JP2002051000A - Error detection method and system of base-station installation location information and system in mobile communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method and a system for detecting an error in base- station installation location information with reduced human work and improved calculation efficiency. SOLUTION: In a mobile communication system constituted by base stations 12, 14 and 16 each coupled with a wired network 18 and mobile equipment 10, an error detection system includes, error detection equipment 20 coupled with the wired network 18, a base-station installation location information database 28 for storing installation location information of each base station corresponding to base-station identifier, and maintenance supervision equipment 30. Error detection equipment 20 is further constituted by a reception portion 22 for receiving a base-station identifier from mobile equipment 10, an acquisition portion 24 for acquiring base-station installation location information from base-station location information database 28, and an error detection portion 26 for determining error in the location information using an output result from acquisition portion 24.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and system for detecting an error in the installation position information of a base station in a mobile communication system, and more particularly, to a method for detecting a plurality of base stations from a mobile station communicating with a plurality of base stations. The station identifier is received, the installation position information of the base station corresponding to the base station identifier is obtained from the base station installation position information database, and an error in the installation position information is detected using the distance between the base stations obtained from the installation position information. The present invention relates to a method and system for detecting an error in base station installation position information in a mobile communication system.

[0002]

2. Description of the Related Art Location information of a base station in a mobile communication system is important for maintenance of equipment, and is considered to be applied to a service for providing location information of a mobile station to a subscriber, and accuracy is improved. High position information is required. Therefore, as an error detection method of the base station installation position information, for example, the position information indicating the installation position of the base station stored in the base station installation position information database, and the base station identifier transmitted from the target base station There are methods to use. At the installation position of the target base station,
Positioning is performed using a positioning device such as a GPS (Global Positioning System), and a maintenance person is notified. At the same time, the measurer makes a call from the mobile device and notifies the maintenance person of the base station identifier unique to the base station transmitted from the target base station. The maintainer
The base station installation position stored in the base station installation position information database is acquired from the notified base station identifier, and the error is detected in the base station installation position information by collating with the positioning result notified by the measurer. It can be carried out.

[0003]

With respect to the installation position information of base stations, highly accurate position information is required for all base stations in the service area. The conventional method measures the installation position of each base station, and acquires the base station identifier,
Since it is compared with the value stored in the base station installation position information database, reliable detection is possible.

[0004] However, it is only possible to make a right / wrong determination of the installation position information of one base station in one positioning.
There is a problem in that error detection of a large number of base stations requires a large amount of human operation.

The present invention has been made in view of such a problem, and an object of the present invention is to provide a method and system for detecting errors in base station installation position information which requires less human operation and is more efficient. It is in.

[0006]

According to the present invention, in order to achieve the above object, according to the first aspect of the present invention, base station installation position information indicating an installation position of a base station in a mobile communication system is stored. In the error detection method of the base station installation position information of the base station installation position information database, the receiving step of receiving a base station identifier that specifies the base station,
An obtaining step of obtaining the installation position information of the base station according to the base station identifier from the base station installation position information database, and a step of acquiring the installation position information of the base station according to the plurality of base station identifiers from the base station; Determining the distance, and when the distance is equal to or greater than a preset reference value, determining that any of the installation location information of the base station for which the distance has been determined is incorrect. And

According to a second aspect of the present invention, in the determining step, one of the base stations corresponding to the plurality of base station identifiers is selected as a representative base station, and a distance between the representative base station and the base station is selected. And the base stations whose distances are smaller than a preset reference value belong to the same set, and all the base stations corresponding to the plurality of base station identifiers belong to any one of the sets. And a set dividing step of dividing the base stations corresponding to the plurality of base station identifiers into one or more sets, and the installation of the base station based on the one or more sets divided in the set dividing step. A set judging step of judging that the position information is erroneous.

According to a third aspect of the present invention, in the set determination step, the set having the largest number of base stations belonging to the set is unique, and the number of base stations belonging to the set with respect to the total number of base stations received If the ratio is equal to or greater than a preset threshold, it is determined that the installation location information of the base station that does not belong to the set is an error, the set determination step, the number of base stations belonging to the set A plurality of base stations corresponding to a plurality of base station identifiers when a plurality of base station identifiers are present, or when a ratio of the number of base stations belonging to the set to the total number of received base stations does not exceed a preset threshold value Is determined that there is a possibility of an error in all of the installation position information.

