KR102360968B1 - System and method for location measurement - Google Patents

Abstract

Disclosed are a positioning system and method for subdividing a positioning unit into a ROU (Remote Optic Unit) unit of a repeater to accurately determine the location of a mobile terminal. A positioning system using a repeater according to an embodiment includes: a network management system for storing cell identification information and location information for each remote optical unit of the repeater; Checking the cell identification information of the mobile terminal requested for positioning, and changing the cell identification information of the mobile terminal to the cell identification information of the remote optical unit of the repeater in which the mobile terminal is present when the mobile terminal is in the repeater service area base station; and a positioning server for requesting cell identification information of the mobile terminal from the base station and obtaining location information corresponding to the received cell identification information from the network management system in response thereto.

Description

Location measurement system and method {System and method for location measurement}

The present invention relates to positioning technology, and more particularly, to a positioning system and method capable of measuring the location of a mobile terminal by analyzing a repeater area.

As a method of positioning a mobile terminal in a cellular access network, a method using a cell ID is most commonly used. Typically, in the case of a Long Term Evolution (LTE) system, after acquiring E-UTRAN Cell Global Identifier (ECGI) information using S1AP Initial UE message, etc., the ID of the cell in which the mobile terminal is located is checked, or LTE Positioning Protocol A (LPPa) is obtained. ) After obtaining ECGI information through the Enhanced-Cell IDentifier (E-CID) measurement procedure, the ID of the cell in which the mobile terminal is located is checked. ECGI consists of MCC (Mobile Country Code), MNC (Mobile Network Code), eNB ID, and Cell ID, so you can check the ID of the cell where the mobile terminal is located from the ECGI, and the location information corresponding to the cell ID is It is obtained by using the location information for each cell ID provided by the telecommunication service provider.

However, when a plurality of repeaters service the same cell, since the cell ID is the same in each repeater region, the region for each repeater cannot be distinguished, so that accurate location information on where the mobile terminal is located in the cell cannot be provided. For example, when all four-story buildings are serviced by the same cell and different repeaters serve each floor, it is known that the mobile terminal is located in the corresponding building, but it is not known on which floor it is located.

The present invention has been proposed to solve these conventional problems, and it provides a positioning system and method for subdividing a positioning unit into ROU (Remote Optic Unit) units of a repeater so that the location of a mobile terminal can be accurately identified. There is a purpose.

Other objects and advantages of the present invention may be understood by the following description, and will become more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the appended claims.

A positioning system using a repeater according to an embodiment includes: a network management system for storing cell identification information and location information for each remote optical unit of the repeater; Checking the cell identification information of the mobile terminal requested for positioning, and changing the cell identification information of the mobile terminal to the cell identification information of the remote optical unit of the repeater in which the mobile terminal is present when the mobile terminal is in the repeater service area base station; and a positioning server for requesting cell identification information of the mobile terminal from the base station and obtaining location information corresponding to the received cell identification information from the network management system in response thereto.

The base station stores a mapping table of service frequency information and cell identification information for each remote optical unit of the repeater, and uses the service frequency information of the remote optical unit of the repeater in which the mobile terminal is located in the mapping table. You can check cell identification information.

The positioning server, when the cell identification information received from the base station includes a bit corresponding to a remote optical unit, transmits the cell identification information received from the base station to the network management system to receive the location information can

The positioning server, when a repeater interface unit (RIU) identifier is included in a specific bit of the cell identification information received from the base station, transmits the cell identification information received from the base station to the network management system to provide the location information can receive

A location positioning system using a repeater according to another embodiment includes: a network management system for storing cell identification information and location information for each remote optical unit of the repeater; Check the cell identification information of the mobile terminal requested for positioning, and when the mobile terminal is in the repeater service area, change the cell identification information of the mobile terminal to the cell identification information of the remote optical unit of the repeater in which the mobile terminal is present, , a base station for obtaining location information corresponding to the changed cell identification information from the network management system; and a positioning server for requesting cell identification information of the mobile terminal from the base station and receiving the changed cell identification information and location information from the base station in response thereto.

The base station stores a mapping table of service frequency information and cell identification information for each remote optical unit of the repeater, and uses the service frequency information of the remote optical unit of the repeater in which the mobile terminal is located in the mapping table. You can check cell identification information.

