KR20100087897A - System, location detecting server and method for constructioning of pilot cell database - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pilot cell database construction system, a location measurement server, and a method. , The distance between the current location of the mobile terminal and the reference base station serving the mobile terminal, the distance of the adjacent base station located at a distance close to the current location, and the distance of the pilot cell database for the reference base station based on the current location By judging and constructing a pilot cell database, there is an effect of improving the accuracy of the position measurement for the mobile terminal.

Description

System, Location Detecting Server and Method for Constructioning of Pilot Cell Database}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technique for constructing a pilot cell database. The present invention relates to constructing a pilot cell database at a current location using data about a pilot cell associated with a neighbor base station having a frequency pattern similar to that of a reference base station serving a mobile terminal. A pilot cell database construction system, a location measurement server, and a method are provided.

Among various wireless Internet services using a mobile communication terminal, in particular, a location based service (LBS) is a service that is widely attracted for its wide utility and convenience. The location-based service refers to a communication service that detects a location of a mobile terminal including a mobile communication terminal and a personal digital assistant (PDA) and provides additional information related to the identified location.

These location-based services can be used in a variety of areas, including rescue requests, response to crime reports, geographic information systems for providing information in neighboring areas, traffic information, vehicle navigation and logistics control.

However, the existing location information collection method for location-based services has a disadvantage in that it is difficult to collect current location information of the mobile terminal from the mobile terminal when the mobile terminal is located in a place such as a shadow area or a building. To solve this problem, the location information database for the shadow area should be established in advance.

However, in order to construct this, there is a cumbersome problem in that a person visits a shaded area and collects various data directly, and a problem that takes a lot of time to collect multiple data.

In order to solve this conventional problem, an object of the present invention is to build a pilot cell database for constructing a pilot cell database at a current location with pilot cell data related to a neighboring base station having a frequency pattern similar to that of a reference base station serving a mobile terminal. To provide a location measurement server and method.

Another object of the present invention is a pilot cell database for a reference base station based on the current position of the mobile terminal and the distance of the reference base station serving the mobile terminal, the distance of the adjacent base station located in close proximity to the current position, the current position The present invention provides a pilot cell database construction system, a location measurement server, and a method for determining a distance determined and constructing a pilot cell database at a current location.

In order to achieve this object, the pilot cell database construction system according to the present invention receives a message from the mobile terminal, including the current location information of the mobile terminal and data for a reference base station serving the mobile terminal and a plurality of neighbor base stations. A data analysis server configured to receive the message from the data analysis server, extract current location information of the mobile terminal, and have a frequency pattern similar to that of the reference base station serving the mobile terminal corresponding to the location; If the data for the base station is present in the message includes a positioning server for establishing a pilot cell database with the pilot cell data associated with the neighboring base station.

In addition, the location measurement server according to the present invention receives a message containing the current location information of the mobile terminal and data for the reference base station and a plurality of neighboring base stations serving the mobile terminal from the mobile terminal to the current location of the mobile terminal Location extractor for extracting information, Condition determination unit for determining the presence of a neighboring base station having a frequency pattern similar to the frequency pattern of the reference base station serving as the mobile terminal at the location of the plurality of neighboring base stations included in the message And a DB constructing unit for constructing a pilot cell database with pilot cell data associated with the neighboring base station if a neighboring base station having a frequency pattern similar to the frequency pattern of the reference base station exists in the message.

The condition determining unit may determine whether a distance between the current location and the reference base station is greater than or equal to a first threshold and provide the determination result to the DB building unit.

The condition determining unit may determine whether the distance between the current location and the pilot cell database including the reference base station and the current location is greater than or equal to a second threshold, and provide the determination result to the DB building unit.

The condition determining unit may determine whether a distance between adjacent base stations close to the current location among the plurality of adjacent base stations is less than the first threshold and greater than or equal to the second threshold, and provides the determination result to the DB building unit. It is done.

The DB constructing unit may construct a pilot cell database using pilot cell data related to the neighboring base station when the plurality of neighboring base stations included in the message satisfy the determination condition according to the determination result provided by the condition determining unit. It is done.

The apparatus may further include a database storing a pilot cell database constructed by the DB constructing unit.

