the optical distribution FDF and the network patch panel, and when there is an abnormality in the connection state, it visually displays it using LED lights, It transmits a connection status error signal to the main control device connected through wired or wireless communication, and the main control device that receives it notifies the computer room or server room manager of the connection status abnormality through screen and voice, and the administrator server and PC connected through wired or wireless communication It also reports this to, and stores the connection partner information and work information of each cable port, which is effective in identifying the cable port and the connection target where the connection error occurred and solving the connection status abnormality easily and quickly.

1 is a block diagram of an intelligent network failure diagnosis system according to an embodiment of the present invention;
2 is a block diagram of a main control device of an intelligent network failure diagnosis system according to an embodiment of the present invention;
3 is a flowchart of an operation process of a sensor unit of a light distribution FDF and a network port patch panel of an intelligent network failure diagnosis system according to an embodiment of the present invention;
4 is a flowchart of an operation process when a connection error occurs in the intelligent network failure diagnosis system according to an embodiment of the present invention;

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, since the description of the present invention is merely an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiment described in the text. That is, since the embodiment is capable of various changes and may have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea. In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only such effects, it should not be understood that the scope of the present invention is limited thereby.

The meaning of the terms described in the present invention should be understood as follows.

Terms such as “first” and “second” are for distinguishing one component from another, and the scope of rights should not be limited by these terms. For example, a first component may be termed a second component, and similarly, a second component may also be termed a first component. When a component is referred to as being “connected to” another component, it may be directly connected to the other component, but it should be understood that other components may exist in between. On the other hand, when it is mentioned that a certain element is "directly connected" to another element, it should be understood that the other element does not exist in the middle. Meanwhile, other expressions describing the relationship between elements, that is, "between" and "between" or "neighboring to" and "directly adjacent to", etc., should be interpreted similarly.

The singular expression is to be understood to include the plural expression unless the context clearly dictates otherwise, and terms such as "comprise" or "have" are not intended to refer to the specified feature, number, step, action, component, part or any of them. It is intended to indicate that a combination exists, and it should be understood that it does not preclude the possibility of the existence or addition of one or more other features or numbers, steps, operations, components, parts, or combinations thereof.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless otherwise defined. Terms defined in general used in the dictionary should be interpreted as having the same meaning in the context of the related art, and cannot be interpreted as having an ideal or excessively formal meaning unless explicitly defined in the present invention.

As shown in FIG. 1, the intelligent network failure diagnosis system according to an embodiment of the present invention includes one or more optical distribution FDFs 10, one or more network port patch panels 20, a main controller 30, It is composed of an administrator server and a PC (40).

The light distribution FDF 10 of the present invention includes one or more cable ports 11 and a sensor unit 12 and an LED light 13 of the sensor unit integrally.

The light distribution FDF 10 is integrally formed including the sensor unit 12, unlike a general FDF, and an LED light 13 is disposed at the top of each cable port 11 .

In one embodiment, the sensor unit 12 of the optical distribution FDF 10 always checks whether an optical cable is connected to each cable port using an ultrasonic sensing method or a similar optical cable connection testing method, and whether it is actually being used for communication. In addition, if the cable port 11 and the optical cable used for communication are maintaining a normal connection state, if a physical or technical problem occurs in the optical cable connection, it is detected and transmitted to the main control device 30 connected through wired or wireless communication. do.

In one embodiment, the sensor unit 12 of the light distribution FDF 10 operates the LED light 13 disposed on each cable port 11 in the above process, as shown in FIG. 3 . Visually indicate the status of the cable port 11 . In more detail, the sensor unit 12 first checks whether the optical cable of the cable port 11 is connected (S200); and the step of checking whether the corresponding cable port 11 and the optical cable are actually used for communication (S210) ); determines the ON/OFF of the LED light 13 through. And when the connection between the cable port 11 used for communication and the optical cable is normal (S220); if the connection is normal, the LED light is turned on with the first color set. If there is a physical problem, such as poor contact due to impact, etc. between the cable port 11 and the optical cable, which was normally connected, or an electronic problem, such as an error in the connection partner or communication operation, there is a problem in the connection, the second color is set. LED lights are turned on for visual indication.

