KR101357900B1 - Network cable and infra-structure intelligent management system and method thereof - Google Patents

Abstract

An intelligent network cable management system and management method are disclosed. In one aspect, an intelligent network cable management system includes network equipment installed in a rack, wherein each of the network equipment has a plurality of communication ports, attached to each, and using a photo sensor. N (patch panel) N (N is an integer of 1 or more) patch panel to check whether the communication connector of each of the plurality of communication ports; A local management unit managing information on each of the N patch panel units and collecting network cable connection information by scanning the N patch panel units; And a communication unit for transmitting the collected information to a central server at a remote location and transferring the information received from the central server to the local management unit.

Description

Intelligent Integrated Management System and Management of Network Cables and Infrastructure {NETWORK CABLE AND INFRA-STRUCTURE INTELLIGENT MANAGEMENT SYSTEM AND METHOD THEREOF}

The present invention relates to network cable management, power, temperature / humidity / leakage and infrastructure management in a computer room connected to network equipment in a computer room, and to an intelligent integrated management system and management method.

Patch panel systems are known as devices for managing the cabling relationships between network equipment in an enterprise or data center.

Prior art 1 related to network cable management is disclosed in Korean Patent Laid-Open Publication No. 10-2006-0130517, title: Method and Apparatus for Monitoring Physical Network Topology Information.

Prior art 2 has published patent publication 10-2011-0110170, titled the invention: patch cord with insertion detection and light illumination functions.

Prior art 3 is disclosed in Korean Patent Laid-Open Publication No. 10-2011-0127213, titled Cross-Connect Patch Guidance System.

Prior art 4 is disclosed in Korean Patent Laid-Open Publication No. 10-2011-0094011, titled Intelligent Patching System.

The prior arts 1 disclose a method and apparatus for monitoring a physical topology of a network.

In addition, the prior arts 2 and 4 propose a method for providing a special patch cord and plug, guiding a process for connecting and disconnecting the patch cord plug, and a method for monitoring patch cord connection.

In addition, prior art 3 discloses a system for guiding patch cord installation and removal in a cross-connect environment.

However, the prior arts do not provide extensibility and compatibility because they use special patch cords, patch cord plugs, and patch panels. That is, the conventional techniques are unreasonable to apply to various environments in which the network equipment is installed.

In addition, the prior art is not compatible between the other models, because it is composed of a single unit, causing a breakdown or failure of the network when replacing the product due to the problem of the product, there is a disadvantage that must replace the entire product when replacing.

In addition, the prior art has a disadvantage that the system for network cable management can only manually check the cable connection state as a dummy type. In addition, the prior art does not provide a method for integrated management because the cable management system and the infrastructure management system of the computer room are completely separated.

In addition, the conventional techniques have a problem that the management and maintenance of the patch panel is not easy. In addition, according to the prior arts, network resource management is difficult to perform intelligently, there is a limit to provide all the status information in real time to the manager or operator.

Republic of Korea Patent Publication No. 10-2006-0130517, "Name of the invention: Method and apparatus for monitoring physical network topology information" Republic of Korea Patent Application Publication No. 10-2011-0110170, "Name of the invention: Patch cord with insertion detection and light illumination function" Republic of Korea Patent Publication No. 10-2011-0127213, "Name of the invention: cross-connect patch guide system" Republic of Korea Patent Publication No. 10-2011-0094011, "Name of the invention: intelligent patching system"

It is an object of the present invention to provide an intelligent network cable management system and management method capable of upgrading an existing cable management system to an intelligent system without structural changes of the existing cable management system.

It is also an object of the present invention to provide a method capable of intelligent integrated management of network cables and infrastructure.

It is also an object of the present invention to provide a system that is easy to work, minimizes installation costs, and is easy to maintain when upgrading the infrastructure in the computer room as well as cable management.

In addition, an object of the present invention provides an environment capable of interworking with a mobile terminal, intelligent integrated management system of the network cable and computer room infrastructure that can minimize the minimum cost, accurate work and time saving when the cable MAC (Move Add Change) work and It is to provide a management method.

It is also an object of the present invention to provide an intelligent integrated management system and management method for network cable and computer room infrastructure with enhanced security and power saving functions.

It is also an object of the present invention to provide an intelligent integrated management system and management method for a network cable and a computer room infrastructure with enhanced convenience and adaptive monitoring of equipment constituting the cable management and computer room infrastructure.

 In one aspect, an intelligent integrated management system of an intelligent network cable and a computer room infrastructure is attached to each of the network equipment installed in a rack, wherein each of the network equipment has a plurality of communication ports. N patch panel units (N is an integer of 1 or more) for checking whether a communication connector of each of the plurality of communication ports is inserted using a photo sensor; A local management unit managing information on each of the N patch panel units and collecting network cable connection information by scanning the N patch panel units; And a communication unit for transmitting the collected information to a central server at a remote location and transferring the information received from the central server to the local management unit.

In one aspect, a method of operating a patch panel unit in an intelligent integrated management system of a network cable and a computer room infrastructure may include network devices installed in a rack, wherein each of the network devices includes a plurality of communication ports. Checking whether a communication connector of each of the plurality of communication ports is inserted; Storing information on whether the communication connector is inserted in a local memory; If activation of the control key is detected, analyzing the input key value and displaying information corresponding to the analysis result; And when a message is received from a local management unit, transmitting the information stored in the local memory to the local management unit or downloading the information received from the local management unit to the local memory, wherein displaying the information comprises: a communication port. And displaying port connection information of the corresponding patch panel portion of the communication connector inserted into the communication connector.

In one aspect, a method of operating a local management unit in an intelligent integrated management system of a network cable and a computer room infrastructure includes: network equipment installed in a rack, wherein each of the network equipment includes a plurality of communication ports; Collecting network cable connection information of N patch panels (N is an integer of 1 or more) attached to the plurality of patch panels; Storing the collected network cable connection information; If a key of an input unit for menu selection and command input is activated, analyzing the input key value and performing an operation corresponding to the analysis result or displaying information corresponding to the analysis result; And when the message is received from the central server, transmitting the stored information to the central server or storing the information received from the central server, and transmitting the information received from the central server to the patch panel unit. Performing an operation corresponding to the analysis result or displaying information corresponding to the analysis result includes at least one of display of a menu, display of inquiry information, system initialization, rack information display, and connection information display of a port.

