JP2013026869A - Mobile terminal, server and method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide technology necessary to realize location finding suitable for information distribution services.SOLUTION: In a mobile terminal, location related information on a plurality of cells from a server are stored in storage, an in-zone cell is determined from information from a base station, and the location of the in-zone cell is determined by referring to the location related information. The location related information is composed of cell identification information, cell location information, and information reacquisition necessity information indicating whether location related information needs to be reacquired at transition to the cell. A control unit includes a cell information determination unit which determines whether location related information on the in-zone cell is stored in a storage unit on the basis of cell identification information on the in-zone cell, and an information reacquisition determination unit which determines whether location related information needs to be reacquired at the in-zone cell on the basis of information reacquisition necessity information on the in-zone cell. The control unit transmits a location related information acquisition request to the server according to the determination results of the cell information determination unit and/or the information reacquisition determination unit, and receives location related information on the in-zone cell and on nearby cells within a prescribed range.

Description

  The present invention relates to a technology for specifying a location of a mobile terminal in a wireless communication system.

  In a current wireless communication system, a mobile terminal can identify its position with high accuracy by using a GPS (Global Positioning System) function or periodically acquiring information transmitted from a base station. it can.

  A service for distributing information such as weather information, traffic information, restaurants and the like according to the position of the mobile terminal using the position information of the mobile terminal acquired in this way has been developed.

JP 2010-252389 A JP-T 2009-512297 JP 2005-512429 A

  In the above-described wireless communication system, when using the information distribution service using the acquired location information, the mobile terminal is required to have a GPS function and periodically receive GPS information or connect to a base station. It is.

  However, in a typical information distribution service, high-accuracy location specification is not required, and it is often sufficient to specify a geographical area such as a cell where a mobile terminal is located.

  Therefore, the subject of this invention is providing the technique for implement | achieving the position specification suitable for an information delivery service.

  In order to solve the above problems, according to one embodiment of the present invention, a storage unit that stores location-related information of a plurality of cells received from a server and a serving cell are determined from information transmitted from a base station, and the stored cell is stored. And a control unit that determines the position of the serving cell with reference to the location-related information, wherein the location-related information indicates cell identification information for identifying a cell and the location of the cell. It is composed of location information and information reacquisition necessity information indicating whether or not reacquisition of the location related information at the time of transition to the cell, the control unit, based on cell identification information of the serving cell, Based on the cell information determination unit that determines whether the location-related information of the serving cell is stored in the storage unit, and the information re-necessity information on the serving cell, the location-related information is regenerated in the serving cell. Whether you need to get An information reacquisition determination unit that transmits the position-related information acquisition request to the server according to a determination result of the cell information determination unit and / or the information reacquisition determination unit, The present invention relates to a mobile terminal that receives location-related information between the serving cell and a neighboring cell within a predetermined range from the serving cell.

  In another aspect of the present invention, a storage unit that stores location related information of a plurality of cells, and the location related information corresponding to a serving cell of the mobile terminal in response to a location related information acquisition request from the mobile terminal The location-related information includes cell identification information that identifies a cell, location information that indicates the location of the cell, and the location information at the time of transition to the cell. Information re-acquisition necessity information indicating whether re-acquisition of location-related information is necessary, and the control unit identifies a serving cell of the mobile terminal and is within a predetermined range from the identified serving cell The present invention relates to a server that identifies a neighboring cell in the network and provides location information related to the identified serving cell and neighboring cell to the mobile terminal.

  According to the present invention, it is possible to realize location specification suitable for an information distribution service.

FIG. 1 is a schematic diagram illustrating a process of acquiring position related information according to an embodiment of the present invention. FIG. 2 is a block diagram showing a configuration of a wireless communication system according to an embodiment of the present invention. FIG. 3 is a block diagram illustrating a configuration of a mobile terminal according to an embodiment of the present invention. FIG. 4 is a diagram illustrating a data format of position related information according to an embodiment of the present invention. FIG. 5 is a block diagram showing a configuration of a server according to an embodiment of the present invention. FIG. 6 is a flowchart showing processing in a mobile terminal according to an embodiment of the present invention. FIG. 7 is a flowchart showing processing in the server according to one embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  In general, in an information distribution service that distributes information according to the position of a mobile terminal, the mobile terminal communicates with an external device such as an information distribution server, and travels such as weather information, traffic information, and restaurant information at the current location of the mobile terminal. Distribution information related to the current location of the terminal is acquired from the information distribution server. At this time, since the position information indicating the current location of the mobile terminal is determined, the mobile terminal can specify its own position based on the position information provided from the cell in which the mobile terminal is located. However, in this case, when the mobile terminal is moving between the cells, it is necessary to acquire the position information from each cell in the area every time the cell moves.

