JP2016163165A - Mobile base station and location registration method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile base station and a location registration method, enabling the grasp of a communication device position with high accuracy, without adding a special modification to the communication device.SOLUTION: A mobile base station 1, which forms a radio area which is radio communicable with a communication device 100, includes: a notification unit which notifies the communication device 100 in the radio area of an area identifier which identifies the radio area; a receiver unit which receives a location registration request from the communication device 100 holding an area identifier different from the notified area identifier; a registration unit which registers the position information of the communication device 100, according to the received location registration request; and a change unit which changes the area identifier notified by the notification unit, according to the change of the self-position.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a mobile base station and a location registration method for confirming the location of a user by grasping the location of a communication device.

  Since the effective time is limited for lifesaving of victims (distresses) such as disasters, marine accidents, and mountain accidents, the location of the victims is as soon as possible after a disaster occurs. It is desirable. GPS (Global Positioning System) is attracting attention as a method for grasping the position of the victims, and it is widely studied such as “Summary on handling of GPS position information in lifesaving (Ministry of Internal Affairs and Communications)). Has been done.

  Further, Patent Document 1 discloses a method for confirming the position of a user using GPS, more specifically, by performing leisure while wearing a communication device that continuously or intermittently transmits GPS signals. A method is disclosed in which the user's location can be quickly confirmed. In the method disclosed in Patent Document 1, personal information of a user is registered in advance in a communication device, so that a lost user can be uniquely identified.

JP 2001-325634 A

Since the GPS function is provided in many communication devices, and the positioning accuracy of GPS is as high as several meters to several tens of meters, it is useful as a method for confirming the position of a victim. However, in GPS, since positioning is performed based on signals from satellites, it is necessary to have a line-of-sight to the satellites, and a dedicated application is required in order to send the positional information to the server etc. There are various constraints.
In addition, since it is difficult to predict the occurrence of a disaster or distress, a special communication device that automatically transmits a GPS signal or a prior registration of personal information is requested as in Patent Document 1. The method is very limited in application.

  On the other hand, in a wide area wireless system such as UMTS (Universal Mobile Telecommunications System), UTRAN (UMTS Terrestrial Radio Access Network) and eUTRAN (evolved UTRAN), the location of communication devices such as mobile phones and smartphones using the wide area wireless system is routed. It is managed in units such as areas (RA: Routing Area) and tracking areas (TA: Tracking Area). In the following description, the tracking area is used as an example, but the present invention is not limited to this.

The location registration of the communication device in this wide area wireless system is performed for calling (paging) at the time of incoming call, and the communication device can be used for the wide area wireless system without requiring a dedicated application or user operation. Therefore, it is automatically performed by a function basically provided. Therefore, even if a disaster victim cannot operate a communication apparatus in a disaster area etc., the positional information on the communication apparatus can be automatically confirmed.
On the other hand, since the tracking area is covered by one or a plurality of base stations (eNodeB), it is a wide area such as several hundred meters to several kilometers, and there is a problem that the accuracy is insufficient to grasp the position of the victim. There is.

  The present invention has been made in view of such a problem, and provides a mobile base station and a location registration method capable of accurately grasping the location of the communication device without specially modifying the communication device. Objective.

  In the first aspect of the present invention, a mobile base station that forms a wireless area in which a communication device can perform wireless communication, and notifies the communication device in the wireless area of identification information for identifying the wireless area And a receiving unit that receives a location registration request from a communication device that holds identification information different from the identification information, and registers the location information of the communication device based on the received location registration request. A mobile base station is provided that includes a registration unit that performs a change, and a change unit that changes the identification information notified by the notification unit according to a change in its own position.

  In addition, the information processing apparatus may further include a setting unit that sets a threshold value for a change amount of the own position, and the change unit may change the identification information notified by the notification unit when the change amount exceeds the threshold value. .