In one aspect, a method of operating a central server in an intelligent integrated management system of a network cable and a computer room infrastructure includes: network equipment installed in a rack from a local management unit, wherein each of the network equipment has a plurality of communication ports; Receiving each network cable connection information and status information of a patch panel unit; Storing the information received from the local management unit; Analyzing the input requirements and performing an operation corresponding to the analysis result or outputting information corresponding to the analysis result when a requirement of the manager is generated; And providing a user interface for querying information about the patch panel unit and the local management unit to the mobile terminal or the wired terminal when a connection of the mobile terminal or the wired terminal is requested.

According to the present invention, it is possible to upgrade the existing cable management system to an intelligent system without structural changes of the existing cable management system.

In addition, when upgrading network cabling or computer infrastructure management systems, installation costs can be minimized and easy to maintain.

In addition, it provides an environment capable of interworking with the mobile terminal, it is possible to minimize the cost, accurate work and time saving when the cable MAC (Move Add Change) work.

In addition, an intelligent network cable management system with enhanced security and power saving features prevents unauthorized intrusion and saves power through remote control.

In addition, the equipment and the adaptive monitoring function of the equipment constituting the cable management and intelligent integrated management system is enhanced.

In addition, unlike the prior art, it is compatible with other models, and because it is configured in a modular form, there is an advantage that can replace the product, without disconnection or failure of the network when the product exchange due to the problem of the product.

According to the intelligent integrated management system according to the present invention, it is possible to collect the basic data in the computer room, and to monitor the communication resources (for example, cable usage and equipment operating status), etc., thereby efficiently managing computer assets. There is an advantage to it.

1 is a diagram illustrating an environment to which an intelligent integrated management system of a network cable and a computer room infrastructure according to an exemplary embodiment of the present invention is applied.
2 is a diagram illustrating an intelligent integrated management system of a network cable and a computer room infrastructure, according to an exemplary embodiment.
3 is a diagram illustrating an internal configuration of a patch panel unit according to an exemplary embodiment.
4 is a view illustrating an appearance configuration of a patch panel unit according to an exemplary embodiment.
5 illustrates a display example of a patch panel display unit according to an exemplary embodiment.
6 shows another display example of the patch panel unit display unit.
7 is a block diagram illustrating a patch panel unit according to an exemplary embodiment.
8 is an exemplary diagram for describing a process of installing a patch panel unit according to an exemplary embodiment.
9 is a block diagram illustrating a configuration of a local manager according to an exemplary embodiment.
10 is a diagram illustrating an appearance configuration of a local management unit according to an exemplary embodiment.
FIG. 11 is a view illustrating an appearance configuration of a local management unit according to another exemplary embodiment; FIG.
12 is a diagram for describing a method of operating a patch panel unit, according to an exemplary embodiment.
13 is a diagram for describing a method of operating a local manager according to an exemplary embodiment.
14 is a diagram illustrating a method of operating an intelligent integrated management system of a network cable and a computer room infrastructure, according to an exemplary embodiment.
FIG. 15 illustrates an embodiment of a patch panel in which a UTP port and a Fiber Optic port are mixed.
16 is a diagram illustrating a configuration example of an RPCS according to an embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an environment to which an intelligent integrated management system of a network cable and a computer room infrastructure according to an exemplary embodiment of the present invention is applied.

Referring to FIG. 1, the intelligent integrated management system of the network cable and the computer room infrastructure according to an embodiment may be applied to the network cable management and the intelligent integrated system of the computer room infrastructure of an enterprise, a public office, and a data center.

In addition, the intelligent integrated management system of the network cable and the computer room infrastructure according to an embodiment can be integrated and manage and monitor all the infrastructure and the current status of the computer room in the concept of End to Start.

For example, a QR code is assigned to each device in the computer room, and End to Start information may be provided by detecting the QR code. At this time, each of the cables connected to the QR code communication port may be inserted in the form of a label.

Various network equipment in the data center may be mounted in racks 110, 120, and 130. For example, the rack 110 is equipped with a plurality of network equipment, the intelligent management system of the cable management and computer infrastructure infrastructure and network equipment (eg, RPCS, CCTV management equipment, temperature / humidity / leakage management) and It may be provided in the rack 110 together.

In the past, the cable was identified by attaching a label to the cable, so when anyone saw the label, there was a security vulnerability that anyone could know the cable connection information. This can also increase security. At this time, the use authority and range may be set according to the level of the administrator, or may be used for system integration management by database necessary information.

Cables connecting network devices may be cross-connected between the racks 110 and 120 to be connected to the management server. In addition, the cable may be installed in the form of direct connection (direct connection) between the rack 130 and the management server.

In the example of FIG. 1, reference numeral 101 may be an administrator computer or a user terminal managing a data center. In addition, reference numeral 140 may be a central server that manages an intelligent network cable management system. In this case, the central server may be provided in a data center or a building, or may be installed in a network management service company at a remote location.

The purpose of the installation of an intelligent integrated management system for network cabling and computer infrastructure is, for example, to monitor network cabling in real time, to monitor the status of all resources in the computer room, and to manage when a cable adds a MAC (Move Add Chang). And to provide optimum efficiency.

In addition, the intelligent integrated management system of the network cable and the computer room infrastructure can perform a function of software management of information on each communication port when a problem of cabling system occurs. In this case, the software management may include remote monitoring / management, operation instruction, and operation status monitoring.

Hereinafter, specific configurations and operations of an intelligent integrated management system of a network cable and a computer room infrastructure will be described with reference to the accompanying drawings.

2 is a diagram illustrating an intelligent integrated management system of a network cable and a computer room infrastructure, according to an exemplary embodiment.

Referring to FIG. 2, an intelligent integrated management system of a network cable and a computer room infrastructure according to an embodiment includes patch panels 210 and a local manager 220. The local manager 220 may be connected to the central server 230 through a communication network (eg, a TCP / IP network).

In addition, the integrated management system includes a block 222 for checking temperature, humidity and leakage around a computer room or equipment, a block 224 for CCTV management, and blocks 225 and 226 for detecting and checking a fiber distribution. It may further include.

2 shows an example in which 40 patch panel parts 211, 212, 213, 214, 215, and 216 are provided in total.

When N network equipment (N is an integer of 1 or more) is provided in one rack, the patch panel unit 210 may be provided in each of the N network equipment. That is, N patch panel units may be provided in one rack.