  In the present invention, in order to eliminate the need to sequentially acquire location information from each cell that is in service each time a cell is moved, when a mobile terminal is located in a certain cell and acquires location information, Position information of cells in the vicinity of the serving cell is also received. As a result, it is possible to use the position information of neighboring cells already received at the time of transition to another cell, and it becomes unnecessary to acquire the position information every time a cell is transitioned. As a result, it is possible to reduce the power consumption of the mobile terminal and improve the response speed.

  Furthermore, in the present invention, when the mobile terminal moves to the outer peripheral cell at the outer edge of the cell area composed of the serving cell and the neighboring cell, the mobile terminal displays the position information of the cell and the neighboring cell of the cell in the moved outer peripheral cell. Configured to reacquire. Thereby, even if a user moves between cells, it becomes possible for a mobile terminal to seamlessly use the location information of a serving cell without interruption.

  With reference to FIG. 1, the position related information acquisition process by the above-mentioned this invention is demonstrated in detail. FIG. 1 is a schematic diagram illustrating position-related information acquisition processing according to an embodiment of the present invention.

  As shown in FIG. 1, in response to activation of an application for using information depending on activation or location of a mobile terminal, the mobile terminal is located in a location information providing server via a base station. Notify the related information acquisition request. The position related information is associated with each cell and includes cell identification information for specifying each cell, position information for specifying the geographical position of the cell, and an information reacquisition flag, as will be described later.

  When receiving the location-related information acquisition request from the mobile terminal, the location information providing server is within a predetermined range from the cell 1 where the mobile terminal is located and from the cell 1 from the database storing the location-related information in advance. Neighboring cells (18 cells around cell 1 in the example shown in FIG. 1) are identified. The location information providing server extracts the location information between the specified cell 1 and the neighboring cell, and is located farthest from the cell 1 among the specified neighboring cells, and is configured from the specified cell group The information reacquisition flag is set to “O” for the angular cells (12 cells including the cell 4 in the example shown in FIG. 1) at the outer edge of the region, and cells other than the angular cells (see FIG. In the example shown in FIG. 1, the information reacquisition flag is set to “×” that does not require reacquisition for seven cells including cells 1 to 3. In this way, the location information providing server configures the location information and information reacquisition flag for each cell as location related information in association with the cell identification information, and provides it to the requesting mobile terminal.

  At the time of cell transition, the mobile terminal specifies the location information of the serving cell based on the location related information received from the location information providing server, and moves to a cell in which the information reacquisition flag is set to require reacquisition Only the position information providing server is notified of the position related information acquisition request. In this way, it is possible to reduce the number of times that the mobile terminal notifies the location information providing server of the location related information acquisition request. Further, by allowing the mobile terminal to re-acquire position-related information in the peripheral cell, the mobile terminal can acquire the position-related information of the outer cell immediately before moving to a cell outside the peripheral cell that does not have position-related information. And location-related information can be used seamlessly.

  Hereinafter, examples for realizing the above-described present invention will be described. First, a radio communication system according to an embodiment of the present invention will be described with reference to FIG. FIG. 2 is a block diagram showing a configuration of a wireless communication system according to an embodiment of the present invention.

  As shown in FIG. 2, the radio communication system 10 includes a mobile terminal 100, base stations 200-1 and 200-2, a radio network controller 300, an exchange 400, and a location information providing server 500.