  In addition, when the storage unit stores a plurality of candidate identification information, which are candidates for identification information to be changed by the changing unit, and when the location registration request is received, the notifying unit notifies the communication device that has made the location registration request. In addition to the notified identification information, a transmission unit that transmits at least one candidate identification information among the plurality of candidate identification information may be further provided.

  The transmitting unit may transmit different candidate identification information to each of the plurality of communication devices that have made the location registration request.

  According to a second aspect of the present invention, there is provided a location registration method for registering a location of a communication device, wherein the base station forming the radio area identifies the radio area with respect to the communication device in the radio area. Based on the location registration request, a step of transmitting a location registration request to the base station from a communication device holding identification information different from the notified identification information, Registering location information of the communication device, moving the base station, and changing identification information reported by the base station according to a change in the location of the base station. A location registration method is provided.

  ADVANTAGE OF THE INVENTION According to this invention, the position of a communication apparatus can be grasped | ascertained accurately, without adding a special repair to a communication apparatus.

It is a figure which shows the outline | summary of a mobile base station. It is a block diagram which shows the function structure of a mobile base station. It is a figure which shows an example of the area identifier list | wrist memorize | stored in a memory | storage part, and a location registration list. It is a figure which shows the operation example of an additional function. It is a figure which shows an example of the list | wrist of the area identifier which a transmission part transmits. It is an operation | movement flow which shows the flow of operation | movement of a mobile base station and a communication apparatus.

[Outline of mobile base station 1]
First, the outline of the mobile base station 1 of the present invention will be described with reference to FIG. The mobile base station 1 is a base station that can be moved by a predetermined moving means, and forms a wireless area in which a communication device 100 such as a mobile phone or a smartphone can perform wireless communication, as shown in FIG. As the predetermined moving means, any means such as land movement, water movement, and air movement can be used. In the present embodiment, air movement by a balloon, a helicopter, or the like is assumed as an example.
The mobile base station 1 includes an area specifying function 2, an additional function 3, and a positioning function 4.

The area specifying function 2 is a function for specifying a wireless area in which the communication apparatus 100 is located, and is a function that is already implemented as a location registration function or the like in a wide area wireless system such as eUTRAN.
Specifically, in cellular communication using eUTRAN, the communication apparatus 100 is present based on control signals called TAU (Tracking Area Update), Attach Request, and Service Request transmitted from the communication apparatus 100 at a predetermined timing. You know the wireless area you are in.

  Here, the timing at which the communication device 100 transmits the TAU is when a certain time has elapsed since the previous transmission, when the connection destination base station (eNodeB) is changed, or when the communication device 100 is turned on. However, the present embodiment focuses on the case where the second connection destination base station changes.

In a wide area radio system, a TAC (Tracking Area Code) that is an identifier of a radio area managed by the base station is set in the base station, and the communication apparatus 100 is notified of the information. The communication apparatus 100 holds the TA list including the TA that it was in immediately before, compares the TA notified from the base station with the held TA list, and the notified TA is the TA. If it is not included in the list, it determines that the connection destination base station has changed and transmits a TAU.
In the wide area wireless system, when this TAU is received, the communication apparatus 100 stores a TA list including TAs currently in the area in a TAUA (Tracking Area Update Accept), and returns the TA list to the communication apparatus 100. When the communication device 100 receives TAUA, the communication device 100 updates the TA list held by the communication device 100, thereby grasping the wireless area where the communication device 100 is located in the wide area wireless system.

In the area specifying function 2, based on the TAU transmitted from the communication device 100, the location registration processing of the communication device 100, that is, the wireless area in which the communication device 100 is located is specified.
In eUTRAN, the location registration process of the communication device 100 is not performed in a base station, but in an EPC (Evolved Packet Core) MME (Mobility Management Entity) that is a core network connected to the base station. In this regard, the mobile base station 1 of the present invention may exhibit the area specifying function 2 by providing a server in addition to the base station, and may also function as the area specifying function 2 by cooperating with the MME as the backbone infrastructure. It is good also to demonstrate. In this embodiment, in order to simplify the description, it is assumed that the mobile base station 1 includes a base station and a server.