Each of the network devices has a plurality of communication ports. For example, the network equipment may have 6 port x 4set = 24 communication ports.

On the other hand, the local manager 220 may be provided for each rack. Therefore, when three racks are provided in the data center, a total of three local management units 220 may be provided.

In this case, each of the N patch panel units may be identified by an identifier or a product serial number. Of course, the plurality of local management units may also be identified by identifier or product serial number.

The patch panel parts 211, 212, 213, 214, 215, and 216 are attached to each of the network equipment installed in the rack, and check whether the communication connector of each of the plurality of communication ports is inserted. In this case, whether the communication connector is inserted may be checked using a photo sensor.

The communication connector may be, for example, an RJ connector or a Fiber Optic connector, which is a standard connector used to connect wiring. RJ-11, RJ-12, RJ-45, etc. may be used as the RJ connector, and LC, SC, MTRJ, ST, etc. may be used as the optical connector.

In the example shown in FIG. 2, 20 patch panel portions 211, 212, 213 are connected in series, and the patch panel portion 213 can be connected to the local management unit 220 via RS-485, 422 cable. have.

Similarly, the other 20 patch panel portions 214, 215, and 216 may be connected in series with each other, and the patch panel portion 213 may be connected to the local manager 220 through RS-485 and 422 cables. Of course, unlike the illustrated in FIG. 2, each of the N patch panel units may be directly connected to the local manager 220.

The patch panel parts 211, 212, 213, 214, 215, and 216 may be used to detect and manage the level (eg, dB value) of a fiber optic port. At this time, it is also possible to check whether the line is normal or disconnected by measuring the power level of the optical fiber port.

Therefore, the embodiment of the present invention has an advantage in that it is possible to collect and manage accurate usage data of the fiber optic cable, unlike the "previous technology that can be managed by using only a port number in the case of fiber optics." .

In this case, when detecting and managing a fiber optic port, power may be supplied from a separate power source without receiving power from the local management unit 220 to prevent excessive power usage.

The local manager 220 manages information on each of the N patch panel units, and collects network cable connection information by scanning the N patch panel units.

The local management unit 220 may include a cable tester 221 and a Remote Power Control System (RPCS) 223 for remote power management of network equipment connected to the rack.

The local management unit 220 may further include a communication unit (not shown) for transmitting the collected information to a central server at a remote location and transferring the information received from the central server to a corresponding patch panel unit.

At this time, the communication unit may be provided in a separate configuration from the local management unit 220.

The local manager 220 may receive job information performed in the N patch panel units from the central server 230, and control the N patch panel units according to the job information.

For example, when the local manager 220 receives a work instruction for changing a connection of a specific port, the local manager 220 searches for a patch panel unit to which a specific port belongs, controls to display a specific display unit of the detected patch panel unit, or to display a patch panel unit. You can control the work order to be displayed in.

In addition, the local manager 220 may display the work instruction received from the central server 230 on a display provided in the local manager 220 in response to an input of a specific key (for example, confirmation of a work instruction). There is also.

The central server 230 provides a user interface for inquiring information about the N patch panel units and the local management unit 220, manages the cable connection history of each of the plurality of communication ports provided in the network equipment, and Manage network resources of network devices.

The central server 230 may further include a mobile device interface 233 for interworking with the mobile device 241 (eg, smartphone, tablet PC, laptop).

For example, the mobile device interface 233 may transmit and receive data to and from the central server by accessing the mobile device interface 233 through WiFi or wide area network.

In addition, the central server 230 may further include a peripheral device connection unit 231 for interworking with peripheral devices 243 and 245 such as a personal computer and a printer.

The central server 230 may further provide various functions for achieving the object of the present invention. Various functions provided by the central server 230 will be described later.

As shown in FIG. 2, a configuration in which N patch panels are divided into 20 units and connected to the local management unit 220 using RS-485 or 422 cables may provide scalability by dividing 20 units by scanning or installing them. Can be.

3 is a diagram illustrating an internal configuration of a patch panel unit according to an exemplary embodiment.

The internal PCB 300 of the patch panel portion may include a display 310 and tack swiths 321, 323, 325, 341, 342, 343, 344, 345, and 346, and each of the tack swiths 321, 323, 325, 341, 342, 343, 344, 345, and 346 may be connected to a membrane numbering keypad indicated by reference numeral 330.

In this case, the internal PCB 300 of the patch panel unit may further include photo sensors for detecting a connection of the communication connector to the communication ports 370 and 380.

At this time, the photosensors are 6x1 form 6 sensors are provided on one PCB, 8x1 form 8 sensors are provided on one PCB, 24x1 form 24 sensors are provided on one PCB according to the configuration of the communication port It can have various structures.

In this case, the photo sensor may be provided in the form of being connected to the internal PCB 300, as shown by reference numeral 395, or may be provided in the form of being connected to the lower portions of the communication ports (370, 380), such as reference numerals 391 and 393.

The internal PCB 300 of the patch panel unit may further include a data and power connector 350, and the data and power connector 350 may be connected to a local management unit through a cable 360.

4 is a view illustrating an appearance configuration of a patch panel unit according to an exemplary embodiment.

Referring to FIG. 4, the patch panel unit 420 may be of a type attached to the network equipment 410.

Accordingly, the patch panel unit 420 may be attached to the network device 410 without changing the structure of the network device 410 previously installed.

That is, the support plate (body) of the patch panel unit 420 may be attached to the network equipment 410 even while the cable connection of the network equipment 420 is maintained.

In particular, the fastening portions 441 and 443 of the patch panel 420 may be flexibly designed to be mounted on various network equipment models, and thus may have high compatibility.

The patch panel unit 420 may be composed of a plurality of modules 401, 403, 405, and 407.

Each of the modules 401, 403, 405, and 407 may be attached or detached even when the patch panel unit 420 is attached to the network device 410. Therefore, the patch panel unit 420 is easy to maintain, since only a module in which a specific photo sensor is defective or an LED or an inspection switch has an error can be replaced.

The module 401 may include six LED lamps 421a, 421b, 421c, 421d, 421e, and 421f, six check switches 423, and six connector detectors 425.

Each of the check switches 423 may be marked with a port number. For example, when 24 check switches are provided to correspond to each of the 24 ports, numbers 1 to 24 may be displayed on the check switches.