In addition, the method for constructing a pilot cell database according to the present invention includes the steps of requesting the location of the mobile terminal to the data analysis server to measure the current location of the mobile terminal, and the location measurement server through the data analysis server. Receiving a message including the current location information of the mobile terminal and data for a reference base station serving the mobile terminal and a plurality of neighboring base stations from the mobile terminal, wherein the location measurement server includes the mobile terminal included in the message; Extracting location information of the mobile station and determining whether data for a neighboring base station having a frequency pattern similar to that of the reference base station serving the mobile terminal at the location exists in the message; , The frequency pattern of the reference base station and If the data for the adjacent base station having a similar frequency patterns are present in the message it comprises the steps of building a database with the pilot cell pilot cell data in association with the neighbor BS.

As described above, the present invention can improve the accuracy of position measurement for a mobile terminal by constructing a pilot cell database at a current location with pilot cell data related to a neighboring base station having a frequency pattern similar to that of a reference base station serving the mobile terminal. It works.

In addition, the present invention is a pilot cell database for the reference base station based on the current position of the mobile terminal and the distance of the reference base station serving the mobile terminal, the distance of the neighboring base station located in close proximity to the current position, the current position By constructing a pilot cell database at the current location by determining the distance, there is an effect of improving the accuracy of the position measurement for the mobile terminal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the embodiments, descriptions of technical contents that are well known in the technical field to which the present invention belongs and are not directly related to the present invention are omitted. This is to more clearly communicate without obscure the core of the present invention by omitting unnecessary description.

In the present invention, the mobile terminal is a terminal for providing a location-based service to the user, and may be used in place of a mobile communication terminal, a mobile phone, a personal digital assistant (PDA), a smart phone. In addition, in the present invention, a mobile terminal is described as an example of a terminal based on the All-IP method, but it is preferable that the terminal does not depend on a communication method such as a terminal based on the CDMA, WCDMA, and GSM methods.

1 is a block diagram showing the main configuration of a pilot cell database building system according to an embodiment of the present invention. FIG. 2 is a block diagram showing the main configuration of the positioning server of FIG. 1.

1 and 2, the pilot cell database building system 10 according to an embodiment of the present invention is a mobile terminal 100, quality acquisition server 110, communication network 120, data analysis server 130, Includes a location measurement server 140.

The mobile terminal 100 establishes traffic with the data analysis server 130 via the communication network 120 in order to use a network-based location-based service.

In particular, the mobile terminal 100 includes data related to the quality of the pilot cell (pCell) currently providing the service (ie, the number of the mobile terminal 100, the identification number of the base station where the mobile terminal 100 is located, and the mobile terminal). Latitude / longitude coordinates of the terminal 100 to the quality acquisition server 110 and receives a triggering message from the data analysis server 130. The mobile terminal 100 receiving the triggering message measures its current location while transmitting / receiving the first message with the data analysis server 130 using the traffic set with the data analysis server 130. In this case, when the mobile terminal 100 is in an in-building environment, GPS signals cannot be received, so the mobile terminal 100 requests latitude / longitude coordinate information from the HSS 122 of the communication network 120. do.

In this case, the first message means a message by a positioning protocol corresponding to a communication method. That is, in the synchronous code division multiple access (CDMA) scheme, the first message is a message according to the IS-801 protocol, and in the asynchronous wideband code division multiple access (WCDMA) scheme, the first message is a message according to the RRLP protocol, and a European time division is performed. In the Global System for Mobile Communication (GSM) scheme, which is a mobile communication system, a message according to the RRC protocol is applied to the first message.

In addition, the mobile terminal 100 generates a second message including the current location information to which it belongs. The mobile terminal 100 transmits a second message to the data analysis server 130 using the traffic set up with the data analysis server 130. At this time, the mobile terminal 100 transmits the latitude / longitude coordinate information received from the HSS 122 to the data analysis server 130 by including it in the second message.

In this case, the second message is a message similar to the pilot phase measurement message in the CDMA scheme, and includes information of a system currently being serviced, a pilot signal of a neighboring base station, and a signal strength (Ec / lo). The information on the system currently in service includes a mobile communication system number, a mobile communication network number, a base station number, a base station sector number currently serving (REF_PN, hereinafter referred to as a reference base station), a pilot phase in the reference base station, and the like. In addition, the pilot signal of the neighboring base station includes distance data such as number of neighboring base station sectors (PN, hereinafter referred to as neighboring base station) collected from the mobile terminal 100, pilot phase, signal strength, etc. in each neighboring base station. .

