KR102527579B1 - Method, Server and System for Processing of Connecting Information about Optic Repeater - Google Patents

Abstract

The present invention relates to a method, server, and system for processing connection information of an optical repeater, wherein a monitoring server waits for reception of a status report message to check connection information of a plurality of optical repeaters connected to a base station, and the monitoring server detects an optical repeater A plurality of main hub units connected to receive through a base station a status report message to which the IP assigned to them is added, and a monitoring server checking a specific field and updating connection information, which is also applied to other embodiments. this is possible

Description

Optical repeater connection information processing method, server and system {Method, Server and System for Processing of Connecting Information about Optic Repeater}

The present invention relates to a method, server, and system for processing connection information of an optical repeater, and relates to an optical repeater for automatically checking and updating connection information when a change occurs in the connection information of an optical repeater due to a defect or movement of the optical repeater. It relates to a connection information processing method of a repeater, a server, and a system.

In general, a relay system is used to improve the quality of wireless communication and expand the coverage of wireless communication in an area where radio waves transmitted from a base station are difficult to reach or where radio waves are blocked due to geographical features. Among these relay systems, the optical relay system converts an RF signal from a base station into an optical signal, transmits the optical signal to a desired area along an optical fiber, converts the optical signal back into an RF signal, and transmits the RF signal to the subscriber's user terminal through an antenna. It is a system of the way

In particular, the digital optical relay system converts a high-frequency signal received from a radio interface unit (RIU) connected to a base station (eNB) into a digital optical signal and transmits the digital optical signal through an optical cable. unit) is included. The digital optical repeater system includes a plurality of remote optic units (ROUs) connected to the main hub unit to convert digital optical signals received from the main hub unit into RF signals and transmit the RF signals to user terminals.

In such a digital optical repeater system, when a hardware defect of an optical repeater distribution device or a received signal strength indicator (RSSI) defect occurs, information of a main hub unit connected to the optical repeater distribution device cannot be checked. In addition, in the digital optical repeater system, if the base station is frequently relocated or the distribution device for optical repeater is moved, there is a problem in that personnel must be deployed on site to check the connection information of the distribution device for optical repeater (eg, optical repeater). do.

In the embodiments of the present invention to solve these conventional problems, the monitoring server periodically receives a message for reporting the status of the main hub unit to which the IP of the main hub unit is added to a specific field from the main hub unit, and connects the optical repeater. It is to provide a connection information processing method of an optical repeater that can check information, a server, and a system.

In addition, embodiments of the present invention provide a connection information processing method of an optical repeater in which the monitoring server transmits a link information request message to the main hub unit and receives a link information response message from the main hub unit to check the connection information of the optical repeater. , to provide servers and systems.

In addition, embodiments of the present invention provide a method, server, and system for processing connection information of an optical repeater in which a monitoring server manages an optical repeater and a main hub unit in a pair combination to check a connection problem occurring in the optical repeater and the main hub unit. is to provide

A method for processing connection information of an optical repeater according to an embodiment of the present invention includes the steps of a monitoring server waiting for reception of a status report message to check connection information of a plurality of optical repeaters connected to a base station, the monitoring server receiving, through the base station, the status report message to which the plurality of main hub units assigned to the main hub units have been added, and the monitoring server checking the specific field and updating the connection information. to be characterized

In addition, the updating of the connection information may include checking, by the monitoring server, the IP of an optical repeater connected to the main hub unit based on the IP of the main hub unit included in the specific field; It is characterized in that it includes checking an optical repeater ID associated with an IP, checking a pre-stored optical repeater ID, and updating the connection information when the optical repeater IDs are different from each other by the monitoring server.

In addition, prior to the step of waiting for reception of the status report message, the step of confirming whether the connection information mode for checking the connection information of the optical repeater is the status report message confirmation mode or the link information confirmation mode is further included. to be

In addition, if the connection information mode is the link information checking mode, the monitoring server generates a link information request message and transmits it to the main hub unit through the base station. Receiving a link information response message corresponding to the link information request message including an IP and an ID of an optical repeater to which it is connected, and checking the link information response message by the monitoring server to update the link information Further comprising characterized by

In addition, the step of checking the link information response message and updating the connection information includes the steps of the monitoring server processing the link information response message to create a temporary database, and the monitoring server removing the temporary database and a pre-stored database. and updating the connection information if field 1 and field 2 are different or if the ID of the wireless signal processor included in the previously stored database is different from the ID of the optical repeater included in the temporary database. .

In addition, the connection information processing server of the optical repeater according to an embodiment of the present invention is connected to the optical repeater through the base station in order to check the connection information of the communication unit performing communication with the base station and the plurality of optical repeaters connected to the base station. and a control unit receiving status report messages from a plurality of main hub units, checking a specific field of the status report message, and updating the connection information.

Also, the controller may check the IP of the optical repeater connected to the main hub unit based on the IP of the main hub unit included in the specific field.

Also, the control unit checks an optical repeater ID connected to the optical repeater IP and a pre-stored optical repeater ID, and updates the connection information if the optical repeater IDs are different.