  The mobile terminal 100 is typically a variety of mobile devices having a communication function such as a mobile phone and a smartphone, and typically includes an auxiliary storage device, a memory device, a CPU (Central Processing Unit), a communication device, and a display. It consists of various hardware resources such as devices and input devices. The auxiliary storage device is composed of a hard disk, a flash memory, and the like, and stores programs and data for realizing various processes described later. The memory device is composed of a RAM (Random Access Memory) or the like, and reads and stores the program from the auxiliary storage device when an instruction to start the program is given. The CPU functions as a processor for processing information, and realizes various functions described later according to a program stored in the memory device. The communication device includes various communication circuits for wired and / or wireless connection with other devices via a network. The display device includes a display and the like, and displays data received via the base stations 200-1 and 200-2. The input device typically includes an operation button, a keyboard, a mouse, and the like, and is used by a user to input various operation commands. Note that the mobile terminal 100 is not limited to the hardware configuration described above, and any other appropriate hardware configuration having a function for communicating with the server 500 via the base stations 200-2 and 200-2. You may have.

  Base stations 200-1 and 200-2 (hereinafter referred to as base station 200) are capable of wireless communication with mobile terminal 100, and provide one or more cells 1 to 6 for mobile terminal 100 to wirelessly connect. In the illustrated embodiment, only two base stations 200-1 and 200-2 are shown for simplicity, but typically a number of base stations are used to support the communication area of the wireless communication system 10. Has been placed.

  The radio network controller 300 is typically communicatively connected to the base stations 200-1 and 200-2 via a wired connection, and controls the base stations 200-1.200-2. For example, when the mobile terminal 100 moves between the base stations 200, the handover between the base stations is controlled. The wireless control device 300 communicates with various devices such as the exchange 400 on a network (not shown) operated by a communication carrier.

  The exchange 400 is an interface device for exchanging communication between a network operated by a communication carrier and an external device such as the server 500. The exchange 400 forwards various information and data transmitted from the mobile terminal 100 to a location information providing server 500, an information distribution server (not shown), and the like, and is transmitted from the location information providing server 500, the information distribution server, and the like. Various information and data are transferred to the mobile terminal 100 or the like.

  The location information providing server 500 is typically configured by hardware such as a processor, a memory, a storage device, and communication means. Each process of the location information providing server 500 to be described later is realized by the processor executing various programs stored in the memory with respect to data acquired from the storage device or the communication unit. However, the location information providing server 500 is not limited to the hardware configuration described above, and may be realized by any other appropriate hardware configuration. In this embodiment, the location information providing server 500 is realized as an independent external device, but the present invention is not limited to this. In another embodiment, some or all of the functions of the location information providing server 500 described later may be executed in the base station 200 or the radio network controller 300.

  Next, a mobile terminal according to an embodiment of the present invention will be described with reference to FIG. FIG. 3 is a block diagram illustrating a configuration of a mobile terminal according to an embodiment of the present invention.

  As illustrated in FIG. 3, the mobile terminal 100 includes a transmission / reception unit 110, a control unit 120, a storage unit 130, and an application unit 140.

  The transmission / reception unit 110 communicates with the base station 200 that provides the serving cell via an antenna. That is, the transmission / reception unit 110 receives a radio signal from the base station 200 via the antenna, and transmits a radio signal provided from the control unit 120 or the like to the base station 200 via the antenna.

  The control unit 120 controls the mobile terminal 100 and various components of the mobile terminal 100, determines the serving cell of the mobile terminal 100 from the information transmitted from the base station 200, and stores the location in the storage unit 130. The position of the serving cell is determined with reference to the related information. The control unit 120 includes a communication control unit 121 and an application control unit 122.

  The communication control unit 121 controls a communication function among various functions of the mobile terminal 100. The communication control unit 121 receives cell identification information of a cell where the mobile terminal 100 is located from the transmission / reception unit 110 and provides the cell identification information to the application control unit 122.

  The cell identification information may be composed of a scrambling code that allows the mobile terminal 100 to identify each cell. Typically, 512 scrambling codes are prepared, and a scrambling code is assigned to each cell. In general, a limited number of scrambling codes are used repeatedly. When the scrambling code is used, the mobile terminal 100 can confirm the cell in which the mobile terminal 100 is in any communication state. However, because of the restriction on the number of scrambling codes, Dynamically assigned to the cell. Moreover, cell identification information may be comprised from cell ID allocated uniquely to each cell. Typically, the cell ID is included in the broadcast information and notified to the mobile terminal 100.

  The communication control unit 121 also acquires various types of information and data via the transmission / reception unit 110 in accordance with instructions from the application control unit 122.