Functions of the check switch and the connector detector will be described in detail with reference to FIG. 5.

The module 407 may have a different shape from other modules 401, 403, and 405 in consideration of the location where the LCD display is provided.

Referring back to FIG. 4, the connector detecting units and the check switches are composed of a plurality of module types 401, 403, 405, and 407, each of the plurality of module types being formed to be detachably attached to a support plate, and the support. The plate may be attached to the network equipment while the cable connection of the network equipment is maintained.

The patch panel unit 420 may include a display unit 430, and various configuration examples of the display unit 430 will be described in detail below.

5 illustrates a display example of a patch panel display unit according to an exemplary embodiment. 6 shows another display example of the patch panel display unit.

5 illustrates a cross connection type in which a cable is connected between patch panels 510, 520, and 530, and a cable is connected to network equipment 540 through the patch panel.

In this case, it is assumed that the RACK / ID of the first patch panel 510 is HK09 and the Patch Number is 01. It is assumed that the RACK / ID of the second patch panel 520 is HK10 and the patch number is 01. It is assumed that the RACK ID of the third patch panel 530 is TCL10 and the patch number is 25.

The display unit of the patch panel unit may be configured of, for example, a 12 byte LCD panel. In this case, the display unit of the patch panel unit displays the first part 531 which displays the partner Rack ID or the equipment name to which the cable is connected, the second part 533 which displays the partner patch number or the equipment name, and the partner port number or the slot number. It may include a third portion 535.

At this time, for example, when the Tack switch corresponding to the fourth port of the first patch panel 510 is turned on, the display unit 511 displays information about the sixth port of the second patch panel 520 as shown in (A). Can be displayed.

In addition, when the tack switch corresponding to the port 6 of the second patch panel 520 is turned on, the display unit 521 is No. 4 of the first patch panel 510 which is a counter patch panel to which a cable is connected as shown in (B). Information about the port can be displayed.

Similarly, (C) shows an example in which the opposite patch panel connected to port 10 of the first patch panel 510 and port information are displayed, and (D) shows the opposite patch panel connected to port 12 of the third patch panel 530. And an example in which port information is displayed.

6 shows an example of a display of a direct connection type in which a patch panel is directly connected to a network device.

6E shows an example in which the corresponding port is connected to the "01" slot of the device called "TCI5F", and (F) shows an example in which the corresponding port is connected to the "37" slot of the device called "TCI5F". (G) shows an example in which the corresponding port is connected to the patch panel "01" of the device named "TCIMAI" and the port information is "20".

Detailed implementation of the display unit described above may be provided in various ways according to the user's request.

7 is a block diagram illustrating a patch panel unit according to an exemplary embodiment.

Referring to FIG. 7, the patch panel unit 700 may include a connector detecting unit 710, inspection switches 720, a display unit 730, a control unit 740, and a patch communication unit 750.

The connector detector 710 may be provided in plural numbers according to the number of ports of the network equipment. That is, FIG. 5 illustrates only one connector detector 710 for convenience of description, but a plurality of connector detectors 710 are provided. For convenience of explanation, the following description will focus on the operation of one connector detector.

The connector detecting unit 710 includes a photo sensor for detecting a cable connection state of the communication port by using the light and the reflected light irradiated to the communication connector insertion unit of the communication port.

Accordingly, the plurality of connector detectors include a plurality of photo sensors that detect a cable connection state of each of the plurality of communication ports by using the light and the reflected light irradiated to the communication connector insertion portion of each of the plurality of communication ports.

The connector detector 710 may include a light emitter 711 for irradiating light such as a laser and a light receiver 713 for receiving reflected light of the irradiated light.

For example, the port connection portion b of the RJ-45 717 is inserted into the communication port, and the connector body b is exposed to the outside even when inserted into the communication port. This example may be represented as a circle portion shown in FIG.

In this case, the light irradiated from the light irradiator 711 may be reflected by the connector body b, and the reflected light may be detected by the light receiver 713.

Since the communication port to which the communication connector is not connected has no reflected light detected by the light receiving unit 713, the patch panel unit 700 may determine that the communication connector is not connected to the corresponding port.

As such, the connector detecting unit 710 according to the embodiment of the present invention is configured to detect whether the communication connector is inserted in a state in which a special jack (for example, a connector having a physical insertion hole separately) is not used.

Therefore, according to the embodiment of the present invention, it is possible to upgrade to the intelligent cable management system without replacing the pre-installed cabling.

The check switches 720 call port connection information of the corresponding patch panel portion of the communication connector inserted into the communication port. That is, when the check switch corresponding to the port to which the communication connector is connected is pressed, the controller 740 may display port connection information of the corresponding patch panel unit to which the opposite communication connector is connected on the display unit 730.

For example, the first port of IPS # 1 211 shown in FIG. 2 (actually, the first communication port of the network equipment equipped with IPS # 1) and the second port of IPS # 22 215 ( In practice, it is assumed that the cable is the second communication port of a network device equipped with IPS # 22.

At this time, when the check switch (for example, any one of 423 of FIG. 4) directly above the first port of the IPS # 1 211 is pressed, information about the second port of the IPS # 22 215 is displayed. It may be displayed at 730.

As another example, the second port of IPS # 22 215 when the check switch (for example, any of the switches included in 423 of FIG. 4) directly above the first port of IPS # 1 211 is pressed. The LED on the top may blink.

In this case, when the corresponding patch panel unit is installed in a rack other than the rack in which the patch panel unit 700 is mounted, information that the corresponding patch panel unit is connected to any local management unit may be called.

The display unit 730 may display various information. For example, the display unit 730 may display at least one of identifier information of a patch panel unit, an identifier of an attached network device, and port access information.

The display unit 730 may display a simple work instruction for the patch panel unit. For example, the display unit 730 may display a new task: No. 3 to No. 12, meaning that the connector connected to port 3 is changed to port 12. FIG.

The display unit 730 may apply, for example, a 12 * 1 Character LCD.

Meanwhile, a method of connecting a patch panel to a management server (within the data center) may include a cross connection (patch to patch-management server) and a direct connection (patch to management server).

When a particular check switch of a patch panel connected by a cross connection is turned on, patch panel and port information to which the patch cord opposite the patch cord is connected can be displayed.