In addition, the controller checks whether the connection information mode for checking the connection information of the optical repeater is a status report message check mode for checking the status report message or a link information check mode for checking link information. do.

In addition, if the connection information mode is the link information check mode, the control unit generates a link information request message and transmits it to the main hub unit through the base station, and links information corresponding to the link information request message from the main hub unit. Characterized in receiving a response message.

The control unit checks the IP assigned to the main hub unit included in the link information response message and the ID of the optical repeater to which the main hub unit is connected, and processes the link information response message to create a temporary database. to be

In addition, if the first field and the second field of the temporary database and the previously stored database are different, or the ID of the wireless signal processing unit included in the previously stored database is different from the ID of the optical repeater included in the temporary database, the controller It is characterized in that the connection information is updated.

In addition, the optical repeater connection information processing system according to an embodiment of the present invention includes a plurality of optical repeaters connected to a base station, a plurality of main hub units connected to each of the optical repeaters, and connection information of the optical repeaters connected to the base station. and a monitoring server for receiving a status report message from the main hub unit and checking a specific field of the status report message to update the connection information.

As described above, in the method, server, and system for processing connection information of an optical repeater according to the present invention, the monitoring server periodically sends a message for reporting the status of the main hub unit to which the IP of the main hub unit is added to a specific field from the main hub unit. By receiving and confirming the connection information of the optical repeater, there is an effect of confirming errors generated in the optical repeater.

In addition, in the method, server, and system for processing connection information of an optical repeater according to the present invention, a monitoring server transmits a link information request message to a main hub unit, receives a link information response message from the main hub unit, and transmits connection information of an optical repeater. By checking, there is an effect of minimizing the input of field personnel to check the connection information of the optical repeater.

In addition, the method, server and system for processing connection information of an optical repeater according to the present invention is a monitoring server managing an optical repeater and a main hub unit as a pair combination, thereby confirming and solving connection problems occurring between the optical repeater and the main hub unit. It has the effect of minimizing the time consumed.

1 is a diagram showing a digital optical repeater system according to an embodiment of the present invention.
2 is a diagram showing the main configuration of a monitoring server according to an embodiment of the present invention.
3 is a flowchart illustrating a method of processing connection information of an optical repeater according to an embodiment of the present invention.
4 is a diagram illustrating a status report message according to an embodiment of the present invention.
5 is a diagram showing a database in which a link information response message is processed and a database pre-stored by a base station according to an embodiment of the present invention.
6 is a flowchart illustrating a method of processing connection information of an optical repeater in a monitoring server according to an embodiment of the present invention.
7 is a detailed flowchart illustrating a method of performing a link information checking mode in a monitoring server according to an embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. The detailed description set forth below in conjunction with the accompanying drawings is intended to describe exemplary embodiments of the present invention and is not intended to represent the only embodiments in which the present invention may be practiced. In order to clearly describe the present invention in the drawings, parts irrelevant to the description may be omitted, and the same reference numerals may be used for the same or similar components throughout the specification.

In one embodiment of the present invention, expressions such as “or” and “at least one” may represent one of the words listed together, or a combination of two or more. For example, "A or B" and "at least one of A and B" may include only one of A or B, or may include both A and B.

1 is a diagram showing a digital optical repeater system according to an embodiment of the present invention.

Referring to FIG. 1, the digital optical repeater system 10 according to the present invention includes a monitoring server 100, a base station 200, a plurality of RIUs 250 connected to the base station 200, and a plurality of RIUs connected to the RIU 250. It includes an MHU (300) and a plurality of ROUs (350) connected to the MHU (300).

The monitoring server 100 is connected to the RIU 250 based on the connection information mode for checking the connection information of the radio interface unit (RIU) 250. A status report message from the MHU (main hub unit) 300 Receives or transmits a link information request message to the MHU (300) through the base station (200) and the RIU (250). The monitoring server 100 checks the status report message or checks the connection information of the RIU (250) based on the link information response message corresponding to the link information request message received from the MHU (300). A specific operation of the monitoring server 100 will be described using FIG. 2 below.

The base station 200 is an evolved Node B (eNB) used in long term evolution (LTE). The base station 200 performs communication with the monitoring server 100 and is connected to the RIU 250 to perform communication. The base station 200 provides a radio frequency (RF) signal or an inter frequency (IF) signal to the RIU 250. In an embodiment of the present invention, although three RIUs 250 are shown as being connected to one base station 200, three or more RIUs 250 may be connected to one base station 200. The RIU 250 is installed in an area where radio waves transmitted from the base station 200 are difficult to reach or where radio waves are blocked due to geographical features to improve wireless communication quality and expand wireless communication coverage.