  The positioning function 4 is a function for measuring the position of itself (mobile base station 1). In addition, the method of measuring the position of the mobile base station 1 is arbitrary. For example, positioning may be performed using GPS, and if the moving route and schedule are determined, positioning is performed from the time. It is good to do.

  As the mobile base station 1 moves, the position of the wireless area formed by the mobile base station 1 also changes. Therefore, the mobile base station 1 determines the position information of the communication device 100 from the relationship between the wireless area in which the communication device 100 specified by the area specifying function 2 is located and the position of itself (wireless area) specified by the positioning function 4. Is identified.

By the way, in the existing wide area radio system, a TAC (hereinafter referred to as “area identifier”) that is an identifier of a radio area is fixedly assigned to a base station. When the area identifier is fixed, even if the base station moves, the communication apparatus 100 determines that the communication apparatus 100 is connected to the same base station before and after the movement, and therefore specifies the position of the communication apparatus 100 with high accuracy. I can't.
In this regard, the area identifier “1” is set for the wireless area formed by the mobile base station 1, and the mobile base station 1 moves in the order of point A, point B, and point C (FIG. 1B). ) For example.

As shown in FIG. 1B, at the point A, the mobile base station 1 notifies the area identifier “1” to its own wireless area. In response to this notification, the communication apparatus 100 transmits a TAU (hereinafter referred to as “location registration request”) to perform location registration, and a TAUA (hereinafter referred to as TAUA) in which a TA list including the area identifier “1” is stored. (Referred to as “location registration response”) to update the TA list held by itself.
Thereafter, when the mobile base station 1 moves to the point B and the point C, the mobile base station 1 notifies the area identifier “1” to its own wireless area, but the communication apparatus 100 reports the area identifier “1”. Since the TA list including this is held, a location registration request is not transmitted to the mobile base station 1.

  As a result, the mobile base station 1 specifies the range of the area 200 that is the wireless area formed when the mobile base station 1 is located at the point A as the position where the communication device 100 exists. For this reason, the position of the communication device 100 cannot be accurately identified only by the area identifying function 2 and the positioning function 4. This is because the area specifying function 2 and the positioning function 4 only need to grasp the position with accuracy (tracking area or base station unit) required for communication such as paging.

The additional function 3 is a function that is exhibited in order to improve the position specifying accuracy of the communication apparatus 100 and changes the fixed area identifier according to the movement of the mobile base station 1.
As an example, as shown in FIG. 1C, the additional function 3 sets the area identifier of the radio area formed by the mobile base station 1 to “1” when the mobile base station 1 exists at the point A. Then, when the mobile base station 1 moves to the point B, the area identifier is changed to “2”, and when the mobile base station 1 moves to the point C, the area identifier is changed to “3”.

From the communication apparatus 100, since the mobile base station 1 notifies different area identifiers at each of the points A, B, and C, a location registration request is transmitted at each timing. As a result, by adding the additional function 3 to the mobile base station 1, the position of the communication device 100 can be narrowed down from the area 200 (FIG. 1B) to the area 210 (FIG. 1C), The position of the communication device 100 can be specified with high accuracy without modifying the communication device 100.
In addition, by adjusting the interval for changing the area identifier and the size of the wireless area formed by the mobile base station 1, the position of the communication device 100 can be specified with the granularity desired by the operator (rescuer), Is preferred. Note that the size of the wireless area can be adjusted by adjusting the transmission power of the mobile base station 1 and the frequency band to be used, for example.

  Hereinafter, a specific configuration and the like for realizing the mobile base station 1 of the present invention will be described with reference to the drawings.

[Functional configuration of mobile base station 1]
FIG. 2 is a block diagram showing a functional configuration of the mobile base station 1. As shown in FIG. 2, the mobile base station 1 includes a communication unit 5, a storage unit 6, and a control unit 7.
The communication unit 5 includes a transmission antenna and a reception antenna, modulates the signal output from the control unit 7 to generate an RF (Radio Frequency) signal, and transmits to the surrounding communication devices via the transmission antenna. Wireless transmission. In addition, the communication unit 5 demodulates the RF signal received via the reception antenna and outputs the demodulated signal to the control unit 7.