  The application control unit 122 controls processing of various applications of the application unit 140. In addition, the application control unit 122 transmits various information and data such as position information and a data acquisition request to the information distribution server via the transmission / reception unit 110 according to the request from the application unit 140, and the position of the mobile terminal 100 is transmitted from the information distribution server. Acquire distribution information and data according to. The application control unit 122 includes a cell information determination unit 123 and an information reacquisition determination unit 124.

  When cell identification information is received from the communication control unit 121, the cell information determination unit 123 accesses the storage unit 130 and determines whether cell-related information related to the received cell identification information is stored. When location related information of a cell corresponding to the cell identification information is stored in the storage unit 130, the cell information determination unit 123 extracts the location information of the cell from the storage unit 130, and uses an application that uses the location information. The extracted position information is provided to the application unit 140 for use. On the other hand, when the location related information of the cell corresponding to the cell identification information is not stored in the storage unit 130, the location related information acquisition request is notified to the location information providing server 500 via the transmission / reception unit 110.

  The information reacquisition determination unit 124 refers to the information reacquisition flag of the cell related position information stored in the storage unit 130 and determines whether the cell needs to reacquire position related information. When it is necessary to reacquire the position related information of the cell, the information reacquisition determining unit 124 notifies the communication control unit 121 that it is necessary to reacquire position related information. On the other hand, when it is not necessary to reacquire the location related information of the cell, the information reacquisition determining unit 124 extracts the location information of the cell from the storage unit 130 and extracts it for use by the application using the location information. The location information is provided to the application unit 140.

  The storage unit 130 stores location-related information regarding cells received by the control unit 120 via the transmission / reception unit 110. In one embodiment, the storage unit 130 uses the data format as shown in FIG. 4 to re-acquire information indicating cell identification information, position information related to the cell, and whether or not position-related information needs to be acquired again for the cell. Stores position related information composed of flags.

  Here, the location information may be composed of latitude and longitude indicating the geographical location of the base station that provides the cell, a predetermined area code or zip code indicating the geographical region of the cell, and the like. The information reacquisition flag indicates whether or not position-related information needs to be reacquired in the cell. For example, when the information reacquisition flag is set to “◯”, the mobile terminal 100 If the information reacquisition flag is set to “x”, the mobile terminal 100 does not need to reacquire position-related information in the cell. . When the position related information is reacquired, the storage unit 130 replaces the reacquired position related information with the existing position related information. As a result, even when the cell identification information is identified by a limited number of scramble codes, the cell can be identified based on the reassigned cell identification information.

  The specific example of the position related information shown in FIG. 4 corresponds to the position related information acquired by the mobile terminal 100 in the cell 1 of FIG. That is, cell identification information “21”, position information “AAA”, and information reacquisition flag “×” are stored as position related information associated with cell 1. Cell identification information “120”, position information “ABC”, and an information reacquisition flag “×” are stored as position related information associated with the cell 2. Cell location information “11”, location information “DEF”, and information reacquisition flag “x” are stored as location related information associated with the cell 3. As position related information associated with the cell 4, cell identification information “15”, position information “GHI”, and an information reacquisition flag “◯” are stored. Since cells 1 to 3 are not outer cells, the information reacquisition flag is set to “x”, but since cell 4 is an outer cell, the information reacquisition flag is set to “◯”. .

  In this embodiment, the information reacquisition determination unit 124 determines that it is necessary to reacquire position-related information in response to the transition to a cell in which the information reacquisition flag is set to “◯”. did. In another embodiment, the information reacquisition determining unit 124 further sends a location related information acquisition request to the location information providing server 500 regardless of the setting content of the information reacquisition flag when a predetermined time has elapsed since the acquisition of the current location related information. You may make it transmit. In this case, even if the position of the base station and the cell identification information are changed, it is possible to use the updated position related information by periodically acquiring new position related information.

  The application unit 140 executes various applications of the mobile terminal 100. In the present embodiment, the application unit 140 receives location information of the serving cell from the application control unit 122 and controls various applications that use distribution information corresponding to the location information. For example, when a weather forecast application is executed, the application unit 140 receives position information related to the serving cell from the application control unit 122, and acquires weather data corresponding to the received position of the serving cell from the information distribution server. Instructs the application control unit 122. When the weather data corresponding to the location of the serving cell requested from the application control unit 122 is acquired, the application unit 140 processes the weather data acquired using the weather forecast application, and the weather forecast data is displayed on the user via a display device or the like. To provide. In addition, when executing the traffic information application, the application unit 140 receives the location information regarding the serving cell from the application control unit 122 and acquires the traffic information corresponding to the received location of the serving cell from the information distribution server. Instructs the application control unit 122. When the traffic information corresponding to the location of the serving cell requested from the application control unit 122 is acquired, the application unit 140 processes the traffic information acquired using the traffic information application, and transmits the traffic information to the user via a display device or the like. provide.