The RIU 250 transmits an RF signal or an IF signal provided from the base station 200 to the MHU 300 connected to the RIU 250 through an interface with the base station 200 . Although different for each LTE manufacturing vendor, when the RIU 250 is one company, up to seven MHUs 300 may be connected to one RIU 250. The MHU (300) converts the RF signal or IF signal received from the RIU (250) into a digital optical signal and transmits it to a remote optic unit (ROU) (350) connected to the MHU (300) through an optical cable. A plurality of ROUs 350 may be connected to one MHU 300 . The ROU 350 converts the digital optical signal received from the MHU 300 into an RF signal or an IF signal and transmits the converted signal to a user terminal (not shown). The ROU 350 includes components that convert digital optical signals into digital signals and convert digital signals into RF signals or IF signals.

2 is a diagram showing the main configuration of a monitoring server according to an embodiment of the present invention.

Referring to FIG. 2 , the monitoring server 100 includes a communication unit 110, an input unit 120, a display unit 130, a memory 140 and a control unit 150.

The communication unit 110 performs communication with the base station 200 . To this end, the monitoring server 100 receives a message for checking the connection information of the RIU 250 through the base station 200, that is, a status report message (Status_MSG) and a link information response message (Res_MSG), and receives the control unit 150 provided by At this time, the link information response message (Res_MSG) is a response message to the link information request message (Req_MSG) transmitted from the monitoring server 100 to the MHU (300) through the base station (200).

The input unit 120 generates input data in response to an input of a manager who manages the monitoring server 100 . The input unit 120 includes at least one input means. The input unit 120 includes a key pad, a dome switch, a touch panel, a touch key, and buttons.

The display unit 130 displays output data according to the operation of the monitoring server 100 . To this end, the display unit 130 includes a liquid crystal display (LCD), a light emitting diode (LED) display, an organic LED (OLED) display, and a micro electro mechanical system (MEMS). systems) displays and electronic paper displays. The display unit 130 may be combined with the input unit 120 and implemented as a touch screen. The display unit 130 displays the connection information of the RIU 250 processed by the control unit 150 to the manager.

The memory 140 stores operating programs of the monitoring server 100. The memory 140 stores base station 200 information, information on a plurality of RIUs 250 connected to the base station 200, information on a plurality of MHUs 300 connected to each RIU 250, etc. as a database. The memory 140 stores a program for generating a link information response message received from the MHU 300 as a temporary database. At this time, the base station 200 information may include the shelf ID, board ID, and port ID of the base station 200, and the RIU 250 information includes the ID of the RIU 250 and the IP assigned to the RIU 250. It may include, MHU (300) information may include an ID of the MHU (300), an IP assigned to the MHU (300), and the like.

The control unit 150 checks the connection information mode for updating the connection information of the RIU 250 connected to the base station 200, and checks the connection information of the RIU 250 based on the connection information mode. At this time, the connection information mode includes a status report message check mode and a link information check mode.

First, if the connection information mode is the status report message check mode, the control unit 150 periodically receives a status report message from the MHU (300) through the base station (200). The status report message generated periodically by the MHU (300) is transmitted to the base station 200 through the RIU (250) to which the MHU (300) is connected, and the control unit 150 transmits the status to the base station 200 through the communication unit 110. Receive report message. To this end, the MHU (300) periodically checks the MHU IP assigned to it, and adds the checked MHU IP to a specific field of the status report message. In addition, the time for the monitoring server 100 to periodically receive the status report message and the time for transmitting the status report message from the MHU (300) may be set to be the same or similar. That is, the time difference between generated in the MHU (300) and transmitted to the monitoring server (100) may be reflected and the two times may be similarly set.

More specifically, MHU (300) when the addition of the MHU IP to the status report message is complete, MHU (300) transmits the status report message to the RIU (250). At this time, the MHU (300) sends the status report message according to the source, that is, the IP or port information assigned to the MHU (300) and the destination, that is, the IP or port information assigned to the RIU (250) to receive the status report message RIU ( 250). At this time, the plurality of RIUs 250 connected to the base station 200 each have different IDs or port information, and the plurality of MHUs 300 connected to each RIU 250 are the RIUs 250 to which the MHUs 300 are connected. Since they have different IDs or port information generated based on the ID or port information, the monitoring server 100 manages the RIU (250) and the MHU (300) as a pair combination, so that the RIU (250) and the MHU (300 ), you can check the connection problem that occurred between them. Upon receiving the status report message, the RIU 250 transmits the status report message to the base station 200 to which the RIU 250 is connected, and the base station 200 transmits the status report message to the monitoring server 100. At this time, the base station 200 transmits a status report message to the monitoring server 100 according to the IP or port information of the base station 200 and the IP or port information of the monitoring server 100 .

The control unit 150 checks a specific field of the received status report message, checks the MHU IP added to the specific field, and checks the IP of the RIU 250 interlocked with the MHU 300 corresponding to the MHU IP. The control unit 150 maintains the connection information of the RIU 250 if the IP of the RIU 250 and the RIU IP included in the database pre-stored by the base station 200 are the same, and if the two RIU IPs are different, in a specific field A change request message can be displayed on the display unit 130 to change the connection information of the RIU 250 by checking the ID of the RIU 250 actually interlocked with the MHU 300 with the IP of the RIU 250 confirmed by .