When a specific check switch of a patch panel connected through a direct connection is turned on, the device name (management server name), slot number, port number, etc., connected to the other side of the patch cord may be displayed.

The controller 740 may be implemented as an intelligent product including at least one processor for controlling the overall operation of the patch panel 700. Accordingly, the controller 740 may check and report the current status from time to time by itself in the installed program.

For example, the controller 740 may control the local management unit to automatically report to the central server when a specific problem occurs.

The patch communication unit 740 transmits and receives data with the local management unit. For example, the patch communication unit 740 may communicate with the local management unit through wired / wireless communication.

In addition, the patch communication unit 740 may communicate with the smart phone through wireless communication.

8 is an exemplary diagram for describing a process of installing a patch panel unit according to an exemplary embodiment.

8A illustrates a process of removing the label 810 mounted on the network device 801. Removing the label 810 may be performed while the cables 802 to 805 are connected. However, depending on the installation type or model of the label 810, it may be necessary to remove the cables 802 to 805 and to remove the label 810.

8 (b) shows a process of mounting the patch panel unit 820 according to an embodiment of the present invention.

The patch panel unit 820 may be mounted in a state in which cables 802 to 805 are connected (ie, not detaching a patch cord) regardless of the type or model of the network equipment 801.

FIG. 8C illustrates a result in which the patch panel 820 is mounted on the network device 801.

In this case, when a specific confirmation key is provided in the patch panel unit 820, it is also possible to simply confirm the mounting result by pressing only the confirmation key to display only the port number to which the connector is currently connected. For example, when “6/12/18/24” is displayed on the display when the confirmation key is input in FIG. 8C, the operator may confirm that the operator is normally mounted.

Thus, using the patch panel unit according to an embodiment of the present invention, it is possible to simply upgrade to an intelligent cable management system.

9 is a block diagram illustrating a configuration of a local manager according to an exemplary embodiment.

9, the local manager 900 includes a controller 910, a display 920, an alarm 930, a communication interface 940, an input unit 950, a remote controller (PRMS) 960, and the like. The cable test unit 970 is included.

The controller 910 manages scan schedules and network cable connection information for each of the N patch panel units.

In this case, the controller 910 may transmit a scan command to the patch panel unit according to a scan schedule. The patch panel unit receiving the scan command may detect a connector connection state and report the detection result to the local management unit.

In this case, the scan schedule may be received from the central server or may be a preset scan schedule. In this case, the scan schedule may be determined in consideration of the overall connection state of the communication connector.

For example, the patch panel unit, which is determined to have a small number of communication connectors connected in the previous scan time interval, may be scanned in a lower order. In addition, the controller 910 may control to scan the cable connection state of the network equipment with the largest number of communication connectors connected first.

Further, as a variant, in consideration of the connection history of the communication connector, the scan schedule may be set to frequently scan patch panel portions connected to the network equipment with the most connector connection movements, and to patch intermittently.

As such, the controller 910 may determine the scan schedule of the N patch panel units in consideration of the number of communication connector connections or the connection history of each of the network devices.

The controller 910 may check the current state of all communication ports of the network devices installed in the rack, and display the current state of all communication ports through the display unit 920.

In this case, the total communication port status may include the total number of managed communication ports, the number of ports currently in use, the number of unused ports, the number of ports that other connectors are connected to but are not used for communication, and the like. Can be.

At this time, the entire communication port status may be displayed as follows to give a visual feedback effect.

-Normally connected port: blue color

-Both cables are connected to the port but not in use: Green color

-One side is connected and the other is not connected to the port: Red

-No cable connection and unused port status: Blue color and Blinking

The controller 910 may display the work instruction information received from the central server, compare the work instruction information with the actually performed work information, and report whether the work instruction is completed to the central server.

The controller 910 may control the alarm unit 930 to output an alarm when the work instruction does not match the actual work situation.

The display unit 920 may display information related to an operation of the local manager. The display unit 920 may be configured as, for example, the LCD window 1010 of FIG. 10 or the touch panel unit 1110 of FIG. 11.

The alarm unit 930 may display an error occurrence or an unusual matter.

For example, the alarm unit 930 may include a "Job light" indicating that a new work order has been received or a work order confirmation key has been input, a "Test light" indicating that a cable test is in progress, and power on / off. It may include a lamp for indicating the status.

That is, the alarm unit 930 may be configured as, for example, the display lamps 1030 of FIG. 10.

The communication interface unit 940 may connect the communication unit and the local manager mentioned in the description of FIG. 1. In this case, the communication interface 940 may include a plurality of LAN ports. The plurality of LAN ports may be connected to a management server or used as a port connected to another local management unit.

The input unit 950 is provided to input various menu selections and commands.

In this case, the controller 910 may control at least one of a display of a menu, a display of inquiry information, a system initialization, a rack information display, and a connection information display of a port according to a signal input through the input unit 950.

The input unit 950 may provide a button type or a touch type input means. The input unit 950 may be configured as, for example, the input panel unit 1020 of FIG. 10.

The remote controller 960 provides a remote power control and a remote closed circuit image control function.

For example, the remote control 960 can interoperate with a closed circuit system and provide a means for monitoring unauthorized user access to the data center.

In addition, power saving may be possible by remotely checking unused network equipment and performing power control.

The cable test unit 970 may provide a cable connection test function remotely. The cabling test function can be implemented in a variety of commonly used ways.

10 is a diagram illustrating an appearance configuration of a local management unit according to an exemplary embodiment.

Referring to FIG. 10, (a) shows the front face of the local manager 1000 and (b) shows the back face.

The user may select a preset key value using the input keypad 1020 or operate a cursor or the like displayed on the display 1010. For example, a command for initializing the equipment, a command for checking the temperature, humidity, CCTV connection status, and the like may also be input. In this case, the local manager 1000 may include sensors for measuring temperature and humidity of the surroundings.

For example, after entering No. 1, when the Enter key is input, a preset menu selection may be displayed, or a blanking of the LCD or a test of the patch panel may be performed.

In addition, the display 1010 may display various types of information, and some of the basic information may be displayed in a case where a key is not normally input.

Here, the basic information includes firmware / equipment version information, local management unit name, IP address, MAC address, port usage status information, and the like.

As shown in FIG. 10, the local manager may include various communication interfaces 1040, 1050, and 1060.