In addition, the second message is a PPM (Pilot Phase Measurement) message used in the IS-801 protocol in the CDMA scheme, a message used in the RRLP protocol in the WCDMA scheme, and a message used in the RRC protocol in the GSM scheme.

The quality acquisition server 110 obtains data related to the quality of service of the pilot cell including the reference base station currently providing the service to the mobile terminal 100 from the mobile terminal 100. In particular, the quality acquisition server 110 is the number of the mobile terminal 100, the identification number for the base station where the mobile terminal 100 is located, the latitude and longitude coordinates of the location where the mobile terminal 100 is currently located, the mobile terminal ( The mobile station 100 performs a location measurement request from the mobile terminal 100 to the location measurement server 140 while transmitting from the location 100 to the location measurement server 140.

The communication network 120 includes a general packet radio service (GPRS) 121, a home subscriber server (HSS) 122, a call state control function (CSCF) 123, and is wirelessly connected to the mobile terminal 100. The mobile terminal 100 performs various functions for performing a mobile communication service such as a voice communication service, a wireless data service, or a wireless internet service message service.

The GPRS 121 performs an access function between the communication network 120 and an external packet data network, performs a data packet forwarding function with a base station in a service area, a Gateway GPRS Support Node (GGSN) and a Serving GPRS Support Node (SGSN). ).

The HSS 122 is a database that stores service profiles related to mobile subscriber information. The HSS 122 includes a mobile identification number (MIN), a mobile serial number (ESN), and a service type of the mobile terminal 100. Store information and subscriber information.

The CSCF 123 is responsible for the part related to call and session processing. That is, the CSCF performs a call control function, a serving profile database (SPD) function, an address processing function, and the like, for incoming signals from different CSCFs.

The data analysis server 130 transmits a triggering message to the mobile terminal 100 via the communication network 120 according to the location measurement request of the mobile terminal 100 received from the location measurement server 140. In addition, the data analysis server 130 receives the second message from the mobile terminal 100 via the communication network 120, and transmits the received second message to the location measurement server 140.

At this time, the data analysis server 130 is applied to the Position Determination Entity (PDE) in the CDMA method, a Position Server (PS) in the WCDMA method, and a Serving Mobile Location Center (SMLC) in the GSM method.

The location measurement server 140 constructs and stores a pilot cell database. To this end, the location measurement server 140 includes a location extracting unit 141, a condition determination unit 142, a DB building unit 143, and a database 144.

In this case, the pilot cell database is a database in which the location service target area is divided into grid units having a predetermined size, each grid is defined as a pilot cell, and an ID having unique information is assigned. The unique information of the pilot cell ID can be latitude / longitude data of the center point of each grid and latitude / longitude data of all vertices, and the grid size can be divided into 100X100m, 50X50m, 25X25m, etc. according to the measurement accuracy specification. have.

The location extractor 141 extracts the current location of the mobile terminal 100 using the latitude / longitude coordinate information of the mobile terminal 100 included in the second message received from the data analysis server 130, and then the mobile terminal 100. Extract the identification number for the base station where) is located.

The condition determination unit 142 extracts data about a reference base station providing a service to the mobile terminal 100, distance data and time data of adjacent base stations, etc. based on the second message received from the data analysis server 130. do. The condition determining unit 142 is a distance between a base station corresponding to the current location of the mobile terminal 100 and a reference base station providing a service to the mobile terminal 100, and a base station corresponding to the current location among a plurality of adjacent base stations. It is determined whether the distance between the adjacent base station and the distance between the current location and the established pilot cell database close to a close distance meets a specific condition.

More specifically, the condition determining unit 142 is the current of the mobile terminal 100 when the distance of the reference base station providing a service to the mobile terminal 100 from the base station corresponding to the current position is greater than or equal to the first threshold (for example, 500m). The determination result is provided to the DB constructing unit 143 to construct a pilot cell database with pilot cell data related to the reference base station at the location.

The condition determining unit 142 may be located at the current location of the mobile terminal 100 when the distance from the adjacent base station close to the closest distance to the base station corresponding to the current location is greater than or equal to the second threshold (eg, 300 m) and less than the first threshold. The determination result is provided to the DB building unit 143 to construct a pilot cell database using pilot cell data related to the neighbor base station.

The condition determination unit 142 determines the DB to determine the pilot cell database at the current position using the instrumented pilot cell database when the distance between the pilot cell database closest to the current position and the current position is greater than or equal to the second threshold. It provides to the construction unit (143). At this time, the instrumented pilot cell database is preferably instrumented by the key (key) and the base station corresponding to the current position.