In addition, if the status report message is not received at a preset time, the control unit 150 may cause a problem with connection information including hardware failure and RSSI (received signal strength indicator) failure in the RIU 250, or the RIU 250 And it is confirmed that the connection information of the MHU (300) has a problem, and it is displayed on the display unit (130). Due to this, the administrator solves the problem caused by the connection information of the RIU (250) or the connection information between the RIU (250) and the MHU (300), which is confirmed to have a problem with the connection information, and the control unit 150 is controlled by the manager Connection information of a previously stored database may be updated with connection information for a solved problem.

Second, if the link information mode is the link information check mode, the control unit 150 periodically transmits a link information request message through the base station 200 . At this time, the link information request message is transmitted according to the IP or port information of the monitoring server 100 and the IP or port information of the base station 200 . The base station 200 transmits the link information request message received from the monitoring server 100 to the RIU 250 connected to the base station 200, and the RIU 250 transmits the link information request message to the MHU (connected to the RIU 250) 300). At this time, the link information request message is transmitted according to the IP or port information of the RIU (250) and the IP or port information of the MHU (300). Upon receiving the link information request message, the MHU (300) checks the IP assigned to the MHU (300) and the ID of the RIU (250) to which the MHU (300) is connected according to the link information request message. The MHU (300) generates a link information response message including the identified MHU IP and RIU ID and transmits it to the RIU (250). At this time, the link information response message is transmitted according to the IP or port information of the MHU (300) and the IP or port information of the RIU (250). Upon receiving the link information response message, the RIU 250 transmits the link information response message to the base station 200 to which the RIU 250 is connected, and the base station 200 transmits the link information response message to the monitoring server 100. At this time, the link information response message is transmitted according to the IP or port information of the base station 200 and the IP or port information of the monitoring server 100.

The controller 150 checks the received link information response message. As a result of checking the link information response message, the control unit 150 updates the connection information of the RIU 250 if it is necessary to update the connection information of the RIU 250. Conversely, the control unit 150 maintains the connection information of the RIU 250 if there is no need to update the connection information of the RIU 250 .

More specifically, the control unit 150 creates a temporary database by processing the link information response message including the MHU IP and RIU ID. In this case, the temporary database may be generated including MHU IP, eNB IP, port no, Shelf ID, Board ID, Port ID, a plurality of RIU IDs, and a reserved field. The controller 150 calls the database previously stored by the base station 200 from the memory 140 and compares the temporary database with the previously stored database. The controller 150 compares a specific field of the temporary database and the previously stored database, that is, a first field and a second field of the temporary database and the previously stored database. In this case, the first field is the Board ID field included in the temporary database and the pre-stored database, and the second field is the Port ID field. As a result of comparing the Board ID field and the Port IP field, the control unit 150 determines that if the values of each field are different, the Board ID field value and the Port ID field value of the database previously stored as the Board ID field value and Port ID field value stored in the temporary database. to update the connection information. On the contrary, if the value of each field is the same, the controller 150 maintains the connection information by maintaining the Board ID field value and the Port ID field value of the previously stored database.

In addition, the control unit 150 compares the values described in the plurality of RIU ID fields included in the temporary database with the values of the RU (radio unit) ID field of the previously stored database. The controller 150 maintains connection information with the RIU 250 while maintaining the previously stored database if there is the same value as the value described in the RU ID field of the previously stored database among the values described in the plurality of RIU ID fields of the temporary database. Conversely, if there is no value identical to the value described in the RU ID field of the previously stored database among the values described in the plurality of RIU ID fields of the temporary database, the control unit 150 determines that a problem has occurred in the connection information of the RIU 250 and displays the (130). Due to this, the manager checks the connection state of the RIU (250) and the MHU (300), which is confirmed to have a problem with the connection information. The control unit 150 may update the connection information of the RIU 250 with the ID of the RIU 250 with which the MHU 300 is actually interlocked, input from the manager through the input unit 120.

In addition, the control unit 150 compares the values described in the plurality of RIU ID fields of the temporary database with the values of the RU ID field of the previously stored database. At this time, the values of the RIU ID and the RU ID are set to a combination of FA (frequency assignment) information (English) + sector information (number), such as RQ00001 or RN00001. The control unit 150 maintains connection information with the RIU 250 while maintaining a pre-stored database when sector information of a value written in a plurality of RIU ID fields is the same as sector information of a value written in an RU ID field. Conversely, if the sector information of the value written in the plurality of RIU ID fields is different from the sector information of the value written in the RU ID field, the control unit 150 determines that a problem has occurred in the connection information of the RIU 250 and displays the display unit 130 display on Due to this, the manager checks the connection state of the RIU (250) and the MHU (300), which is confirmed to have a problem with the connection information. The control unit 150 may update the connection information of the RIU 250 with the ID of the RIU 250 with which the MHU 300 is actually interlocked, input from the manager through the input unit 120.

3 is a flowchart illustrating a method of processing connection information of an optical repeater according to an embodiment of the present invention.