A method for positioning a location of a mobile terminal in a positioning server according to another embodiment includes the steps of: requesting cell identification information of a mobile terminal for which positioning is requested; A base station that checks the cell identification information of the mobile terminal requested for positioning and changes the cell identification information of the mobile terminal to the cell identification information of the remote optical unit of the repeater in which the mobile terminal exists when the mobile terminal is in the repeater service area receiving the changed cell identification information from; and obtaining location information from a network management system that stores cell identification information for each remote optical unit of the repeater and location information by using the location information corresponding to the received cell identification information.

The base station stores a mapping table of service frequency information and cell identification information for each remote optical unit of a repeater, and the receiving includes, by the base station, service frequency information of a remote optical unit of a repeater in which the mobile terminal exists cell identification information of the remote optical unit can be checked from the mapping table using

The acquiring may include transmitting the cell identification information received from the base station to the network management system to receive the location information when the cell identification information received from the base station includes a bit corresponding to a remote optical unit. can

The obtaining may include, when a repeater interface unit (RIU) identifier is included in a specific bit of the cell identification information received from the base station, transmits the cell identification information received from the base station to the network management system to provide the location information can receive

A method for positioning a location of a mobile terminal in a positioning server according to another embodiment includes the steps of: requesting cell identification information of a mobile terminal for which positioning is requested; and check the cell identification information of the mobile terminal requested for positioning, and when the mobile terminal is in the repeater service area, change the cell identification information of the mobile terminal to the cell identification information of the remote optical unit of the repeater in which the mobile terminal exists, Receiving the changed cell identification information and the location information from the base station, which has obtained the location information corresponding to the changed cell identification information from a network management system that stores the cell identification information and location information for each remote optical unit of the repeater includes

The base station stores a mapping table of service frequency information and cell identification information for each remote optical unit of the repeater, and uses the service frequency information of the remote optical unit of the repeater in which the mobile terminal is located in the mapping table. You can check cell identification information.

According to the present invention, it is possible to more accurately position the position of the mobile terminal by subdividing the positioning unit into the repeater ROU (Remote Optic Unit) unit.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with specific details for carrying out the invention, so the present invention is described in such drawings It should not be construed as being limited only to the matters.
1 is a view showing a positioning system according to an embodiment of the present invention.
2 is a diagram illustrating a mapping table of frequency resource information and cell identification information for each ROU according to an embodiment of the present invention.
3 is a diagram illustrating a bit string of an E-CID.
4 is a diagram illustrating a mapping table of cell identification information and location information for each ROU managed by the NMS according to an embodiment of the present invention.
5 is a flowchart illustrating a method for positioning a location of a mobile terminal according to an embodiment of the present invention.
6 is a flowchart illustrating a method for positioning a location of a mobile terminal according to another embodiment of the present invention.

The above-described objects, features, and advantages will become more apparent through the following detailed description in relation to the accompanying drawings, whereby those of ordinary skill in the art to which the present invention pertains can easily implement the technical idea of the present invention. There will be. In addition, in the description of the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. Throughout the specification, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated.

1 is a view showing a positioning system according to an embodiment of the present invention. Referring to FIG. 1 , the positioning system according to this embodiment includes repeaters 110 and 120 , a base station 130 , a positioning server 150 and a Network Management System (NMS) 140 . In this specification, a mobile terminal (terminal) is a mobile station (Mobile Station, MS), a subscriber station (Subscriber Station, SS), a portable subscriber station (Portable Subscriber Station, PSS), a user equipment (User Equipment, UE), an access terminal ( Access Terminal (AT) and the like, and may include all or part of functions of a subscriber station, a portable subscriber station, and a user equipment.

The repeaters 110 and 120 include a remote optical unit (ROU: Remote Optical Unit, hereinafter referred to as ROU) 110 and a main hub unit (MHU: Master Hub Unit, hereinafter referred to as MHU) 120 . A plurality of ROUs 110 are connected to one MHU 120 . The MHU 120 is connected to the base station 130 and is connected to a plurality of ROUs 110 through optical lines.