In this case, the communication interfaces 1040, 1050, and 1060 may be used for various purposes, such as a connection to a central server, a device for remote power control, a sensor connection, and an IP camera.

FIG. 11 is a view illustrating an appearance configuration of a local management unit according to another exemplary embodiment; FIG.

FIG. 11A illustrates an example of the front configuration of the local management unit, FIG. 11B illustrates an example of the rear configuration, and FIG. 11C illustrates an example of the configuration of the touch panel unit 1110.

Most of the configuration is similar to the external configuration illustrated in FIG. 10, but a navigation switch 1120 is provided on the front panel to operate the local management unit when foreign matter is attached to the touch panel unit 1110 and the touch panel unit 1110. It can be distinguished in that respect.

Referring to the touch panel unit 1110 shown in (C), the touch panel may be divided into an area 1113 for displaying various operation menus and an area 1135 for displaying corresponding contents according to initial information and various menu operations. Can be. For example, the area 1135 may show the current workflow.

12 is a diagram for describing a method of operating a patch panel unit, according to an exemplary embodiment.

12, in operation 1210, the patch panel unit checks whether a communication connector of each of the plurality of communication ports is inserted. That is, the patch panel unit checks whether the communication connector of each of the plurality of communication ports provided in the network equipment is inserted.

In operation 1220, the patch panel unit stores information about whether the communication connector is inserted in a local memory (inside the patch panel unit).

In operation 1230, the patch panel unit determines whether the control key is activated, and when the activation of the control key is detected, analyzes the input key value in operation 1240 and displays information corresponding to the analysis result.

Here, the control key may be, for example, the "check switches" described in FIG. Accordingly, step 1230 of displaying the information includes displaying port connection information of the corresponding patch panel portion of the communication connector inserted into the communication port.

In addition, when a specific function key (for example, a job confirmation key or a job completion key) is provided in the patch panel unit itself, information corresponding to the input key may be displayed.

In operation 1250, the patch panel determines whether a message is received from the local management unit.

If a message is received from the local manager, in operation 1260, the patch panel transmits the information stored in the local memory to the local manager or downloads the information received from the local manager to the local memory.

At this time, if a message is received from the local management unit, the patch panel unit checks the contents of the message. The message may be, for example, a port scan command, a report command, or a work instruction.

Steps 1210 to 1260 may be repeatedly performed.

13 is a diagram for describing a method of operating a local manager according to an exemplary embodiment.

Referring to FIG. 13, in operation 1310, the local management unit collects network cable connection information of a patch panel unit by transmitting a scan command.

In this case, the local management unit executes a data collection scheduler, queries the information collection target device according to the scheduler, updates network cable connection information registered in the patch panel unit according to whether the collection target device is registered, or patches The panel unit may be newly registered and network cable connection information of the newly registered patch panel unit may be stored.

The network cable connection information collected in step 1320 is stored.

In operation 1330, it is determined whether a key of an input unit for menu selection and command input is activated.

When the key of the input unit for menu selection and command input is activated, the input key value is analyzed in step 1340 and an operation corresponding to the analysis result is displayed or information corresponding to the analysis result is displayed.

At this time, according to the input key value, the local management unit may perform at least one of display of a menu, display of inquiry information, system initialization, rack information display, and connection information display of a port.

In operation 1350, it is determined whether a message is received from the central server.

When the message is received from the central server, in step 1360, the stored information is transmitted to the central server, or the information received from the central server is stored, and the information received from the central server is transmitted to the patch panel unit.

13, steps 1370 and 1380 may be performed when the remote controller 960 of FIG. 9 is provided in the local management unit. That is, steps 1370 and 1380 are steps for performing a function of the remote controller 960.

Steps 1310 to 1380 may be repeatedly performed.

14 is a diagram illustrating a method of operating an intelligent integrated management system of a network cable and a computer room infrastructure, according to an exemplary embodiment.

The central server can receive network equipment installed in a rack from a local management unit, where each of the network devices has a plurality of communication ports, and receives respective network cable connection information and status information of a patch panel unit. Can be.

At this time, the central server may receive network cable connection information and status information of the patch panel through the local management unit.

The central server can database the collected information. The database can store information by rack, by local management, and by patch panel.

When the administrator's requirements are generated, the central server may analyze the input requirements, perform an operation corresponding to the analysis result, or output information corresponding to the analysis result.

At this time, the requirements of the manager may include a work instruction. The central server may determine the work target local manager and transmit the work target communication port information to the work target local manager.

In addition, the central server may provide the mobile terminal with information received from the work target local manager in real time. This allows the workers in the field to check the work results or work errors in real time through the mobile terminal.

In addition, when a connection of a mobile terminal or a wired terminal is requested, the central server may provide a user interface for querying information about the patch panel unit and the local management unit to the mobile terminal or the wired terminal.

Referring to FIG. 14, a user interface (UI) may be included in a screen configuration of an application installed in a smart phone or a web page connected through a notebook or personal PC.

In step 1410, information about the new local management unit may be registered through the UI.

In this case, the new local management unit means a local management unit that is first installed or replaced in a rack. The information about the local management unit may include an identifier of an installed data center, installed rack information, a model name, a serial number, and the like.

In operation 1420, the information about the local management unit may be transmitted to a web server connected to the central server. The web server inserts the information about the local manager received in step 1430 into the database. The database notifies the web server of the result of the insert processing in step 1440.

In operation 1450, the web server may inform the access terminal of the registration processing result of the local management unit through the UI.

That is, in steps 1410 to 1450, the central server or the system connected to the central server receives a request for information registration of the local management unit through a user interface, stores the information of the local management unit in a database according to the received information, and requests the information registration. The response message may be transmitted to the mobile terminal or the wired terminal.

In this case, the central server may provide the work target local manager and the work target communication port information to the mobile terminal or the wired terminal through a user interface.

Step 1460 illustrates a process of receiving and processing network cable connection information and status information of a patch panel.

In step 1461, the central server may select a local management unit for data collection. In other words, the central server may inquire from the database of the administrator's input or the data management target local management unit periodically.

In step 1462, the database returns a list of equipment to be collected to the central server.

In step 1463, the central server transmits a specific command (for example, a scan command, a job command) for the inquired device to the local management unit. That is, in operation 1463, the central server may transmit a data inquiry command to the selected local management unit.

In this case, SNMP (Simple Network Management Protocol) may be used for communication between the central server and the local management unit. Of course, SNMP can also be used between the local management unit and the patch panel unit.