Referring to FIG. 3, in step 301, the monitoring server 100 checks the type of connection information mode set to check the connection information of the RIU 250, which is an optical repeater connected to the base station 200, and performs step 303 . In step 303, the monitoring server 100 performs step 305 if the connection information mode is set to the status report message (Status_MSG) check mode, and if it is not set to the status report message check mode, the MHU (300) connected to the RIU (250) ), it is confirmed that the link information checking mode for checking link information is set, and step 319 is performed.

In step 305, the monitoring server 100 waits to receive a status report message from the MHU (300) connected to the RIU (250). In addition, in step 307, the MHU (300) confirms that the preset time arrives, performs step 309 when the preset time arrives, and can continuously check this if the preset time does not arrive. In addition, in the embodiment of the present invention, steps 301 to 309 are sequentially performed as an example, but are not necessarily limited thereto. Steps 301 and 303 may not be performed, and steps 305 and 307 may be performed in parallel regardless of priority. In addition, if the monitoring server 100 does not receive a status report message at a predetermined time, it may be determined that a problem has occurred in the connection information including hardware failure or RSSI failure in the RIU 250 . In addition, the time for the monitoring server 100 to receive the status report message and the time for transmitting the status report message from the MHU (300) may be set to the same or similar. That is, the time difference between generated in the MHU (300) and transmitted to the monitoring server (100) may be reflected and the two times may be similarly set.

In step 309, the MHU (300) checks the MHU IP allocated to itself, and adds the identified MHU IP to a specific field of the status report message. More specifically, the addition of the MHU IP to a specific field of the status report message will be described using FIG. 4 below. 4 is a diagram illustrating a status report message according to an embodiment of the present invention.

Referring to FIG. 4, the status report message 400 is configured to include various fields such as the status report flag, repeater manufacturer, and Reserved field, and the MHU 300 includes a specific field 401 among the reserved fields in the status report message 400. ) to add MHU IP information. In addition, in the embodiment of the present invention, for convenience of description, it is described that the MHU (300) adds MHU IP information to a specific field (401) of the Reserved fields of the status report message (400), but is not necessarily limited thereto. no. For example, the MHU (300) may newly create and use a field to add the MHU IP to the status report message (400), and select a field to add the MHU IP from among a plurality of fields included in the status report message (400). After checking, you can add MHU IP to the checked field.

When the addition of the MHU IP to the status report message 400 is complete, in step 311, the MHU (300) transmits the status report message 400 to the RIU (250). At this time, the MHU (300) is the source, that is, the IP or port information assigned to the MHU (300) and the destination, that is, the IP or port information assigned to the RIU (250) to receive the status report message (400) status report message (400) is transmitted to the RIU (250). At this time, the plurality of RIUs 250 connected to the base station 200 each have different IDs or port information, and the plurality of MHUs 300 connected to each RIU 250 are the RIUs 250 to which the MHUs 300 are connected. Since they have different ID or port information generated based on ID or port information, the monitoring server 100 manages the RIU (250) and MHU (300) as a pair combination to generate RIU (250) or MHU (300) You can check the problem related to the connected information. Upon receiving the status report message 400, the RIU 250 transmits the status report message 400 to the base station 200 to which the RIU 250 is connected, and the base station 200 sends the status report message 400 to the monitoring server ( 100). At this time, the base station 200 transmits the status report message 400 to the monitoring server 100 according to the IP or port information of the base station 200 and the IP or port information of the monitoring server 100.

In step 313, the monitoring server 100 checks a specific field of the received status report message 400 and performs step 315. In step 315, if it is determined that the update of the connection information of the RIU (250) is necessary, the monitoring server 100 performs step 317 to update the connection information, and if it is determined that the update of the connection information of the RIU (250) is not necessary Returning to step 305, the reception of the status report message is waited. More specifically, the monitoring server 100 checks the MHU IP added to the status report message 400, and checks the IP of the RIU (250) associated with the MHU (300) corresponding to the MHU IP. The monitoring server 100 maintains the connection information of the RIU 250 if the IP of the RIU 250 and the RIU IP included in the database pre-stored by the base station 200 are the same, and if the two RIU IPs are different, the RIU ( 250) and the connection information of the MHU (300). When it is confirmed that there is a problem with the connection information, the monitoring server 100 outputs at least one of sound and message to change the connection information of the RIU 250 to the IP of the RIU 250 identified by a specific field. In addition, the monitoring server 100 checks the ID of the RIU 250 with which the MHU 300 is actually interlocked with the IP of the RIU 250 confirmed based on the MHU IP added to the status report message 400 to determine the RIU ( A change request message may be displayed on the display unit 130 to change the connection information of 250).

In addition, in step 319, the monitoring server 100 transmits a link information request message (Req_MSG) to the base station 200. At this time, the link information request message is transmitted according to the IP or port information of the monitoring server 100 and the IP or port information of the base station 200 . The base station 200 transmits the link information request message received from the monitoring server 100 to the RIU 250 connected to the base station 200, and the RIU 250 transmits the link information request message to the MHU (connected to the RIU 250) 300). At this time, the link information request message is transmitted according to the IP or port information of the RIU (250) and the IP or port information of the MHU (300).