For this reason, the positioning server 140 may improve the accuracy of the positioning of the mobile terminal 100 by constructing a pilot cell database using data that has been recognized and erased as unnecessary data in the past.

In addition, the condition determination unit 142 determines whether adjacent base stations having a frequency pattern similar to that of the reference base station among the adjacent base stations included in the second message are continuously collected. As a result of the determination, if there is a neighboring base station having a frequency pattern similar to that of the reference base station, the pilot cell database may be constructed using only pilot cell data related to the neighboring base station.

The condition determination unit 142 may construct a pilot cell database using only pilot cell data related to neighboring base stations satisfying any one of the three conditions among neighboring base stations having similar frequency patterns. For this reason, the location measurement server 140 may set the conditions for constructing the pilot cell database in detail, thereby building a more accurate and high accuracy database when constructing the pilot cell database.

When the data included in the second message satisfies the determination condition, the DB building unit 143 constructs a pilot cell database based on the data satisfying the determination condition according to the determination result of the condition determination unit 142.

The database 144 stores a pilot cell database constructed by the DB constructing unit 143.

3 is a flowchart illustrating a pilot cell database building method according to an embodiment of the present invention. 4 is an exemplary diagram illustrating a message received by a location measurement server from a mobile terminal for building a pilot cell database according to an embodiment of the present invention. 5 is a screen example for explaining a pilot cell database construction according to an embodiment of the present invention.

3 to 5, in step S301, the mobile terminal 100 transmits data related to the quality of the pilot cell to the quality acquisition server 110. The quality acquisition server 110 receives the location measurement server 140 by receiving the number of the mobile terminal 100, the identification number for the base station where the mobile terminal 100 is located in step S302 from the mobile terminal 100 While transmitting to the mobile station 100 requests the position measurement.

In step S303, the location measurement server 140 requests the data analysis server 130 to measure the location of the mobile terminal 100, and the data analysis server 130 that receives the trigger message to the mobile terminal 100 in step S304. Send it.

In this case, the triggering message plays a role of giving a command for position measurement to the mobile terminal 100 so that the mobile terminal 100 can obtain location information of a location where the mobile terminal 100 is currently located.

Subsequently, in step S305, the mobile terminal 100 transmits and receives a positioning protocol message (first message) according to the communication method with the data analysis server 130, and in step S306, the mobile terminal 100 measures the location where it is currently located. Do this. In this case, when the mobile terminal 100 is in an in-building environment, since the mobile terminal 100 cannot directly receive a GPS signal, the mobile terminal 100 may use latitude / longitude coordinates as the HSS 122 of the communication network 120. You can request information to receive the coordinates of where you are.

In step S307, the mobile terminal 100 generates a second message including the current location information to which it belongs and transmits the second message to the data analysis server 130 by using the traffic set with the data analysis server 130.

In this case, the second message may include latitude / longitude coordinate information received by the mobile terminal 100 from the HSS 122, and the second message includes a mobile communication system number currently serving each pilot cell and a base station of the mobile communication network. Number, identification number of the reference base station serving at the current location, neighbor list of neighboring base stations of the reference base station, distance data and time data of neighboring base stations located in close proximity to the reference base station, signal strength (Ec / lo), etc. Include.

In the present invention, although the second message includes the latitude / longitude coordinate information of the mobile terminal 100 and transmits the second message to the data analysis server 130, the latitude / longitude coordinate information of the mobile terminal 100 is described. And a second message may be transmitted to the data analysis server 130, respectively.

In operation S308, the data analysis server 130 transmits the second message received from the mobile terminal 100 to the location measurement server 140. Thereafter, in step S309, the location measurement server 140 extracts and confirms the current location of the mobile terminal 100 included in the second message, and extracts the identification number of the base station corresponding to the current location. In addition, in step S309, the location measurement server 140 is the data associated with the reference base station referenced by the mobile terminal 100 included in the second message at the current location, neighboring base stations present in the closest position to the base station for the current location Extract distance data and time data between them.

In operation S310, the location measurement server 140 determines whether the distance from the base station corresponding to the current location included in the second message to the reference base station providing the service to the mobile terminal 100 is greater than or equal to the first threshold (eg, 500 m). do. As a result of the determination in step S310, if the distance between the base station corresponding to the current location of the mobile terminal 100 and the reference base station is greater than or equal to the first threshold, the location measurement server 140 proceeds to step S313, and if it is not greater than or equal to the first threshold, S311. Proceed to step.