The MHU 120 has a plurality of ROUs 110 and a plurality of optical connection points that can be connected through an optical line, and each optical connection point is connected to a plurality of ROUs 110 through an optical line. The MHU 120 converts a radio frequency (RF) signal received from the base station 130 in forward communication into a plurality of optical signals and outputs the plurality of optical signals through each optical connection point. And in reverse communication, the MHU 120 converts an optical signal received from a plurality of connected ROUs 110 into a radio frequency (RF) signal and transmits it to the base station 130 . Specifically, the MHU 120 converts the digital optical signal received from the ROU 110 back from a digital signal to an analog signal, increases the frequency to an intermediate frequency (IF) signal, and transmits it to the base station 130 .

The plurality of ROUs 110 are installed in the shaded area. A plurality of ROU 110 is connected to each optical connection point of the MHU 120 through an optical line, and can communicate with other connected ROU 110 in a multi-hop manner. That is, at least one ROU 110 is connected between one optical access point and the mobile terminal. Each ROU 110 relays a signal to a mobile terminal (not shown) within its coverage area and transmits a signal from the mobile terminal to the MHU 120 . A plurality of ROU 110 converts the digital optical signal received from the MHU 120 again from a digital signal to an analog signal in the forward communication, increases the frequency to a radio frequency (RF) signal, and transmits it to the mobile terminal through the repeater antenna. . In addition, the plurality of ROU 110 may transmit the digital optical signal received from the MHU 120 to another ROU 110 connected thereto. In addition, in reverse communication, the plurality of ROUs 110 down-convert a radio frequency (RF) signal received from a mobile terminal through a repeater antenna into a baseband signal, and converts an analog signal into a digital signal. At this time, if there is an optical signal transmitted from the other connected ROU 110 , the signal from the other ROU 110 and the converted digital signal are added and transmitted to the MHU 120 or the other connected ROU 110 . Each ROU 110 is allocated a service frequency band and transmits and receives a signal to and from the mobile terminal through the allocated service frequency band. Preferably, each ROU 110 is allocated with a limited service frequency band in the reverse communication without a particular limitation in the service frequency band in the forward communication. Accordingly, each ROU 110 may include a filter for filtering a signal of a limited service frequency band in reverse communication.

The base station 130 is connected to the core network 160 and transmits an RF signal for providing a mobile communication service to a mobile terminal within a service area of a cell unit managed by the base station 130 . In the shadow area that the base station 130 does not cover, the repeaters 110 and 120 are connected to the branch apparatus 130 to expand the service coverage as described above. The base station 130 may be an eNodeB of an LTE system, or a gNB of a next-generation system such as 5G. The base station 130 may be implemented by being divided into two or more devices. For example, the base station 130 may include one central unit (CU) and at least one distributed unit (DU). In this embodiment, the control unit 133 may be composed of such a central unit (CU) and a distribution unit (DU). As shown in FIG. 1 , the base station 130 is connected to the repeaters 110 and 120 through a repeater interface unit (RIU) 131 .

The storage unit 132 of the base station 130 stores a mapping table of frequency information (eg, resource block (RB) and cell identification information (eg, Enhanced-Cell IDentifier (E-CID)) for each ROU of the repeaters. 2 is a diagram illustrating a mapping table of frequency information and cell identification information for each ROU according to an embodiment of the present invention. As shown in FIG. 2, frequency information and cell identification information are mapped and stored for each ROU. In the case of 5G, there are a total of 273 RBs, and RBs are used for frequency information allocated to each ROU, as shown in Fig. 2. For example, ROU A is allocated from RB 0 to RB49. The mapping table The cell identification information of the ROUs stored in the ROU is not information transmitted to the mobile terminal, but is stored only in the storage unit 132 and utilized in the base station 130 as described below. That is, the repeaters 110 and 120 are the base stations 130 ) transmits a signal received from the mobile terminal to the mobile terminal and transmits a signal received from the mobile terminal to the base station 130, but the mobile terminal does not store the cell identification information assigned to each ROU 110 as cell identification information, and the Cell identification information of the base station 130 to which the ROU 110 is connected is stored.