In step 321, the MHU (300) checks the IP assigned to the MHU (300) and the ID of the RIU (250) to which the MHU (300) is connected according to the received link information request message, and performs step 323. In step 323, the MHU (300) generates a link information response message (Res_MSG) including the confirmed MHU IP and RIU ID, and performs step 325. In step 325, the MHU (300) transmits the generated link information response message to the RIU (250). At this time, the link information response message is transmitted according to the IP or port information of the MHU (300) and the IP or port information of the RIU (250). Upon receiving the link information response message, the RIU 250 transmits the link information response message to the base station 200 to which the RIU 250 is connected, and the base station 200 transmits the link information response message to the monitoring server 100. At this time, the link information response message is transmitted according to the IP or port information of the base station 200 and the IP or port information of the monitoring server 100.

In step 327, the monitoring server 100 checks the received link information response message and performs step 329. In step 329, the monitoring server 100 updates the connection information of the RIU 250 by performing step 331 if it is necessary to update the connection information of the RIU 250 as a result of checking the link information response message. Conversely, in step 329, the monitoring server 100 returns to step 319 and re-performs the above operation if the RIU (250) connection information does not need to be updated. More specifically, the monitoring server 100 creates a temporary database by processing the link information response message including the MHU IP and RIU ID. The monitoring server 100 calls a database pre-stored by the base station 200 and compares the temporary database with the pre-stored database. Comparing the temporary database and the pre-stored database will be described using FIG. 5 below. 5 is a diagram showing a database in which a link information response message is processed and a database pre-stored by a base station according to an embodiment of the present invention.

Referring to FIG. 5, (a) of FIG. 5 is a temporary database 510 generated by processing the link information response message by the monitoring server 100, and (b) of FIG. database 530. The monitoring server 100 checks the Board ID field 511 and the Port ID field 513 in the temporary database 510 and checks the Board ID field 531 and the Port ID field 533 in the previously stored database 530. Check. At this time, if the values of the Board ID field 511 and the Port ID field 513 of the temporary database 510 are different from the values of the Board ID field 531 and the Port ID field 533 of the previously stored database 530, monitoring is performed. The server 100 determines that it is necessary to update the connection information of the RIU (250). The monitoring server 100 is the value of the Board ID field 531 and the Port ID field 533 in the database 530 pre-stored as the values of the Board ID field 511 and the Port ID field 513 of the temporary database 510. You can update connection information by updating .

In addition, the monitoring server 100 is a field with the same ID as the RU (radio unit) ID field 535 of the previously stored database 530 among the RIU ID 1 field to the RIU ID 5 field 515 of the temporary database 510 check if there is The monitoring server 100 can confirm that RQ00001 described in the RU ID field 535 of the pre-stored database 530 is identically described as RQ00001 in the RIU ID 1 field of the temporary database 510. In this case, the monitoring server 100 confirms that the connection information of the RIU 250 does not need to be updated. Conversely, if there is no field with the same ID as the RU ID field 535 of the previously stored database 530 among the RIU ID 1 field to RIU ID 5 field 515 of the temporary database 510, the monitoring server 100 detects the RIU It is determined that the renewal of the connection information of (250) is necessary. If the monitoring server 100 needs to update the connection information, informs the manager that the connection information needs to be updated, and receives the ID of the RIU 250 with which the MHU 300 is actually linked from the manager through the input unit 120 A pre-stored database can be updated.

In addition, the monitoring server 100 determines the values described in the RU (radio unit) ID field 535 of the previously stored database 530 among the values of the RIU ID 1 field to the RIU ID 5 field 515 of the temporary database 510 Check if there are any fields with different values. More specifically, the values of the RIU ID and RU ID are set as a combination of FA (frequency assignment) information (English) + sector information (number), such as RQ00001 or RN00001. The monitoring server 100 updates the connection information of the RIU 250 if the sector information of the value written in the RIU ID 1 field to the RIU ID 5 field 515 is different from the sector information of the value written in the RU ID field 535 judge this to be necessary For example, if the sector information of the value written in the RIU ID 1 field to the RIU ID 5 field 515 is 00002 and the sector information of the value written in the RU ID field 535 is 00001, the monitoring server 100 updates the connection information confirm it is necessary When it is confirmed that the connection information needs to be updated, the monitoring server 100 informs the manager that the connection information needs to be updated, and the MHU 300 receives the ID of the RIU 250 actually interlocked from the manager through the input unit 120. You can receive input and update the previously stored database.

In the embodiment of the present invention, the monitoring server 100 converts the values described in the RIU ID 1 field to the RIU ID 5 field 515 of the temporary database 510 to the RU (radio unit) ID field 535 of the database 530 in which the data is stored. ) is described as an example, but the reserved field can be extended and used according to the frequency band used.

6 is a flowchart illustrating a method of processing connection information of an optical repeater in a monitoring server according to an embodiment of the present invention.