According to a fourth aspect of the present invention, in the set judging step, one of the installation position information of the base stations corresponding to the plurality of base station identifiers is a predetermined installation position information. In the case where any one of the above is matched, the one installation position information is not included in the set.

According to a fifth aspect of the present invention, in the grouping step, the installation position obtained from the installation position information of the base station corresponding to the plurality of base station identifiers is not within a predetermined range. Is characterized in that the installation position information is determined to be incorrect.

According to a sixth aspect of the present invention, in the system for detecting an error of base station installation position information in a base station installation position information database storing base station installation position information indicating an installation position of a base station in a mobile communication system, A mobile station that transmits a base station identifier that specifies a base station, and receives a plurality of the base station identifiers from the mobile station, and sets the installation location information of the base station according to the base station identifier to the base station installation location information. An error detection device that obtains from the database and determines an error in the installation position information.

According to a seventh aspect of the present invention, the error detecting device obtains a distance between the base stations from the installation position information of the base stations corresponding to the plurality of base station identifiers, and the distance is set in advance. A determination unit that determines that any of the installation location information of the base station from which the distance has been obtained is incorrect when the distance is equal to or greater than the reference value.

The invention according to claim 8, wherein the determining means selects one of the base stations corresponding to the plurality of base station identifiers as a representative base station, and selects a distance between the representative base station and the base station. And the base stations whose distances are smaller than a preset reference value belong to the same set, and all the base stations corresponding to the plurality of base station identifiers belong to any one of the sets. A set dividing means for dividing a base station corresponding to a plurality of base station identifiers into one or more sets; and setting the base stations based on the one or more sets divided by the set dividing means. A set judging means for judging that the position information is erroneous.

According to a ninth aspect of the present invention, in the set determination means, the set having the largest number of base stations belonging to the set is unique, and the number of base stations belonging to the set with respect to the total number of base stations received If the ratio is equal to or greater than a preset threshold, the installation location information of the base station that does not belong to the set is determined to be incorrect, and the set determination unit determines the number of base stations belonging to the set. A plurality of base stations corresponding to a plurality of base station identifiers when a plurality of base station identifiers are present, or when a ratio of the number of base stations belonging to the set to the total number of received base stations does not exceed a preset threshold value Is determined that there is a possibility of an error in all of the installation position information.

According to a tenth aspect of the present invention, the set judging means is characterized in that one of the installation position information of the base stations corresponding to the plurality of base station identifiers is a predetermined installation position information. In the case where any one of the above is matched, the one installation position information is not included in the set.

The invention according to claim 11, wherein the grouping means determines that the installation position acquired from the installation position information of the base station corresponding to the plurality of base station identifiers is not within a predetermined range. Is characterized in that the installation position information is determined to be incorrect.

[0017]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a block diagram showing an example of an error detection system for base station installation position information according to the present invention. Base stations 12, 14, 16 connected to a wired network 18
In the mobile communication system configured by the mobile device 10, the error detection system includes an error detection device 20 connected to the wired network 18, and base station installation position information (eg, latitude / longitude) corresponding to the base station identifier. And a maintenance monitoring device 30. In the present embodiment, an example is shown in which the mobile station 10 receives radio waves from three base stations 12, 14, and 16, and these three base stations are error detection target base stations. The error detection device 20 includes a receiving unit 22 that receives a base station identifier from the mobile device 10, an obtaining unit 24 that obtains base station installation position information from a base station installation position information database 28, and an output result of the obtaining unit 24. And an error detection unit 26 for determining an error in the position information. In the present embodiment, the error detection device 20 is shown as an independent device connected to the wired network 18, but a configuration in which the function of the error detection device 20 is provided in a wired network, a base station, or a mobile device is also possible. Conceivable.

With such a configuration, signals are transmitted and received between the mobile station 10 and the base stations 12, 14, and 16, and a base station identifier unique to each base station corresponding to each of the base stations 12, 14, and 16 is assigned. Acquired by the mobile device 10. The mobile device 10
The acquired base station identifiers of the three base stations are transmitted from the reporting unit 11 to the error detection device 20 through the base station (base station 12 in the example of FIG. 1) in which the wireless channel has been established. The receiving unit 22 of the error detection device 20 receives the base station identifiers of the three base stations transmitted by the mobile device 10. The acquiring unit 24 uses the base station identifier acquired from the receiving unit 22 as a tow character,
The base station installation position information corresponding to the base station identifier is obtained from the base station installation position information database. The error detection unit 26 performs error detection with reference to the base station installation position information acquired by the acquisition unit 24. The base station installation position information determined to be incorrect by the error detection unit 26 is transmitted to the maintenance monitoring device 30.
And can be reflected in maintenance.