When the cell identification information request for the mobile terminal is received from the positioning server 150, the controller 133 of the base station 130 obtains the cell identification information from the mobile terminal, and then determines whether a repeater service area of the mobile terminal exists. Accordingly, it is determined whether or not to change the obtained cell identification information of the mobile terminal. More specifically, when the mobile terminal exists in the repeater service area, the controller 133 refers to the mapping table stored in the storage 132 and accesses the cell identification information of the mobile terminal to the ROU 110 to which the mobile terminal is connected. ) is changed to the cell identification information corresponding to it and transmitted to the positioning server 150 . Since the service frequency band is limited and allocated for each ROU 110 , the control unit 133 of the base station 130 selects the ROU 110 accessed by the mobile terminal based on the frequency band of the signal received through the MHU 120 . By identifying, it is possible to check the cell identification information to be changed in the mapping table. The control unit 133 of the base station 130 records the cell identification information to be changed confirmed in the mapping table in a reserved bit among bits constituting the E-CID. The reserved bit is, for example, an ROU identification bit that identifies the ROU 110 as a predetermined specific number of bits. 3 is a diagram showing a bit string of the E-CID. The E-CID consists of a total of 36 bits, and a predetermined number of bits among the 36 bits constituting the E-CID are utilized as reserved bits, and the reserved bits correspond to the ROU. record the bit For example, as shown in FIG. 3, the lower 3 bits can be used as reserved bits, and two bits among the lower 3 bits identify the ROU and the other bit has a value of 0 or 1, so that it is 1. indicates that the mobile terminal is in the domain of the repeater. In this embodiment, this bit may be referred to as an RIU identifier (Indication). When the mobile terminal exists in the service area of the base station 130 rather than in the repeater service area, the control unit 133 of the base station 130 directly returns to the positioning server 150 without changing the cell identification information of the confirmed mobile terminal. send.

The Network Management System (NMS) 140 monitors and manages all devices on the network. In this embodiment, the NMS 140 stores a mapping table of cell identification information and location information for each ROU 110 , and when the cell identification information of the ROU 110 is received from the positioning server 150 , the received The location information corresponding to the cell identification information is retrieved from the mapping table and transmitted to the location location server 150 . Here, the location information may include an address or latitude and longitude coordinates. 4 is a diagram illustrating a mapping table of cell identification information and location information for each ROU managed by the NMS according to an embodiment of the present invention. As shown in FIG. 4 , the mapping table managed by the NMS 140 includes cell identification information for each ROU and location information corresponding thereto. Here, the cell identification information is the same as the cell identification information stored in the mapping table managed by the base station 130 shown in FIG. 2 .

The positioning server 150 is a device for managing positioning of a mobile terminal. The positioning server 150, when a location measurement request for a specific mobile terminal is received, obtains the ID of the cell in which the mobile terminal is located through the base station 130, and uses the ID of the cell to inquire the location information. After that, the location information is transmitted to the location that has requested location location. More specifically, the positioning server 150, when a location measurement request for a specific mobile terminal is received, requests cell identification information to the base station 130, and cell identification information from the base station 130, for example, E- When the CID is received, it is determined whether the mobile terminal exists in the service area of the repeaters 110 and 120 with reference to the reserved bit of the E-CID. The positioning server 150 may receive the E-CID according to an LTE Positioning Protocol Annex (LPPa). When the mobile terminal exists in the service area of the repeaters 110 and 120, the positioning server 150 transmits the E-CID to the NMS 140 to correspond to the repeater in which the mobile terminal exists, that is, the ROU 110. Receive location information. The positioning server 150 may determine whether the mobile terminal exists in the service area of the repeater through the RIU identifier recorded in the reserved bit of the E-CID. The positioning server 150 may include, for example, a Location Management Function (LMF), an enhanced serving mobile location center (e-SMLC), or a Gateway Mobile Location Center (GMLC).

The core network 160 is an LTE core network or a 5G core network. The LTE core network may include a Mobility Management Entity (MME), and the 5G core network may include an Access and Mobility Management Function (AMF), but is not necessarily limited thereto. The core network 160 connects the positioning server 150 and the base station 130 . When the cell identification information request for the mobile terminal is received from the positioning server 150, the core network 160 transmits a paging to the mobile terminal when the mobile terminal is in an idle state, so that the mobile terminal is connected and connected. After entering the state, the cell identification information is obtained through the NG-AP/S1AP Initial UE message, or, if the mobile terminal is in the connected state, through the NG-AP/S1AP Initial UE message received during the previous connection. Cell identification information may be obtained.