The network port patch panel 20 of the present invention integrally includes one or more cable ports 21 and a sensor unit 22 and an LED light 23 of the sensor unit,

The network port patch panel 20 is integrally formed including the sensor unit 22, unlike a general patch panel, and an LED light 23 is disposed at the top of each cable port 21 .

In one embodiment, the sensor unit 22 of the network port patch panel 20 uses an ultrasonic sensing method or a similar optical cable connection testing method to determine whether an optical cable is connected to each cable port 22 and, if connected, whether it is actually being used for communication. Always check In addition, if it is in use, it checks whether a normal connection state is maintained, and if there is a physical or technical problem in the optical cable connection, it is detected and transmitted to the main control device 30 connected through wired or wireless communication.

In one embodiment, the sensor unit 22 of the network port patch panel 20, as shown in FIG. 3, by operating the LED light 23 disposed on each cable port 22 in the above process, each Visually indicates the status of the cable port 21 . In more detail, the sensor unit 22 first checks whether the optical cable of the cable port 21 is connected (S200); and the step of checking whether the corresponding cable port 21 and the optical cable are actually used for communication (S210) ); determines the ON/OFF of the LED light 23 through. And if the connection is normal through the step (S220) of checking whether the connection between the cable port 21 and the optical cable used for communication is normal, the LED light 23 is turned on with the first color set. If there is a physical problem, such as poor contact due to shock, etc., to the cable port 21 and the optical cable that were normally connected, or an electronic problem such as an error in the connection partner or communication operation occurs, and there is a problem in the connection, the second color is set. The LED light 23 is turned on to visually display it.

As shown in FIG. 2 , the main control device 30 of the present invention includes a sensing unit 31 , a storage unit 32 , a communication unit 33 , an audio output unit 34 , a screen output unit 35 , and a control unit. It consists of (36).

The sensing unit 31 of the main control device 30 according to an embodiment is a signal transmitted from the optical distribution FDF 10 and the sensor units 12 and 22 of the network patch panel 20 connected through wired or wireless communication. Detects the connection status of the cable ports (11, 21). The storage unit 32 stores connection partner information of each cable port 11 and 21 and communication network installation and operation information in an identifiable state. The communication unit 33 includes wired or wireless communication between the sensor units 12 and 22 of the optical distribution FDF 10 and the network port patch panel 20 connected to the main control unit 30, the main control unit 30 and the manager server and a wired or wireless communication function of the PC 40 . The audio output unit 34 operates so that when the main control device 30 detects a connection abnormality between the optical distribution FDF 10 and the respective cable ports 11 and 21 of the network patch panel 20, a warning sound is generated by voice. do. The screen output unit 35 performs a function of outputting information collected or input from the other components to the monitor of the main control device. The control unit 36 controls the components and performs a function of determining whether the connection state is abnormal from the connection state detection result.

The intelligent network failure diagnosis system having the configuration as described above identifies and stores each cable port 11 and 21 of the network port patch panel 20 in the main control device 30 when initially installed in a server room or computer room, and stores each Designate and save the IP setting value of the cable ports (11, 21). In addition, when connecting an optical cable, input and store connection work information and connected information, and through the main control device 30, the corresponding cable ports 11 and 21 are set to which IP, and the user connected to the corresponding cable ports 11 and 21 And it becomes possible to always grasp the work items. Through this, when optical cable replacement work or cable port change work is required for the computer room or server room manager, the cable port 11, 21 can be easily identified and it is possible to work

The intelligent network failure diagnosis system having the configuration as described above operates as shown in FIG. 4 when a connection error occurs. When the sensor units 12 and 22 detect a connection abnormality, the LED lights 13 and 23 are turned on in a set second color, and a connection abnormality detection signal is transmitted to the main control device 30 connected by wireless or wired communication. The main control device 30 receives and recognizes the connection abnormality detection signal, notifies the server room or computer room manager with a warning sound, and displays information on the cable ports 11 and 21 that detects the connection abnormality on the screen. In addition, it reports that a connection error has occurred to the manager server and the PC 40 connected through wireless or wired communication. Through this, the computer room or server room manager can easily identify which cable port (11, 21) has an error, helps to take action to solve the connection error, and quickly informs the other party that the connection error has occurred. .

The intelligent network failure diagnosis system having the configuration as described above includes a physical security function. When a connection is requested by an IP that is not stored in the main control device 30 or cannot be identified, or when a connection is requested, the control unit 36 of the main control device 30 blocks it, thereby improving security.