In step S311, the location measurement server 140 determines whether the distance between the base station corresponding to the current location and the neighboring base station at the closest distance is greater than or equal to the second threshold (for example, 300m) and less than the first threshold. As a result of the determination in step S311, if the distance between the base station closest to the base station corresponding to the current position is greater than or equal to the second threshold and less than the first threshold, the location measurement server 140 proceeds to step S313, and if it is less than the second threshold, S312. Proceed to step.

In step S312, the location measurement server 140 determines whether the distance between the pilot cell database and the current location that is closest to the current location is greater than or equal to the second threshold. As a result of the determination in step S312, if the location of the pilot cell database built closest to the current position is greater than or equal to the second threshold, the location measurement server 140 proceeds to step S313, and if it is less than the second threshold, proceeds to step S314. At this time, the instrumented pilot cell database is preferably instrumented by the key (key) and the base station corresponding to the current position.

In addition, the second message in step S310 to step S312 may be represented as shown in FIG. In FIG. 4, a REF PN constituting 410 represents a reference base station providing a service to the mobile terminal 100, and PN 1, PN 2, and PN 7 represent neighboring base stations close to the REF PN. In this case, although various data exist in the second message, only the base station is indicated for convenience of description.

In addition, when the second message received after 410 is equal to 420, the mobile terminal 100 may recognize that the mobile station 100 exists in a handoff area of the REF PN and PN 1.

Conventionally, a pilot cell database is generated by determining that data is reliable only when data included in the second message does not satisfy the above conditions, and all other data are erased. However, the present invention collects all the data for the adjacent base station included in the second message to build a pilot cell database where the mobile terminal 100 is located, thereby measuring the position of the mobile terminal 100 in more detail.

Thereafter, in step S313, if the location measurement server 140 satisfies the above conditions, the neighboring base station having a frequency pattern similar to that of the reference base station in which the mobile terminal 100 receives the service is present. Determine.

As a result of the determination in step S313, if there is a neighboring base station having a frequency pattern similar to that of the reference base station among the data included in the second message, the process proceeds to step S314 of the location measurement server 140 to a neighboring base station having a similar frequency pattern to the reference base station. Build a pilot cell database with relevant pilot cell data. At this time, the present invention is described as performing the step S313 after performing the step S310 to S312, but is not limited to this, even if the step S310 to S312 after performing the step S313 is irrelevant to the implementation. To be clear.

More specifically, as shown in FIG. 5, area A represents a region within a second threshold value, that is, 300 m, based on a location where the mobile terminal 100 is located, and area B represents 300 m based on a location where the mobile terminal 100 is located. From the above, the first threshold value, that is, an area within 500 m is shown. In addition, area C represents an area of 500 m or more based on the location where the mobile terminal 100 is located.

In this case, the mobile terminal 100 may receive a service from a base station 502 (hereinafter referred to as a reference base station) existing in the C region. In this case, since the pilot cell database corresponding to the reference base station 502 does not exist in the pilot cell database existing in the area A where the actual mobile terminal 100 is located, the frequency pattern similarity from the reference base station 502 farther from the actual location. Find it. Therefore, a large error occurs between the current position and the measured position of the mobile terminal 100, which causes a problem that the accuracy of the measurement of the position of the mobile terminal 100 may be degraded. Therefore, the positioning server 140 establishes a pilot cell database in the area A with data about the pilot cell associated with the reference base station 502.

In FIG. 5, the base station 503 existing in the area B represents the neighboring base station 503 located at the closest distance from the current position of the mobile terminal 100. The location measurement server 140 determines whether the distance between the base station corresponding to the current location and the neighboring base station 503 is greater than or equal to a second threshold (eg, 300 m) and less than the first threshold. As a result of determination, when the distance between the current location and the neighboring base station 503 belongs to the area B, the positioning server 140 constructs a pilot cell database in the area A with data about the pilot cell associated with the neighboring base station 503. .

In FIG. 5, when the pilot cell database that is closest to the current position of the mobile terminal 100 exists at 300 m or more from the current position, the location measurement server 140 is a pilot cell database that is instrumented to the area A. Build a cell database.