Therefore, the data returned from the local management unit to the central server may be, for example, MIB (Management Information Base) data.

Herein, the MIB will be described in detail.

The exchange of specific information between the manager and the agent is the basis of network management. Specific information and resources to be managed are called objects. The collection of these objects is called a MIB.

Managing the network is to get a specific value from the MIB provided by the devices under management-not only hosts such as workstations, printers / file servers, but also communication devices such as hubs, routers, switches, etc. It may be to change.

In step 1464, the local manager may transmit MIB data including the collected information to the central server.

In step 1465, the central server may update the information or insert new information by reflecting the information received from the local management unit in the database.

In operation 1460, the central server may receive the inquiry result data corresponding to the data inquiry command and update the information on the patch panel unit belonging to the local management unit by reflecting the received data in the database.

Steps 1470 to 1497 represent a process of inquiring information through the UI.

In operation 1470, the mobile terminal may input information inquiry about a specific patch panel unit or a local manager through the UI.

In step 1480, the information inquiry request is transmitted to the web server, and in step 1490, the web server may request inquiry of the device information stored in the database.

In operation 1495, the database returns the inquired information to the web server, and in operation 1497, the web server may display the inquired information through the UI.

Therefore, according to an embodiment of the present invention, the worker may perform information inquiry on the equipment at any time even in a mobile environment, or check a work instruction. Through such a work procedure, work orders, work history, work progress, and the like may be reported, and thus, installation and maintenance costs can be reduced to a minimum time through a simulation test during a MAC (move add change). Depending on the data entry in the work procedure, the cable type, patch panel, manufacturer, year of installation and maintenance company can be accurately managed.

The communication in steps 1470 to 1497 may be considered security by using an encryption protocol.

2 and 12 to 14, it is possible to collect the system log (log) for the computer infrastructure infrastructure in real time, through which the use of devices connected to the network, such as equipment, servers, PCs, and End to start Accurately understand the components as well as the current state of the infrastructure. Therefore, the proposed system can be applied to generate alarms and to prevent various accidents under the control of the central server or the local management unit.

In addition, it can be applied to track or manage the details of the device's MAC address, IP address, user information, etc. according to the purpose of operating the system.

FIG. 15 illustrates an embodiment of a patch panel in which a UTP port and a Fiber Optic port are mixed.

Referring to FIG. 15, the communication port may include at least one UTP jack and at least one Fiber Optic coupler.

Since each communication port is modular, the number of UTP ports and Fiber Optic ports can be adjusted according to the equipment status or user requirements.

For example, when the portion 1510 provided with the UTP jack is six ports, the portion 1520 provided with the fiber optic coupler may be 18 ports.

The structure of the patch panel shown in FIG. 15 may also include the sensors and switch described in FIG. 3.

16 is a diagram illustrating a configuration example of an RPCS according to an embodiment.

Referring to FIG. 16, the RPCS may also include a display unit 1610 and a processor (not shown).

The display unit 1610 may display various types of information. For example, the distribution box connection status of the power line may be displayed. In addition, the display unit 1610 may display the total power usage, for example, or change and display various information when the switch is pushed.

The RPCS may control the power on / off by the outlets 1660 by the control of the local management unit or by its own program. The RPCS can be connected to other equipment via a communication cable connector 1640 for remote management.

Each of the tack switches 1650 is mapped to outlets 1660, and when the tack switch is pushed once, the name of the equipment connected to the outlet may be displayed on the display unit 1610. In addition, when the Tack switch is pushed a second time, the power consumption may be displayed on the display unit 1610. When the Tack switch is pushed longer than the set time, it may indicate whether to reset. Of course, various operations according to the operation of the Tack switch may be variously modified.

The processor included in the RPCS may control the RPCS to sound an alarm through the speaker 1620 or to display a warning indication on the display unit 1610 when power consumption exceeding a reference value occurs.

As such, the RPCS is also implemented in an intelligent form having a processor, and thus it is possible to periodically turn on / off / reset power and ports of a specific device according to a predetermined scheduling.

In addition, the RPCS may be turned off after saving the system log file when the power is turned off through the main switch 1630, and when the power is turned on, the RPCS may be turned on at a predetermined time interval for each outlet or port to prevent instantaneous overcurrent flow. Can be.

The body 1670 of the RPCS may be designed to fit the rack to be installed.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media 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 machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (20)