FIG. 2 is a diagram showing an example of the arrangement of base stations that have received a base station identifier at a mobile station. Here, a case is considered where the number of base stations that have received the base station identifier in the mobile device is five. FIG. 2 shows base stations CS1-CS reported from the mobile station.
The installation position information of No. 5 indicates the installation position of the base station. Hereinafter, a specific example of the error detection method of the base station installation position will be described. The mobile station has five base stations CS1
To the base station identifiers CS-ID1 to CS-ID5 to the error detection device. The error detection device acquires the installation position information (x1, y1) to (x5, y5) of each base station from the base station installation position information database based on the base station identifiers CS-ID1 to CS-ID5. The error detection device is
Determine the distance between the base stations from these installation location information, whether the distance is less than a predetermined reference value,
The determination is made in all combinations in the base stations CS1 to CS5. In this embodiment, the reference value is the sum of the maximum radio wave propagation distances from both base stations for which the distance between the base stations is to be obtained. The maximum radio wave propagation distance is a distance farthest from the base station within a range where the mobile device can recognize a signal from the base station.

That is, the fact that the distance between the base stations obtained by the error detection device is larger than the reference value means that it is larger than the sum of the maximum radio wave propagation distances from both base stations. Therefore, the mobile station should not be able to receive the base station identifier from either base station or both base stations. Nevertheless, the fact that the mobile station has transmitted the base station identifier to the error detection device means that the installation location information stored in the base station installation location information database corresponding to either base station or both base stations is Most likely wrong. After such relative determination is repeated between each base station, the number of base stations whose distance from other base stations is smaller than a reference value for each base station, A ratio with respect to the total number of stations is obtained, and if this ratio is equal to or greater than a preset threshold, the installation position of the base station is determined to be correct, and if less than the threshold, it is determined to be erroneous.

FIG. 3 is a table showing the relationship between the distances determined from the base station arrangement example in FIG. 2 in the method for detecting base station installation position information error according to the present invention. This is the result of determining the distance between the base stations CS1 to CS5 and comparing the distance with a reference value. The first line in FIG.
2 indicates that the distance between CS1 and CS3 is less than the reference value, and the distance between CS1 and CS4 and the distance between CS1 and CS5 are greater than or equal to the reference value. Therefore, CS1
The distance from each other is less than the reference value at a rate of 60% (3/5) of the total number of target base stations (5 base stations) including the own station. Similarly, the fourth line in FIG.
Is smaller than the reference value, and the distance between CS4 and CS1, the distance between CS4 and CS2, and the distance between CS4 and CS3 are larger than the reference value. Therefore, CS4
Is 40% of the total number of target base stations including the own station.
% (Two-fifths), the distance between them is less than the reference value. For example, if the threshold used for error determination is 50%, the ratio in CS1, CS2, and CS3 is equal to or greater than the threshold, and it is determined that the installation position is correct.
4, the installation position of CS5 is determined to be incorrect.

FIG. 4 is a flowchart showing an example of a method for detecting an error in base station installation position information according to the present invention. Consider a case where the number of base stations that have received the base station identifier in the mobile device is 5 (CS1 to CS5). These base stations
The set to which the base station belongs is an undetermined base station, and is a base station for which the distance between base stations is to be derived. A shown in FIG.
Reference numerals 1, a2, a3, and a4 denote connectors, and the flow connected thereto will be described later.

First, one arbitrary base station is selected from the base stations CS1 to CS5 and is set as a representative base station (S1). Here, the base station CS1 is a representative base station. Next, a base station (for example, CS2) other than the representative base station CS1 is selected, and a distance from the representative base station CS1 is obtained (S2). Representative base station C
It is determined whether or not the distance between S1 and the base station CS2 is smaller than a reference value (S3).
2 is determined to belong to the same set as the representative base station CS1 (S4). On the other hand, if the distance between the representative base station CS1 and the base station CS2 is equal to or longer than the reference value, it is determined that the set to which the base station CS2 belongs has not been determined (S5). This determination is made for all base stations other than the representative base station CS1 (S
6). If there is a base station to which the set to which it belongs is undecided (S7), any one base station is newly selected as a representative base station from among the base stations to which the set to which it belongs is undecided (S1). Then, a base station belonging to the same set as the newly selected representative base station is obtained from among the base stations to which the set to which the set belongs is not determined. Note that the resulting sets are:
Some sets belong to only one base station.