  The storage unit 6 is composed of, for example, a ROM and a RAM. The storage unit 6 stores various programs and various data for causing the control unit 7 to function. The storage unit 6 stores an area identifier list and a location registration list. Here, an example of the area identifier list and the location registration list is shown in FIG.

  FIG. 3A is an example of information stored in the area identifier list. The area identifier list stores a plurality of area identifiers notified by the mobile base station 1. In this embodiment, since the mobile base station 1 changes the area identifier according to the change of its own position, it can be said that the area identifier list stores a plurality of candidate area identifiers that are candidates for the area identifier to be changed.

FIG. 3B is an example of information stored in the location registration list. The location registration list is updated each time a location registration request (TAU) is received from the communication device 100, and stores information for specifying the location of the communication device 100.
The information for specifying the position of the communication device 100 is, for example, any information such as the time when the location registration request is received from the communication device 100, the area identifier that was notified when the location registration request was received, and the like. It is. Since the mobile base station 1 knows its own location and the like, the location registration list is updated each time a location registration request is received. As a result, the position of the communication device 100 can be specified.

Returning to FIG. 2, the control unit 7 is configured by, for example, a CPU and executes the various programs stored in the storage unit 6, thereby exhibiting the above-described area specifying function 2, additional function 3, and positioning function 4. . In addition, since the positioning function 4 is as above-mentioned, below, the area specific function 2 and the additional function 3 are demonstrated, and the detailed description about the positioning function 4 is abbreviate | omitted.
When the area specifying function 2 is exhibited, the control unit 7 includes a notification unit 21, a reception unit 22, a transmission unit 23, and a registration unit 24.

The alerting | reporting part 21 alert | reports the area identifier which identifies the said radio | wireless area with respect to the communication apparatus 100 in the radio | wireless area which the mobile base station 1 forms. The receiving unit 22 receives a location registration request from the communication device 100 that holds an area identifier different from the area identifier notified by the notification unit 21.
When receiving the location registration request from the communication device 100, the transmission unit 23 sends a location registration response to the communication device 100. Specifically, the transmission unit 23 sends a location registration response by transmitting a list of area identifiers including the area identifier notified by the notification unit 21 to the communication device 100. Details of the list of area identifiers transmitted by the transmission unit 23 will be described later with reference to FIG.

  Upon receiving the location registration request, the registration unit 24 registers the location information of the communication device 100 that has made the location registration request. Specifically, the registration unit 24 registers the position information of the communication device 100 by updating the position registration list shown in FIG. 3B based on the received position registration request. By repeatedly registering position information for one communication apparatus 100, the detailed position of the communication apparatus 100 is narrowed down.

  The additional function 3 is a function for changing the area identifier notified by the notification unit 21 in accordance with the movement of the mobile base station 1. Here, FIG. 4 is a diagram illustrating an operation example of the additional function 3. As shown in FIG. 4, the mobile base station 1 broadcasts the same area identifier until a predetermined condition is satisfied, and changes the broadcasted area identifier to a different area identifier when the condition is satisfied.

Here, an arbitrary condition can be used as the predetermined condition. For example, the distance and time before and after the movement may be used, and the processing load related to the location registration of the mobile base station 1 may be used. Also good. From the processing load related to location registration, the number of communication devices 100 existing in the wireless area identified by the same area identifier can be determined. The area identifier can be changed at the timing when a number of communication devices 100 are found.
These conditions may be used singly or in any combination.

  Returning to FIG. 2, when the additional function 3 is exhibited, the control unit 7 includes a detection unit 31, a setting unit 32, and a change unit 33.

  The detection unit 31 detects the amount of change in the position of the mobile base station 1. As described above, since the area identifier can be changed according to various conditions, the detection unit 31 detects a change amount according to the condition to be used. For example, the coordinate change amount is detected when distance is used as the determination condition, the elapsed time is detected when time is used, and the total load amount is detected when processing load is used.