The intelligent network failure diagnosis system having the configuration as described above uses a patch standard type patch cord, and works in the control unit 36 based on the job information stored in the storage unit 32 of the main control unit 30 . It provides an easy environment for network equipment management and operator work by creating progress and work orders.

The light distribution FDF 10 and the network port patch panel 20 of the intelligent network failure diagnosis system having the configuration as described above are integrally formed with the sensor unit. Therefore, it can be said that the cost-effectiveness and productivity are superior to the existing detachable cable sensor, which had to be purchased after confirming the appropriate size and conforming to the specifications of the network equipment, stable communication with the main control unit is possible, and the durability is excellent.

Above, the embodiment of the present invention is not implemented only through the above-described apparatus and/or operation method, but through a program for realizing a function corresponding to the configuration of the embodiment of the present invention, a recording medium in which the program is recorded, etc. It may be implemented, and such an implementation can be easily implemented by an expert in the technical field to which the present invention pertains from the description of the above-described embodiments. Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improved forms of the present invention are also provided by those skilled in the art using the basic concept of the present invention as defined in the following claims. is within the scope of the right.

The intelligent network failure diagnosis system according to the present invention will be said to be a design with industrial applicability because it is possible to repeatedly manufacture the same product in the general network equipment manufacturing industry.

10: Fiber distribution FDF 11: Cable port
12: sensor unit 13: LED light
20: network port patch panel 21: cable port
22: sensor unit 23: LED light
30: main control device 31: sensing unit
32: storage unit 33: communication unit
34: audio output unit 35: screen output unit
36: control unit 40: administrator and PC server

Claims (9)

In a computer room or server room where network devices are placed,
One or more optical distribution FDF (10) formed with one or more cable ports (11);
One or more cable ports 21 are formed at least one network port patch panel 20;
Main control for checking the connection status of each cable port 11 and 21 of the optical distribution FDF 10 and the network port patch panel 20 and storing the connection partner of each cable port 11 and 21 and the work record device 30;
and an administrator server and a PC 40,
The light distribution FDF 10 and the network port patch panel 20 are formed integrally with the sensor units 12 and 22, respectively,
The sensor units 12 and 22 integrally form an LED light on each cable port 11 and 21 , and the optical cable of each cable port of the optical distribution FDF 10 and the network port patch panel 20 being used. Diagnose the connection status with
The main control device 30, the light distribution FDF (10) and the network port patch panel (20) of the sensor unit (12, 22) receiving the signals of the sensing unit 31 for detecting the connection state of the cable port, The optical distribution FDF 10 and each of the optical distribution FDF 10 and the network port patch panel 20 are connected to the cable ports 11 and 21 and a storage unit 32 for storing the work records in an identifiable state, the light distribution FDF 10 ) and the network port patch panel 20, the connection status of each cable port 11, 21, and the screen output unit 33 showing the work information and the connection partner information on the screen to the user, the optical distribution FDF (10) and the network When the connection state of each cable port 11, 21 of the port patch panel 20 is abnormal, the voice output unit 34 notifies by voice, the optical distribution FDF 10, and the sensor unit of the network port patch panel 20 (12, 22) communicates with wire or wireless, and controls and connects the communication unit 35 that communicates wired or wirelessly with the manager server and the PC 40, the sensing unit, the storage unit, the screen output unit, the voice output unit, and the communication unit. a control unit 36 for determining a condition abnormal;
Based on the work information stored in the storage unit 32 of the main control device 30, the control unit 36 writes the work progress and work instructions,
When access to an IP that is not stored in the main control unit 30 or cannot be identified or a connection is requested, the control unit 36 of the main control unit 30 blocks the connection,
If a connection error occurs between the cable ports (11, 21) and the optical cable,
The sensor unit 12,22 detects a connection abnormality and transmits a connection abnormality signal to the main control device 30, the sensor unit 12,22 operates the LED light in a set second color, and the main control unit (30) recognizes the abnormality, the main control device 30 outputs a warning sound, outputs the cable ports 11 and 21 where the connection abnormality occurred on the screen, and the connection abnormality to the administrator server and the PC 40 Intelligent network failure diagnosis system, characterized in that it operates in a way that reports that it has occurred delete delete delete delete delete delete delete delete

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