In the above embodiment, the positioning server 150 receives the cell identification information and then transmits the cell identification information to the NMS 140 to receive the location information corresponding to the ROU 110 in which the mobile terminal exists from the NMS 140 . has been described, but is not limited thereto. As another embodiment, when the mobile terminal exists in the service area of the repeaters 110 and 120, the base station 130 determines the ROU 110 in which the mobile terminal exists, and then transmits the cell identification information of the determined ROU 110. Directly transmitted to the NMS 140 to receive the location information corresponding to the cell identification information of the ROU 110 from the NMS 140, the received location information and the changed cell identification information together with the location positioning server 150 can be sent to

5 is a flowchart illustrating a method for positioning a location of a mobile terminal according to an embodiment of the present invention.

Referring to FIG. 5 , in step S501 , the positioning server 150 transmits a cell identification information request for a specific mobile terminal to the base station 130 . For example, the positioning server 150 may request cell identification information according to an LTE Positioning Protocol Annex (LPPa), or may request cell identification information according to an NG-AP procedure.

In step S502, the base station 130 checks the ROU 110 to which the mobile terminal is connected. For example, the base station 130 may transmit paging to the mobile terminal and identify the ROU 110 based on the service frequency band of the ROU 110 when the mobile terminal accesses. As described above, since the service frequency band is limitedly allocated for each ROU 110 , the ROU 110 can be identified based on the service frequency band of the ROU 110 .

In step S503, the base station 130 checks the cell identification information of the mobile terminal. For example, the base station 130 may check the cell identification information of the mobile terminal through the NG-AP/S1AP Initial UE message. Then, the base station 130 refers to the mapping table of the frequency resource information and the cell identification information for each ROU 110 to check the cell identification information of the ROU 110 in which the mobile terminal exists, and the cell identification information of the mobile terminal to the It is changed to the cell identification information of the confirmed ROU 110 .

In step S504 , the base station 130 transmits the cell identification information of the mobile terminal changed in step S503 to the positioning server 150 through the core network 160 . In step S505, the positioning server 150 checks whether the ROU bit is included in the received cell identification information. The positioning server 150 checks whether a bit identifying the ROU is included in the reserved bit in the received cell identification information, for example, the E-CID. Preferably, check whether the RIU identifier is included.

If the received cell identification information includes the ROU bit, in step S506, the positioning server 150 transmits the received cell identification information to the NMS 140 to request the location information, and the NMS 140 Receives location information corresponding to the received cell identification information from On the other hand, when the ROU bit is not included in the received cell identification information, in step S507, the positioning server 150 does not exist in the service area of the repeater, so the mobile terminal does not exist in the service area of the repeater, so the received cell identification information is transmitted to the base station 130 ) to determine the cell identification information of the base station 130 to determine the location of the mobile terminal. The location location server 150 transmits location information to a location requesting location location.

6 is a flowchart illustrating a method for positioning a location of a mobile terminal according to another embodiment of the present invention.

Referring to FIG. 6 , in step S601 , the positioning server 150 transmits a cell identification information request for a specific mobile terminal to the base station 130 . For example, the positioning server 150 may request cell identification information according to an LTE Positioning Protocol Annex (LPPa), or may request cell identification information according to an NG-AP procedure.

In step S602, the base station 130 checks the ROU 110 to which the mobile terminal is connected. For example, the base station 130 may transmit paging to the mobile terminal and identify the ROU 110 based on the service frequency band of the ROU 110 when the mobile terminal accesses. As described above, since the service frequency band is limitedly allocated for each ROU 110 , the ROU 110 can be identified based on the service frequency band of the ROU 110 .

In step S603, the base station 130 checks the cell identification information of the mobile terminal. For example, the base station 130 may check the cell identification information of the mobile terminal through the NG-AP/S1AP Initial UE message. Then, the base station 130 refers to the mapping table of the frequency resource information and the cell identification information for each ROU 110 to check the cell identification information of the ROU 110 in which the mobile terminal exists, and the cell identification information of the mobile terminal to the It is changed to the cell identification information of the confirmed ROU 110 .

In step S604 , the base station 130 transmits the changed cell identification information to the NMS 140 to request location information, and receives location information corresponding to the changed cell identification information from the NMS 140 .