Referring to FIG. 6 , in step 601, the controller 150 checks the type of connection information mode set to check the connection information of the RIU 250, which is an optical repeater connected to the base station 200, and performs step 603. In step 603, if the connection information mode is set to the status report message check mode as a result of checking in step 601, the control unit 150 performs step 605, and if the connection information mode is not the status report message check mode, set to the link information check mode. It is confirmed that it is, and step 621 is performed.

In step 605, the controller 150 waits to receive a status report message at a preset time. At this time, the MHU (300) connected to the RIU (250) adds the MHU IP to a specific field of the Reserved field of the status report message when the preset time arrives. To this end, the MHU (300) checks the IP assigned to it. To this end, the time at which the preset status report message is received in the memory 140 and the time at which the MHU (300) transmits the status report message may be synchronized.

Subsequently, in step 607, the controller 150 performs step 609 when the status report message is received, and performs step 621 when the status report message is not received. In step 621, the controller 150 updates the connection information of the RIU 250 and ends the process for checking the connection information of the RIU 250. That is, if the status report message is not received at a predetermined time, the control unit 150 may cause a problem with connection information including hardware failure and RSSI failure in the RIU 250 or connection information between the RIU 250 and the MHU 300 It is confirmed that a problem has occurred and it is displayed on the display unit 130. Due to this, the manager solves the identified problem, that is, the connection information generated in the RIU (250) or the problem occurred in the connection information between the RIU (250) and the MHU (300), and the resolved result can be updated as connection information. there is.

In step 609, the control unit 150 checks the Reserved field included in the received status report message and performs step 611. In step 611, the control unit 150 checks the MHU IP included in the specific field of the Reserved field of the status report message as shown in FIG. Check. In step 613, the control unit 150 checks the RIU IP included in the database previously stored in the memory 140 by the base station 200. In step 615, the control unit 150 checks whether the IP of the RIU 250 interlocked with the MHU 300 is the same as the RIU IP included in the pre-stored database. As a result of checking in step 615, if the two RIU IPs are the same, the controller 150 performs step 617. In step 617, the control unit 150 maintains the connection information of the RIU (250). Conversely, if the two RIU IPs are different, the controller 150 performs step 619. In step 619, the controller 150 determines the ID of the RIU 250 with which the MHU 300 is actually linked based on the IP of the RIU 250 connected to the MHU 300 corresponding to the MHU IP included in the specific field of the Reserved field. Check and update the connection information of the RIU (250). At this time, the control unit 150 may display a change request message to the display unit 130 to change the connection information of the RIU (250).

In step 621, the control unit 150 may check the connection information of the RIU 250 through the link information checking mode. At this time, a detailed operation of the link information checking mode will be described with reference to FIG. 7 below. 7 is a detailed flowchart illustrating a method of performing a link information checking mode in a monitoring server according to an embodiment of the present invention.

Referring to FIG. 7 , in step 701, the control unit 150 transmits a link information request message (Req_MSG) to the base station 200. At this time, the base station 200 transmits the link information request message to the RIU 250 connected to the base station 200, and the RIU 250 transmits the link information request message to the MHU 300 connected to the RIU 250. In step 723, the controller 150 receives a link information response message (Res_MSG) corresponding to the link information request message. To this end, the MHU (300) checks the IP assigned to the MHU (300) and the ID of the RIU (250) to which the MHU (300) is connected according to the received link information request message. The MHU (300) generates a link information response message including the identified MHU IP and RIU ID and transmits the generated link information response message to the RIU (250).

In step 705, the controller 150 processes the received link information response message and creates a temporary database. This is the same as (a) of FIG. 5 above. In step 707, the controller 150 checks the database previously stored in the memory 140. At this time, the pre-stored database is as shown in FIG. 5 (b). In step 709, the controller 150 compares the specific field of the temporary database with the previously stored database and returns to step 617 of FIG. More specifically, the controller 150 compares the first field and the second field of the temporary database and the pre-stored database. In this case, the first field is the Board ID field included in the temporary database and the pre-stored database, and the second field is the Port ID field. In step 615 of FIG. 6, as a result of comparing the Board ID field and the Port IP field, if the values of each field are different, the controller 150 performs step 619. If the respective field values are identical, the controller 150 ) performs step 617. In step 619, the control unit 150 determines that, as a result of comparing the Board ID field and the Port IP field, if the value of each field is different, the Board ID field value and the Port ID field value of the database previously stored as the Board ID field value and Port ID field value stored in the temporary database and the Port ID field value are different from each other. Update the connection information by changing the ID field value.

In addition, the control unit 150 performs step 615 of FIG. 6 by comparing the values described in the RIU ID 1 field to the RIU ID 5 field of the temporary database with the value of the RU (radio unit) ID field of the previously stored database. In step 615, the control unit 150 performs step 617 if there is the same value as the value described in the RU ID field among the values described in the RIU ID 1 field to the RIU ID 5 field. Conversely, if there is no value identical to the value described in the RU ID field among the values described in the RIU ID 1 field to the RIU ID 5 field, the controller 150 performs step 619.