  Next, a location information providing server according to an embodiment of the present invention will be described with reference to FIG. FIG. 5 is a block diagram illustrating a configuration of a location information providing server according to an embodiment of the present invention. In the present embodiment, when receiving the location-related information acquisition request from the mobile terminal 100, the location information providing server 500 specifies the serving cell of the mobile terminal 100 and further specifies the neighboring cell of the serving cell. The location information providing server 500 adds cell identification information between the specified in-zone cell and the neighboring cell, location information of each cell, and peripheral cells at the outer edge of the cell area composed of the in-zone cell and the neighboring cell. For the cells other than the peripheral cells, the information related to the information reacquisition is set for the cells other than the peripheral cells, and the information reacquisition flag set to the information reacquisition flag set to “x” is generated. The generated location related information is provided to the requesting mobile terminal 100.

  As illustrated in FIG. 5, the location information providing server 500 includes a transmission / reception unit 510, a control unit 520, and a location related information database 530.

  When the transmission / reception unit 510 receives a position-related information acquisition request from the mobile terminal 100 via the exchange 400, the transmission / reception unit 510 transmits the received position-related information acquisition request to the control unit 520. When receiving the location-related information requested from the control unit 520, the transmission / reception unit 510 transmits the received location-related information to the mobile terminal 100 via the exchange 400.

  The control unit 520 controls the location information providing server 500 and various components of the location information providing server 500 and receives a location-related information acquisition request received from the mobile terminal 100 via the transmission / reception unit 510. Identifies a serving cell and a neighboring cell of the cell, and provides location-related information including cell identification information, location information, and information reacquisition flag of each identified cell to the requesting mobile terminal 100 via the transmission / reception unit 510 To do.

  In the present embodiment, the control unit 520 includes a serving cell specifying unit 521 and a location related information creating unit 522.

  Upon receiving the location-related information acquisition request from the mobile terminal 100 via the transmission / reception unit 510, the serving cell specifying unit 521 specifies the serving cell of the mobile terminal 100. The specification of the serving cell can be performed based on the cell identification information of the serving cell of the mobile terminal 100 included in the position related information acquisition request, for example.

  The location-related information creating unit 522 accesses the location-related information database 530 based on the located cell of the mobile terminal 100 specified by the located cell specifying unit 521, and neighboring cells within a predetermined range from the located cell. Is identified. Neighboring cells are selected based on the distance from the serving cell using any suitable distance criterion. For example, in the cell arrangement as shown in FIG. 1, the cell distance between the serving cell and the six cells adjacent thereto is 1, and 12 cells further adjacent to the serving cell and the neighboring cell. When the cell distance between and is 2, the cell with the cell distance of 2 or less is selected as the neighbor cell. As described above, a cell whose cell distance from the cell in the area is a predetermined value or less may be selected as a neighboring cell. The greater the cell distance, the greater the number of neighboring cells and the lower the frequency of re-acquisition of location related information at the time of cell transition, which is effective, but requires a lot of cell identification information. For this reason, when a scramble code that can provide only a limited number of cell identification information is used, if a predetermined range is set large, each cell may not be properly identified, and a larger storage area is required. It becomes.

  The distance reference for selecting a neighbor cell according to the present invention is not limited to the cell distance described above, and any other appropriate distance reference may be applied. For example, a cell whose physical distance from the serving cell is a predetermined value or less may be selected as a neighboring cell. According to this distance criterion, if the cover area of each arranged cell is not uniform, it is possible to select a neighboring cell based on the physical distance. In another embodiment, the cell distance between the cells may be pre-weighted based on any factor, and the weighted cell distance may be used. For example, a small cell distance may be assigned between cells on a route where the mobile terminal 100 is likely to move at high speed, and more cells may be included as neighboring cells on the route. As a result, frequent position-related information acquisition requests can be avoided even during high-speed movement.