In step S605, the base station 130 transmits the cell identification information changed in step S603 and the location information confirmed in step S604 together to the positioning server 150. Accordingly, the positioning server 150 may check the location information of the mobile terminal, and transmit the confirmed location information to the location requesting location location.

While this specification contains many features, such features should not be construed as limiting the scope of the invention or the claims. Also, features described in individual embodiments herein may be implemented in combination in a single embodiment. Conversely, various features described herein in a single embodiment may be implemented in various embodiments individually, or may be implemented in appropriate combination.

The method of the present invention as described above may be implemented as a program and stored in a computer-readable form in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.). Since this process can be easily performed by a person skilled in the art to which the present invention pertains, it will not be described in detail any longer.

The present invention described above, for those of ordinary skill in the art to which the present invention pertains, various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It is not limited by the drawings.

110 : ROU
120: MHU
130: base station
131: RIU
133: control unit
132: storage
140: NMS
150: positioning server
160: core network

Claims (12)

In the positioning system using a repeater,
a network management system for storing cell identification information and location information of each of a plurality of remote optical units of the repeater;
The cell identification information of the mobile terminal requested for positioning is checked, the cell identification information of the mobile terminal is not changed when the mobile terminal is in the service area of the base station, and when the mobile terminal is in the repeater service area, the mobile terminal a base station for changing the cell identification information of the terminal to the cell identification information of the remote optical unit of the repeater in which the mobile terminal is present; and
and a positioning server for requesting cell identification information of the mobile terminal from the base station and obtaining location information corresponding to the received cell identification information from the network management system in response thereto;
The plurality of remote light units,
Service frequency bands are limitedly allocated for each remote optical unit,
The base station is
check cell identification information of the remote optical unit using the service frequency information allocated to the remote optical unit;
The positioning server,
When a bit corresponding to the remote optical unit is recorded in the received cell identification information, it is determined that the received cell identification information is the cell identification information of the remote optical unit,
When the bit corresponding to the remote optical unit is not recorded in the received cell identification information, determining the received cell identification information as the cell identification information of the base station
positioning system. The method of claim 1,
The base station is
A positioning system for storing a mapping table of service frequency information and cell identification information for each remote optical unit of the repeater. 3. The method of claim 2,
The positioning server,
When a bit corresponding to a remote optical unit is recorded in the cell identification information received from the base station, the cell identification information received from the base station is transmitted to the network management system to receive the location information. system. 4. The method of claim 3,
The positioning server,
When a specific bit of the cell identification information received from the base station includes a repeater interface unit (RIU) identifier, the location information is received by transmitting the cell identification information received from the base station to the network management system. positioning system. delete delete A method for positioning a mobile terminal in a positioning server, comprising:
requesting the cell identification information of the mobile terminal for which the positioning is requested to the base station;
Check the cell identification information of the mobile terminal requested for positioning, and if the mobile terminal exists in the service area of the base station, without changing the cell identification information of the mobile terminal, if the mobile terminal exists in the repeater service area of the mobile terminal receiving cell identification information from a base station that changes cell identification information to cell identification information of a remote optical unit of a repeater in which the mobile terminal exists; and
using the location information corresponding to the received cell identification information to obtain location information from a network management system that stores cell identification information and location information for each remote optical unit of the repeater;
The remote light unit,
Service frequency bands are limitedly allocated,
The receiving step is
Including, by the base station, the cell identification information of the remote optical unit using the service frequency information allocated to the remote optical unit;
The obtaining step is
When a bit corresponding to the remote optical unit is recorded in the received cell identification information, it is determined that the received cell identification information is the cell identification information of the remote optical unit, and the received cell identification information is included in the remote optical unit A method of determining the received cell identification information as the cell identification information of the base station when the bit corresponding to the is not recorded. 8. The method of claim 7,
The base station stores a mapping table of service frequency information and cell identification information for each remote optical unit of the repeater. 9. The method of claim 8,
The obtaining step is
When a bit corresponding to a remote optical unit is recorded in the cell identification information received from the base station, the cell identification information received from the base station is transmitted to the network management system to receive the location information. 10. The method of claim 9,
The obtaining step is
When a specific bit of the cell identification information received from the base station includes a repeater interface unit (RIU) identifier, the location information is received by transmitting the cell identification information received from the base station to the network management system. How to. delete delete

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