In conclusion, even if the location measurement server 140 receives a service through the reference base station 503 located at a location far from the current location of the mobile terminal 100, the information of the pilot cell related to the reference base station 503, A pilot cell database is constructed in the area A using information of a pilot cell associated with a neighbor base station 502 having a frequency pattern similar to that of the reference base station 503. Accordingly, the mobile terminal 100 may be provided with a service from a base station corresponding to base station data existing in a pilot cell database constructed at a current location without receiving a service through a reference base station 503 located at a remote location. Therefore, the current position of the mobile terminal 100 can be measured more accurately.

While the invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

The present invention is applicable to a location measurement service of a mobile terminal, and more particularly, by constructing a pilot cell database with pilot cell data related to a neighboring base station collected by collecting a neighbor base station adjacent to a reference base station where the mobile terminal is serving. Location measurement services.

1 is a configuration diagram showing the main configuration of a pilot cell database building system according to an embodiment of the present invention

FIG. 2 is a block diagram showing the main configuration of the positioning server of FIG. 1. FIG.

3 is a flowchart illustrating a method for establishing a pilot cell database according to an embodiment of the present invention.

4 is an exemplary view illustrating a message received by a location measurement server from a mobile terminal for building a pilot cell database according to an embodiment of the present invention.

5 is an exemplary screen illustrating a pilot cell database construction according to an embodiment of the present invention.

<Description of main parts of drawing>

100: mobile terminal 110: quality acquisition server

120: network 121: GPRS

122: HSS 123: CSCF

130: data analysis server 140: location measurement server

141: position extraction unit 142: condition determination unit

143: DB construction unit 144: Database

Claims (8)

A data analysis server for receiving a message from the mobile terminal, wherein the message includes current location information of the mobile terminal and data for a reference base station serving the mobile terminal and a plurality of adjacent base stations; Receiving the message from the data analysis server to extract the current location information of the mobile terminal, the data for the adjacent base station having a frequency pattern similar to the frequency pattern of the reference base station in service to the mobile terminal corresponding to the location is A location measurement server, if present in the message, establishing a pilot cell database with pilot cell data associated with the neighbor base station; Pilot cell database building system comprising a. A location extracting unit for receiving a message including current location information of the mobile terminal, data of reference base stations serving the mobile terminal and data of a plurality of neighboring base stations from the mobile terminal and extracting current location information of the mobile terminal; A condition determination unit that determines whether there is a neighboring base station having a frequency pattern similar to that of the reference base station serving the mobile terminal at the location among the plurality of neighboring base stations included in the message; A DB constructing unit for constructing a pilot cell database with pilot cell data associated with the neighboring base station if a neighboring base station having a frequency pattern similar to that of the reference base station exists in the message as a result of the determination of the condition determining unit; Location measurement server comprising a. The method of claim 2, The condition determination unit And determining whether the distance between the current location and the reference base station is greater than or equal to a first threshold and providing the determination result to the DB building unit. The method of claim 3, The condition determination unit And determining whether a distance between a pilot cell database including the current location and the reference base station and the current location is greater than or equal to a second threshold, and providing the determination result to the DB building unit. The method of claim 4, wherein The condition determination unit And determining whether the distance between the neighboring base station close to the current location among the plurality of neighboring base stations is less than the first threshold and greater than or equal to the second threshold, and provides the determination result to the DB building unit. The method according to any one of claims 3 to 5, The DB construction unit And if the plurality of neighbor base stations included in the message satisfy the determination condition according to the determination result provided by the condition determination unit, constructing a pilot cell database with pilot cell data related to the neighbor base station. The method of claim 6, A database storing a pilot cell database constructed by the DB building unit; Position measurement server, characterized in that it further comprises. Requesting, by a location measuring server, the location of the mobile terminal to the data analysis server to measure the current location of the mobile terminal; Receiving, by the location measurement server, a message including the current location information of the mobile terminal and data of a reference base station serving the mobile terminal and a plurality of neighbor base stations from the mobile terminal through the data analysis server; The location measurement server extracts location information of the mobile terminal included in the message, and data for a neighbor base station having a frequency pattern similar to that of a reference base station serving the mobile terminal at the location exists in the message. Judging; When the positioning server determines that data for a neighboring base station having a frequency pattern similar to that of the reference base station is present in the message, establishing a pilot cell database with pilot cell data related to the neighboring base station; Pilot cell database building method comprising a.

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