Network equipment installed in a rack, where each of the network equipment has a plurality of communication ports-is attached to the network equipment without removing the respective patch cord, and the photo sensor N patch panel units (N is an integer of 1 or more) for checking whether a communication connector of each of the plurality of communication ports is inserted;
A local management unit managing information on each of the N patch panel units and collecting network cable connection information by scanning the N patch panel units based on a preset scan schedule; And
A communication unit for transmitting the collected information to a central server at a remote location and transferring the information received from the central server to the local management unit,
Each of the N patch panel portions
A check switch for calling port connection information of a corresponding patch panel portion of a communication connector inserted into the communication port, and a display portion for displaying at least one of identifier information of the patch panel portion, identifier of the attached network equipment, and port connection information, The display unit displays the other side information is connected to the cable when the check switch is On (On),
The local management unit
Receive work instruction information performed in the N patch panel units from a central server, control the N patch panel units according to the work instruction information, compare the work instruction information with actual work information performed, and perform the work. Report to the central server whether or not the instruction is completed
Intelligent integrated management system of network cable and computer room infrastructure. The method of claim 1,
The local management unit
And a navigation panel for operating the local management unit in place of the touch panel unit and a touch panel unit for displaying a current work flow according to the work instruction information.
Intelligent integrated management system of network cable and computer room infrastructure. The method of claim 1,
A central server for providing a user interface for inquiring information about the N patch panel unit and the local management unit, managing a cable connection history of each of the plurality of communication ports, and managing network resources of the network devices is further provided. Containing
Intelligent integrated management system of network cable and computer room infrastructure. The method of claim 1,
Each of the N patch panel portions,
Connector detection units including a plurality of photo sensors for detecting a cable connection state of each of the plurality of communication ports using light and reflected light emitted from the communication connector insertion unit of each of the plurality of communication ports;
A patch communication unit communicating with the local management unit; And
Further comprising a patch control unit for controlling the operation of the patch panel unit
Intelligent integrated management system of network cable and computer room infrastructure. 5. The method of claim 4,
The connector detection units and the check switches are composed of a plurality of module types, each of the plurality of module types is formed to be detachable to the support plate, the support plate is the network connection of the network equipment is maintained in the state Attached to the equipment
Intelligent integrated management system of network cable and computer room infrastructure. The method of claim 1,
The display unit
When the check switch is turned on, the check switch includes a first part indicating a partner Rack ID to which a cable is connected, a second part indicating a partner patch number, and a third part indicating a partner port number.
Intelligent integrated management system of network cable and computer room infrastructure. The method of claim 1,
The local management unit,
A control unit managing scan schedule and network cable connection information for each of the N patch panel units;
A display unit displaying information related to an operation of the local manager;
An alarm unit for notifying occurrence of an error; And
Connect the communication unit with the local management unit and include a communication interface unit;
The control unit,
Checking the overall communication port status of the network equipment installed in the rack, and displaying the current status of the entire communication port through the display unit
Intelligent integrated management system of network cable and computer room infrastructure. The method of claim 1,
The display unit displays a work instruction received from the local management unit
Intelligent integrated management system of network cable and computer room infrastructure. The method of claim 7, wherein
Further comprising an input for menu selection and command input,
The control unit controls at least one of a display of a menu, a display of inquiry information, a system initialization, a rack information display, and a connection information display of a port according to a signal input through the input unit.
Intelligent integrated management system of network cable and computer room infrastructure. The method of claim 7, wherein
The control unit,
Determine the scan schedule of the N patch panel unit in consideration of the number of communication connector connection of each of the network equipment
Intelligent integrated management system of network cable and computer room infrastructure. The method of claim 7, wherein
The local management unit,
A remote control unit providing a remote power control and a remote closed circuit image control function; And
Further comprising a cable test unit for providing a cable connection test function remotely
Intelligent integrated management system of network cable and computer room infrastructure. Network devices installed in a rack, wherein each of the network devices includes a plurality of communication ports, each of which is equipped with a patch panel unit to check whether a communication connector of each of the plurality of communication ports is inserted;
Storing information on whether the communication connector is inserted in a local memory;
If activation of the control key is detected, analyzing the input key value and displaying information corresponding to the analysis result;
If a message is received from a local manager, transmitting information stored in the local memory to the local manager or downloading information received from the local manager to the local memory; And
Scanning a connection state of each of the plurality of communication ports based on a message received from the local memory, and transmitting a scan result to the local management unit;
The displaying of the information includes displaying information on a counterpart to which a cable is connected in response to an on of an inspection switch, and displaying a work instruction received from the local management unit.
The counterpart information includes a first part indicating a counterpart Rack ID, a second part indicating a counterpart Patch number, and a third part indicating a counterpart port number.
How patch panels work in an intelligent integrated management system for network cabling and computer infrastructure. Network equipment installed in a rack, where each of the network equipment has a plurality of communication ports-information about each of the N patch panels (N is an integer of 1 or more) attached to each Maintaining and maintaining the number of network cable connection information by scanning the N patch panels based on a preset scan schedule;
Storing the collected network cable connection information;
If a key of an input unit for menu selection and command input is activated, analyzing the input key value and performing an operation corresponding to the analysis result or displaying information corresponding to the analysis result;
Receiving work instruction information performed in the N patch panel units from a central server, and controlling the N patch panel units according to the work instruction information; And
Comparing the work instruction information with actual work information performed, and reporting whether the work instruction is completed to the central server;
How local management works in an intelligent integrated system of network cable management and computer infrastructure. 14. The method of claim 13,
Collecting the network cable connection information
Executing a data collection scheduler;
Querying the information collecting target device according to the scheduler; And
Updating network cable connection information of a patch panel unit registered according to whether the collection target device is registered, or newly registering a patch panel unit and storing network cable connection information of a newly registered patch panel unit;
How local management works in an intelligent integrated system of network cable management and computer infrastructure. Network equipment installed in a rack from a local management unit, where each of the network equipments has a plurality of communication ports-N network equipment connection information and N units mounted on each of the network equipments (where N is one or more) Receiving status information of each patch panel unit;
Storing the information received from the local management unit;
Analyzing the input requirements and performing an operation corresponding to the analysis result or outputting information corresponding to the analysis result when a requirement of the manager is generated; And
If a connection of the mobile terminal is requested, providing a user interface for querying information on the patch panel unit and the local management unit to the mobile terminal,
Each of the N patch panel portions
A check switch for calling port connection information of a corresponding patch panel portion of a communication connector inserted into the communication port, and a display portion for displaying at least one of identifier information of the patch panel portion, identifier of the attached network equipment, and port connection information, The display unit displays the other side information is connected to the cable when the check switch is On (On),
The local management unit
Receive work instruction information performed in the N patch panel units from a central server, control the N patch panel units according to the work instruction information, compare the work instruction information with actual work information performed, and perform the work. Reporting whether the instruction has been completed to the central server.
How the central server works in the intelligent integrated management system of network cable and computer room infrastructure. 16. The method of claim 15,
Receiving an information registration request of a local management unit through the user interface;
Storing information of the local management unit in a database according to the received information; And
Transmitting a response message to the information registration request to the mobile terminal or a wired terminal.
How the central server works in the intelligent integrated management system of network cable and computer room infrastructure. 16. The method of claim 15,
Receiving the network cable connection information and the status information of the patch panel unit
Selecting a local management unit to collect data;
Transmitting a data inquiry command to the selected local manager; And
Receiving the inquiry result data corresponding to the data inquiry command and updating the information on the patch panel unit belonging to the local management unit by reflecting the received data in a database;
How a central server works in an intelligent integrated system of network cable management and computer infrastructure. 16. The method of claim 15,
Providing the work target local manager and work target communication port information to the mobile terminal or the wired terminal through the user interface;
How the central server works in the intelligent integrated management system of network cable and computer room infrastructure. 16. The method of claim 15,
The manager's requirements include work instructions,
Determining a work target local manager and transmitting work target communication port information to the work target local manager;
How the central server works in the intelligent integrated management system of network cable and computer room infrastructure. 20. The method of claim 19,
The method may further include providing information received from the work target local manager to the mobile terminal in real time.
How the central server works in the intelligent integrated management system of network cable and computer room infrastructure.

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