For example, a set obtained by using CS1 as a representative base station is set as GN1 = {CS1, CS2, CS3}. Here, it is determined that CS4 and CS5 belong to a different set from the representative base station CS1. Therefore, for example, using CS4 as a new representative base station, the distance from CS1 to another base station (CS5) belonging to a different set is determined, and it is determined whether or not the base station belongs to the same set as CS4. In this way, the above-described processing is repeated until all the base stations that have received the base station identifier in the mobile station belong to one of the sets (S7). For example, when it is determined that CS5 is the same set as CS4, this set becomes GN2 = {CS4, CS5}, and the set division ends. The error detection device determines correctness using the set divided in this way (S8).

FIG. 5 is a flow chart showing an example of a method for judging correctness using a set in the method for detecting errors in base station installation position information according to the present invention. This corresponds to the right / wrong judgment (S8) shown in FIG. 4, and comes out from the connector a3 in FIG.
The flow until returning to the connector a4 is shown. A shown in FIG.
Reference numerals 5 and a6 denote connectors, and the flows connected here will be described later. First, the number of base stations belonging to each of the sets divided as described above is counted, and it is confirmed whether the set having the largest number of base stations belongs is only one or plural (S10). If only one, for the total number of base stations in the entire set, determine the percentage of the number of base stations belonging to the set to which the number of base stations belonging is the largest, and the ratio is equal to or greater than the threshold value It is determined whether or not it is (S11). If it is equal to or larger than the threshold value, the base station installation position that does not belong to the set to which the number of base stations belongs is the error information (S12). On the other hand, when there are a plurality of sets with the largest number of base stations to belong to, and even if the set with the largest number of base stations to belong to is the only one, the number of base stations belonging to the set to which the largest number of base stations belong Is smaller than the threshold, it is determined that there is a possibility that all the base station installation position information has an error (S13). That is, since correctness / incorrectness cannot be determined for any of the sets, an erroneous set cannot be specified, so that it is only determined that there is a possibility of an error.

In the example described above, the set GN1 has 3
One base station and two base stations belong to the set GN2. At this time, the set having the maximum number of base stations is GN1 and is unique. Here, the ratio of the number of base stations of GN1 (3 base stations) to the total number of base stations (5 base stations) in the entire set is 60% (3/5). For example, if the threshold is 50
%, The installation location information of the base station belonging to GN1 occupied by 60% of the base stations is determined to be correct information,
The installation location information of the base station belonging to GN2, which is another base station, is determined to be incorrect information. Further, for example, if the threshold value is 70%, it is determined that there is a possibility that the installation position information of all the base stations has an error.

FIG. 6 is a flowchart showing an example of pattern matching in correct / incorrect judgment using a set in the error detection method for base station installation position information according to the present invention. In FIG. 5, before it is determined that all the installation location information is incorrect information, the information is compared with a patterned information group, and the patternized information is excluded from the set, and the above is described again. The determination using the threshold is performed. The patterned information group refers to, for example, information of a temporarily installed base station or a base station to which position information is temporarily provided before completion.

The error detection method in the present embodiment is a detection method from exiting the connector a5 in FIG. 5 to returning to the connector a6. Since the comparison with the pattern only once is sufficient, it is determined whether or not the pattern has passed through the connector a5 for the first time (S
20). If it is the first time, one base station is selected from the base stations that have received the base station identifier (S21), compared with the error pattern information group (S22), and those that match are excluded from the set (S23). . For example, the installation position information (x4, y4) of the base station CS4 matches one of the pattern information groups and is excluded from the set, and GN1 = ｛CS1, CS
2, CS3} and GN2 = {CS5}. The set GN1 having the largest number of base stations (3 base stations) is 75 for the total number of base stations (4 base stations) not excluded from the set.
% (3/4), so if the threshold value is 70%, the base station of GN1 is determined to be the base station of the correct installation location information, and the base station CS5 of GN2 and the base station CS4 that matches the pattern group Is determined to be incorrect installation position information.
If all base stations match the pattern as compared with the pattern (S25), there is no possibility of an error in all base station installation position information without returning to the flow of performing the determination using the threshold. It is determined that there is (S13).