The setting unit 32 sets a threshold value (determination condition) for changing the area identifier with respect to the change amount of the position of the mobile base station 1. By appropriately setting this threshold value, the position of the communication device 100 can be specified with a granularity desired by the operator.
Note that the setting unit 32 may set a static threshold or may set a dynamic threshold. The static threshold value is a fixed threshold value. For example, by setting a large threshold value while the mobile base station 1 goes around the disaster site, the rough position of the communication device 100 is grasped. Thereafter, an operation method in which the detailed position of the communication device 100 is grasped by setting a small threshold value for the rough position is assumed. The dynamic threshold is a threshold that changes while the mobile base station 1 goes around the disaster site. For example, there are many communication devices 100 by changing the threshold according to the processing load. An operation method in which an area near the area is searched in detail is assumed.

The changing unit 33 changes the area identifier notified by the notification unit 21 according to a change in the position of the mobile base station 1. The change in the position of the mobile base station 1 can be detected based on any information such as distance, time, processing load, etc., as described above, and the change unit 33 has detected the amount of change exceeding the threshold value. If so, change the area identifier.
The changing unit 33 refers to the candidate area identifiers included in the area identifier list stored in the storage unit 6, and the area identifier that is notified by the notification unit 21 of one area identifier selected from the candidate area identifiers. Change as Therefore, for the mobile base station 1, the area identifier to be changed is a known identifier.

When the area identifier notified by the changing unit 33 (additional function 3) is changed, the notification unit 21 (area specifying function 2) changes the area identifier after the change to the communication device 100 in the wireless area formed by the mobile base station 1. Is notified. From the communication device 100, it is determined that the base station of the connection destination has changed because the notified area identifier is different even though the communication device 100 itself has not moved (the communication device 100). The location registration request is made.
As a result, it is possible to accurately grasp the position of the communication device 100 without modifying the communication device 100 and without requiring an operation of a user (stricken person) of the communication device 100.

The functional configuration of the mobile base station 1 has been described above. Next, a list of area identifiers that the transmission unit 23 transmits to the communication device 100 will be described with reference to FIG.
By registering the location of the communication device 100 each time the location of the mobile base station 1 changes, there is an advantage that the location of the communication device 100 can be accurately grasped as described above, while the processing load of the mobile base station 1 is increased. There is a problem that it increases. The transmission unit 23 reduces the processing load on the mobile base station 1 by transmitting a list of area identifiers including at least the area identifier notified by the notification unit 21. The improvement in positioning accuracy and the reduction in processing load are in a trade-off relationship and can be set as appropriate by the operator.

  As described above, the candidate area identifier to be changed for the mobile base station 1 is known. Therefore, the transmission unit 23 transmits at least one candidate identification information among the plurality of candidate area identifiers to the communication device 100 that has made the location registration request, in addition to the area identifier notified by the notification unit 21.

In the case of the example illustrated in FIG. 5A, the mobile base station 1 (transmitting unit 23) transmits the communication device 100 that has made a location registration request while the reporting unit 21 is reporting the area identifier “1”. In addition to the area identifier “1”, an area identifier “2” scheduled to be changed in the future is transmitted. As a result, even when the area identifier to be notified with the movement is changed from “1” to “2”, the communication apparatus 100 does not make a location registration request to the mobile base station 1 again. The processing load on the mobile base station 1 can be reduced.
The area identifier scheduled to be changed in the future is preferably an area identifier set for a wireless area that partially overlaps the current wireless area, from the viewpoint of reducing the processing load related to location registration.