In addition, the controller 150 performs step 615 of FIG. 6 by comparing the values described in the RIU ID 1 field to the RIU ID 5 field of the temporary database with the value of the RU ID field of the previously stored database. In step 615, the controller 150 performs step 617 if the sector information of values written in the RIU ID 1 field to the RIU ID 5 field is the same as the sector information of the value written in the RU ID field. Conversely, if the sector information of values written in the RIU ID 1 field to the RIU ID 5 field is different from the sector information of the value written in the RU ID field, the controller 150 performs step 619.

In step 619, the control unit 150 determines that a problem has occurred with the connection information of the RIU 250 and displays it on the display unit 130. Due to this, the manager checks the connection state of the RIU (250) and the MHU (300), which is confirmed to have a problem with the connection information. The control unit 150 may update the connection information of the RIU 250 with the ID of the RIU 250 with which the MHU 300 is actually interlocked, input from the manager through the input unit 120.

Embodiments of the present invention disclosed in the present specification and drawings are only presented as specific examples to easily explain the technical content of the present invention and help understanding of the present invention, and are not intended to limit the scope of the present invention. Therefore, the scope of the present invention should be construed as including all changes or modifications derived based on the technical idea of the present invention in addition to the embodiments disclosed herein.

Claims (13)

Checking whether the connection information mode for checking connection information of a plurality of optical repeaters connected to the base station by the monitoring server is a status report message checking mode for checking a status report message or a link information checking mode for checking link information;
receiving, by the monitoring server, the status report message to which the IPs allocated to the plurality of main hub units connected to the optical repeater are added, through the base station, when the connection information mode is the status report message check mode; And the step of the monitoring server checking a specific field of the status report message and updating the connection information;
generating, by the monitoring server, a link information request message when the link information mode is the link information check mode, and transmitting the message to the main hub unit through the base station; receiving, by the monitoring server, a link information response message corresponding to the link information request message including an IP address assigned to the main hub unit and an ID of an optical repeater to which the main hub unit is connected; and updating the connection information by checking the link information response message by the monitoring server. According to claim 1,
In the step of checking the status report message and updating the connection information,
checking, by the monitoring server, an IP of an optical repeater connected to the main hub unit based on the IP of the main hub unit included in the specific field;
checking, by the monitoring server, an optical repeater ID associated with the optical repeater IP, and checking a pre-stored optical repeater ID; and
updating, by the monitoring server, the connection information if the IDs of the optical repeaters are different;
Connection information processing method of an optical repeater comprising a. delete delete According to claim 1,
In the step of checking the link information response message and updating the link information,
generating, by the monitoring server, a temporary database by processing the link information response message; and
If the monitoring server is different from the first field and the second field of the temporary database and the pre-stored database, or the ID of the wireless signal processing unit included in the pre-stored database is different from the ID of the optical repeater included in the temporary database, the Updating connection information;
Connection information processing method of an optical repeater comprising a. a communication unit that communicates with the base station; and
Check whether the connection information mode for checking connection information of a plurality of optical repeaters connected to the base station is a status report message check mode for checking a status report message or a link information check mode for checking link information,
If the connection information mode is the status report message checking mode, status report messages are received from a plurality of main hub units connected to the optical repeater through the base station, and a specific field of the status report message is checked to update the connection information. do,
If the connection information mode is the link information check mode, a link information request message is generated and transmitted to the main hub unit through the base station, and a link information response message corresponding to the link information request message is received from the main hub unit. a control unit that checks the link information response message and updates the connection information;
Connection information processing server of the optical repeater comprising a. According to claim 6,
The control unit,
The connection information processing server of the optical repeater, characterized in that by checking the status report message, based on the IP of the main hub unit included in the specific field, the IP of the optical repeater connected to the main hub unit is confirmed. According to claim 7,
The control unit,
The connection information processing of the optical repeater characterized in that by checking the link information response message, an optical repeater ID connected to the optical repeater IP and a pre-stored optical repeater ID are checked, and if the optical repeater IDs are different, the connection information is updated. server. delete delete According to claim 6,
The control unit,
The IP of the main hub unit included in the link information response message and the ID of the optical repeater to which the main hub unit is connected are checked, and a temporary database is created by processing the link information response message. Connection information processing server. According to claim 11,
The control unit,
If the first field and the second field of the temporary database and the previously stored database are different, or the ID of the wireless signal processor included in the previously stored database is different from the ID of the optical repeater included in the temporary database, the connection information is updated. Connection information processing server of the optical repeater, characterized in that for doing. A plurality of optical repeaters connected to the base station;
a plurality of main hub units connected to each of the optical repeaters; and
It is checked whether the connection information mode for checking connection information of the optical repeater connected to the base station is a status report message checking mode for checking a status report message or a link information checking mode for checking link information, and the connection information mode is the status report message checking mode, receives a status report message from the main hub unit, checks a specific field of the status report message to update the connection information, and if the connection information mode is the link information checking mode, A link information request message is generated and transmitted to the main hub unit through the base station, a link information response message corresponding to the link information request message is received from the main hub unit, and the link information response message is checked to establish the connection a monitoring server that updates information;
Connection information processing system of an optical repeater comprising a.

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