FIG. 7 is a flowchart showing an example of pre-verification of the installation position information in the error detection method of the base station installation position information according to the present invention. Before performing the above-described correct / incorrect judgment, if the installation position information of the base station includes information that is an impossible position as the installation position, the information is used as error information, and the target of correct / incorrect judgment To remove. FIG. 4 shows a flow from exiting the connector a1 to returning to a2. One base station is selected from the base stations that have received the base station identifier (S30), and it is determined whether the installation location information of this base station is within a normal range (S3).
1). If it is outside the normal range, it is excluded from the set classification (S
32) If it is within the normal range, it is set as a grouping target (S33). For example, if the installation position of the base station is a ≦ x ≦ b,
When the received location (x1, y1) of the base station CS1 is within the range of x1 <a when the range is limited to the range of c ≦ y ≦ d, the base station CS1 is excluded from the grouping target. (S32). The installation location information is verified for all the base stations (S34), and if all the base stations are out of the grouping target (S35), all the base stations are not subjected to the right / wrong determination by the grouping, and all the base stations are not determined. It is determined that there is a possibility of an error in the base station installation position information (S13).

As described above, the error detection device receives the base station identifier successfully received by the mobile station, thereby detecting the error in the base station installation position information stored in the base station installation position information database. It can be carried out. There is no need to measure the installation position of each base station, and it is sufficient to correct the position information only for the base station having the base station installation position information determined to be erroneous, so that maintenance efficiency can be improved.

As an example of a service to which the present invention is applied,
A location information service that provides location information of a mobile device to a subscriber is conceivable. The location information service includes, for example, a mobile device, a plurality of base stations, and a location information center. The mobile station requested to acquire the position information receives a signal from a surrounding base station and reports the electric field strength and the base station identifier of the received signal corresponding to each base station to the position information center.
The position information center extracts the base station installation position from the base station installation position information database using the base station identifier, performs position estimation using the installation position and the reported received electric field strength, and obtains the estimated position by obtaining the position information. Report to the requested mobile station. The above is the outline of the location information service. The base station identifier reported to the location information center is also used in the present invention.

Therefore, the error detection method of the present invention can be used by providing an interface in the position information center with the error detection device of the present invention.
As the base station installation position information database, a common database can be used. In this case, it is not necessary to mobilize a person to perform error detection of the base station installation position information, and the user of the position information service performs error detection of the present invention at the same time. Further, when the position of the mobile station is estimated, the base station installation position is used. Therefore, by applying the error detection method of the present invention at a stage prior to the position estimation, if the installation position is incorrect, the base station information It is expected that the accuracy of position estimation will be improved by not using.

[0034]

As described above, a mobile station transmitting a base station identifier for specifying a base station, a plurality of base station identifiers received from the mobile station, and base station installation position information corresponding to the base station identifier From the base station installation location information database, and an error detection device that determines an error in the installation location information. Erroneous detection of the base station installation position information having a small size can be performed. In addition, by determining the distance between base stations for at least one base station, the ratio in which erroneous information is included in the total number of information is small, and a set in which the relationship determined by the distance to each other is the same. It is possible to detect errors in base station installation position information with high computation efficiency while maintaining the same accuracy as the conventional method for an information group that is often independent.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an example of an error detection system for base station installation position information according to the present invention.

FIG. 2 is a diagram illustrating an example of an arrangement of base stations that have received a base station identifier in a mobile device.

FIG. 3 is a table showing a relationship between distances determined from the base station arrangement example in FIG. 2 in the method for detecting base station installation position information error according to the present invention;

FIG. 4 is a flowchart illustrating an example of an error detection method of base station installation position information according to the present invention.

FIG. 5 is a flowchart illustrating an example of a correctness / incorrectness determination method using a set in the error detection method of base station installation position information according to the present invention.

FIG. 6 is a flowchart showing an example of pattern matching in correct / incorrect judgment using a set in the error detection method for base station installation position information according to the present invention.

FIG. 7 is a flowchart illustrating an example of pre-verification of the installation position information in the error detection method of the base station installation position information according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Mobile device 11 Report part 12, 14, 16 Base station 18 Wired network 20 Error detecting device 28 Base station installation position information database 30 Maintenance monitoring device 22 Receiving part 24 Acquisition part 26 Error detecting part

 ────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hideo Matsuki 2-1-1, Nagatacho, Chiyoda-ku, Tokyo F-term in NTT DoCoMo, Inc. (reference) 5K042 AA06 CA12 DA27 EA01 EA14 FA15 GA01 JA08 5K067 AA33 BB04 DD19 DD44 EE02 EE10 EE16 EE24 HH23 JJ54 KK15 LL01 LL11

Claims (11)