In addition, when receiving a location registration request from a plurality of communication devices 100, the transmission unit 23 may transmit different candidate area identification information to each of the plurality of communication devices 100.
In the example shown in FIG. 5B, the mobile base station 1 (transmitting unit 23) transmits the area identifier “3” to the communication device 100A in addition to the area identifier “1” currently being broadcast. The communication device 100B transmits an area identifier “2” that is different from the area identifier “3” transmitted to the communication device 100A. Thereby, even if the area identifier to be notified with the movement is changed from “1” to “2”, the communication device 100A makes a location registration request, while the communication device 100B does not make a location registration request. . As a result, the position of the communication device 100A can be accurately measured, and the processing load on the mobile base station 1 can be reduced.

  In addition, the method of making candidate area identification information different for every communication apparatus 100 is arbitrary, for example, it is good also as making it differ according to the time which received the position registration request | requirement, and exceeds the predetermined number in one wireless area. When the location registration request is received from the communication device 100, the candidate area identification information may be changed thereafter.

[Operations of Mobile Base Station 1 and Communication Device 100]
Next, operations of the mobile base station 1 and the communication device 100 when the position of the communication device 100 is grasped will be described. FIG. 6 is an operation flow showing an operation flow of the mobile base station 1 and the communication device 100.

First, in step S1, the mobile base station 1 informs surrounding communication devices of an area identifier “1” that identifies a wireless area formed by itself. In the example illustrated in FIG. 6, the communication devices A and B exist in the wireless area of the mobile base station 1, while the communication device C does not exist in the wireless area. As a result, as shown in steps S2 and S3, the communication devices A and B make a location registration request to the mobile base station 1, while the communication device C makes a location registration request as shown in step S4. Absent.
When receiving a location registration request from the communication devices A and B, the mobile base station 1 makes a location registration response in response to the location registration request. In the example shown in FIG. 6, the mobile base station 1 transmits a list including area identifiers “1” and “3” to the communication device A in step S2, and to the communication device B in step S3. Transmits a list including area identifiers “1” and “2”. Communication apparatuses A and B update the list of area identifiers held by themselves based on the received list.

  Subsequently, in step S5, the mobile base station 1 changes the area identifier to be notified from “1” to “2” according to the change in its position. Subsequently, in step S6, the mobile base station 1 notifies the surrounding communication devices of an area identifier “2” that identifies a wireless area formed by itself. In the example shown in FIG. 6, all of the communication devices A, B, and C are present in the radio area of the mobile base station 1.

  Since the communication device A updates the area identifier list held in step S3 to the area identifiers “1” and “3”, the communication device A does not hold the notified area identifier “2”. Therefore, the communication device A makes a location registration request to the mobile base station 1 in step S7, and the mobile base station 1 makes a location registration response in response to the location registration request. In the example illustrated in FIG. 6, the mobile base station 1 transmits a list including area identifiers “2” and “4” to the communication device A.

  On the other hand, since the communication device B updates the area identifier list held in step S3 to the area identifiers “1” and “2”, the communication device B holds the notified area identifier “2”. Therefore, as shown in step S8, the communication device B does not require location registration and does not make a location registration request.

  In step S9, the communication device C makes a location registration request to the mobile base station 1, and the mobile base station 1 makes a location registration response in response to the location registration request. In the example illustrated in FIG. 6, the mobile base station 1 transmits a list including area identifiers “2” and “3” to the communication device C.

  Subsequently, in step S10, the mobile base station 1 changes the area identifier to be notified from “2” to “3” according to the change in its position. Subsequently, in step S11, the mobile base station 1 notifies the surrounding communication device of an area identifier “3” for identifying the wireless area formed by itself. In the example illustrated in FIG. 6, the communication devices B and C exist in the wireless area of the mobile base station 1, while the communication device A does not exist in the wireless area.

As a result, as shown in step S12, the communication device A does not make a location registration request. Further, since the communication device C holds the notified area identifier “3”, as shown in step S14, location registration is not required and no location registration request is made.
On the other hand, the communication device B does not hold the notified area identifier “3”. Therefore, the communication device B makes a location registration request to the mobile base station 1 in step S13, and the mobile base station 1 makes a location registration response in response to the location registration request. In the example illustrated in FIG. 6, the mobile base station 1 transmits a list including area identifiers “3” and “4” to the communication apparatus B.

  The mobile base station 1 repeats these operations and searches the disaster site and the like. Thereafter, the mobile base station 1 maps the position of the communication device 100 in step S15, and ends the process. Specifically, the mobile base station 1 maps the position of the communication apparatus 100 by associating the wireless area whose position is changed by the movement of the mobile base station 1 with the position registration request of the communication apparatus 100. Thereby, the position of the communication apparatus 100 can be grasped.

[Effect of mobile base station 1]
The mobile base station 1 notifies the area identifier for identifying the wireless area to the wireless area formed by itself, and changes the notified area identifier when the position of the mobile base station 1 changes. In the communication device 100 such as a mobile phone or a smartphone, when the area identifier to be notified changes, it is determined that the connection destination base station has changed, and the location registration is performed again. As a result, it is possible to map the position of the communication device 100 by repeatedly changing the area identifier.
Such location registration by the communication device 100 is always performed and is a function that the communication device 100 basically has. Therefore, according to the mobile base station 1, any modification is made to the communication device 100. Without being able to grasp the position of the communication device with high accuracy.

  In addition, the mobile base station 1 sets a threshold for the amount of change in its position, and changes the area identifier based on this threshold. By setting a large threshold value, it is possible to roughly search the disaster site and the like, and by setting a small threshold value, it is possible to search the disaster site and the like in detail. As a result, according to the mobile base station 1, the position of the communication device 100 can be specified with the granularity desired by the operator.

In addition to the notified area identifier, the mobile base station 1 transmits a candidate area identifier that may be notified later to the communication device 100 that has made the location registration request. Thereby, since the frequency with which the communication apparatus 100 makes a location registration request can be adjusted, the processing load on the mobile base station 1 can be reduced.
At this time, the mobile base station 1 appropriately adjusts the positioning accuracy of the communication device 100 and the processing load of the mobile base station 1 by transmitting different candidate area identifiers to each of the plurality of communication devices 100. This is preferable.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above embodiment. In particular, the specific embodiments of the distribution / integration of the devices are not limited to those illustrated above, and all or a part thereof may be added in arbitrary units according to various additions or according to functional loads. It can be configured functionally or physically distributed and integrated.

DESCRIPTION OF SYMBOLS 1 ... Mobile base station 2 ... Area specific function 21 ... Notification part 22 ... Reception part 23 ... Transmission part 24 ... Registration part 3 ... Additional function 31 ... Detection part 32 ... Setting unit 33 ... Changing unit 4 ... Positioning function 100 ... Communication device

Claims (5)

A mobile base station that forms a wireless area in which a communication device can perform wireless communication,
An informing unit for informing identification information for identifying the wireless area to a communication device in the wireless area;
A receiving unit that receives a location registration request from a communication device that holds identification information different from the identification information;
Based on the received location registration request, a registration unit that registers location information of the communication device;
A change unit that changes the identification information notified by the notification unit according to a change in its own position;
A mobile base station comprising: It further comprises a setting unit for setting a threshold for the amount of change in its own position,
When the change amount exceeds the threshold, the change unit changes the identification information notified by the notification unit.
The mobile base station according to claim 1. A storage unit that stores a plurality of candidate identification information that are candidates for identification information to be changed by the changing unit;
When the location registration request is received, at least one candidate identification information of the plurality of candidate identification information is transmitted to the communication apparatus that has made the location registration request in addition to the identification information notified by the notification unit. A transmitter to
The mobile base station according to claim 1, comprising: The transmission unit transmits different candidate identification information to each of a plurality of communication devices that have made the location registration request.
The mobile base station according to claim 3. A location registration method for registering the location of a communication device,
Broadcasting identification information for identifying the radio area from a base station forming the radio area to a communication device in the radio area;
A step of transmitting a location registration request to the base station from a communication device holding identification information different from the notified identification information;
Registering the location information of the communication device based on the location registration request;
Moving the base station;
Changing the identification information reported by the base station in response to a change in the position of the base station;
Location registration method including

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