[Claims] 1. A method for detecting an error of base station installation position information in a base station installation position information database storing base station installation position information indicating a base station installation position in a mobile communication system, wherein the base station specifies the base station. A receiving step of receiving an identifier, an obtaining step of obtaining the installation position information of the base station according to the base station identifier from the base station installation position information database, and a plurality of the base stations corresponding to the base station identifiers. The distance between the base stations is obtained from the installation position information, and when the distance is equal to or greater than a predetermined reference value, it is determined that any of the installation position information of the base station from which the distance was obtained is incorrect. Determining a base station installation position information error. 2. The method according to claim 1, wherein one of the base stations corresponding to the plurality of base station identifiers is selected as a representative base station, and a distance between the representative base station and the base station is determined. The base stations that are less than the set reference value belong to the same set, and all of the base stations corresponding to the plurality of base station identifiers belong to any one of the sets. A grouping step of dividing a base station according to a station identifier into one or more sets; and determining that the installation position information of the base station is incorrect based on the one or more sets divided in the grouping step. 2. The method according to claim 1, further comprising: determining a set. 3. The set judging step is characterized in that the set having the largest number of base stations belonging to the set is unique, and the ratio of the number of base stations belonging to the set to the total number of received base stations is set in advance. Is greater than or equal to the threshold
The installation location information of the base station that does not belong to the set is determined to be incorrect, and the set determination step includes a plurality of sets where the number of base stations belonging to the set is the largest, or a received base station. If the ratio of the number of base stations belonging to the set to the total number does not exceed a preset threshold, there is a possibility that there is an error in all of the installation position information of the base stations corresponding to a plurality of the base station identifiers. 3. The method according to claim 2, wherein the error is determined. 4. The method according to claim 1, wherein the step of determining a set includes one of the installation location information of the base station corresponding to the plurality of base station identifiers.
The base station installation position information according to claim 2, wherein the one installation position information is not included in the set when the one installation position information matches one of the predetermined installation position information. Error detection method. 5. The method according to claim 1, wherein the setting position information obtained from the installation position information of the base station corresponding to the plurality of base station identifiers is not within a predetermined range. 5. The method according to claim 2, wherein the error is determined as an error. 6. An error detection system for base station installation position information in a base station installation position information database storing base station installation position information indicating an installation position of a base station in a mobile communication system, wherein the base station specifies the base station. A mobile station that transmits an identifier; receiving the plurality of base station identifiers from the mobile station; acquiring the installation location information of the base station corresponding to the base station identifier from the base station installation location information database; An error detection system for base station installation position information, comprising: an error detection device that determines an error in position information. 7. The error detection device obtains a distance between the base stations from the installation position information of the base stations corresponding to a plurality of the base station identifiers, and when the distance is equal to or larger than a preset reference value. 7. The system according to claim 6, further comprising: a determination unit configured to determine that any of the installation location information of the base station from which the distance has been obtained is an error. 8. The determining means selects one of the base stations according to the plurality of base station identifiers as a representative base station, determines a distance between the representative base station and the base station, and determines the distance in advance. The base stations that are less than the set reference value belong to the same set, and all of the base stations corresponding to the plurality of base station identifiers belong to any one of the sets. Grouping means for dividing a base station according to a station identifier into one or more sets; and if the installation position information of the base station is incorrect based on the one or more sets divided by the grouping means 8. The apparatus according to claim 7, further comprising: a set judging means for judging.
2. An error detection system for base station installation position information according to claim 1. 9. The set judging means, wherein the set having the largest number of base stations belonging to the set is unique, and the ratio of the number of base stations belonging to the set to the total number of received base stations is set in advance. If the number is equal to or greater than the threshold value, the installation location information of the base station that does not belong to the set is determined to be incorrect, and the set determination unit determines that the set having the largest number of base stations belonging to the set is plural. Yes, or if the ratio of the number of base stations belonging to the set to the total number of received base stations does not exceed a preset threshold, all the installation location information of the base station according to a plurality of base station identifiers The system according to claim 8, wherein it is determined that there is a possibility of an error. 10. The method according to claim 7, wherein one of the installation location information of the base stations corresponding to the plurality of base station identifiers matches one of predetermined installation location information. The base station installation position information error detection system according to claim 8, wherein said one installation position information is not included in said set. 11. The method according to claim 1, wherein the set position information obtained from the set position information of the base station corresponding to the plurality of base station identifiers is not within a predetermined range. The error detection system for base station installation position information according to any one of claims 8 to 10, wherein it is determined that the error is an error.