  When the serving cell and the neighboring cell are specified in this way, the position related information creation unit 522 extracts the position information of each specified cell from the position related information database 530. Further, the location-related information creation unit 522 identifies the peripheral cell arranged at the outer edge of the cell area composed of the serving cell and the neighboring cell, and sets the information reacquisition flag of the identified peripheral cell as information reacquisition required. Set and set the information reacquisition flag of other cells so that information reacquisition is not required. When the above-described distance reference with the cell distance between adjacent cells set to 1 is used, the outer cell corresponds to a cell whose cell distance from the serving cell is equal to a predetermined value. That is, in the specific example shown in FIG. 1, the peripheral cell corresponds to a cell having a cell distance of 2 from the serving cell. Further, when a physical distance or a weighted cell distance is used as a distance reference, a cell having an outer edge of the specified cell group is specified as an outer peripheral cell.

  In this way, the location-related information creation unit 522 creates location-related information from the cell identification information, the location information, and the information reacquisition flag for each identified cell, and sends the location-related information to the requesting mobile terminal 100 via the transmission / reception unit 510. provide.

  The location related information database 530 stores location information of each cell of the wireless communication network 10 and a distance between the cells. In this embodiment, the position related information database 530 is built in the position information providing server 500, but the present invention is not limited to this. In another embodiment, the position related information database 530 is realized by a device physically independent from the position information providing server 500, is connected to the position information providing server 500, and acquires position related information from the position information providing server 500. In response to the request, the requested position related information may be returned. The location information providing server 500 stores the received location related information, performs necessary processing such as setting an information reacquisition flag of the angular cell, and provides it to the requesting mobile terminal 100.

  Next, with reference to FIG. 6, the process in the mobile terminal by one Example of this invention is demonstrated. FIG. 6 is a flowchart showing processing in a mobile terminal according to an embodiment of the present invention.

  As shown in FIG. 6, in step S101, the mobile terminal 100 moves between cells. When the mobile terminal 100 is activated or when an application that uses location information is activated, the mobile terminal 100 is considered to have moved to a cell that is located at the time of activation.

  In step S102, the communication control unit 121 of the mobile terminal 100 receives cell identification information (scramble code, cell ID, etc.) from the base station 200 that provides the serving cell, and uses the received cell identification information as the cell information determination unit 123. To provide.

  In step S <b> 103, the cell information determination unit 123 determines whether the location related information related to the received cell identification information is stored in the storage unit 130. When the relevant position related information is not stored in the storage unit 130 (S103: No), the flow proceeds to step S104.

  In step S <b> 104, the mobile terminal 100 transmits a location related information acquisition request to the location information providing server 500. When receiving the location-related information acquisition request from the mobile terminal 100, the location information providing server 500 identifies the serving cell of the mobile terminal 100 and neighboring cells of the serving cell, cell identification information of each identified cell, Location-related information consisting of the location information of each cell and the information re-acquisition flag in which information re-acquisition “O” is set in the outer cell and information re-acquisition unnecessary “×” is set in the other cells Is provided to the requesting mobile terminal 100.

  In step S <b> 105, when receiving location-related information between the serving cell and the neighboring cell via the base station 200, the mobile terminal 100 stores the received location-related information in the storage unit 130.

  In step S106, in response to a data acquisition request from an information distribution application using the location information of the application unit 140, the application control unit 122 obtains location information corresponding to the cell identification information of the serving cell from the storage unit 130. Extract.

  In step S <b> 107, the application control unit 122 provides the extracted position information to the application unit 140. The application unit 140 transmits a data acquisition request to the corresponding information distribution server together with the position information of the serving cell, and acquires distribution information corresponding to the position information. Thereafter, the process ends.

  On the other hand, when the relevant position related information is stored in the storage unit 130 (S103: Yes), the flow proceeds to step S108. In step S108, the information reacquisition determining unit 124 checks the information reacquisition flag of the cell identification information stored in the storage unit 130, and determines whether or not it is necessary to reacquire position related information in the cell. When the information reacquisition flag is “x” that does not require information reacquisition (S108: No), the information reacquisition determining unit 124 determines that it is not necessary to reacquire position-related information in the cell, and The process proceeds to S109.

  In step S109, as in step S106 described above, the application control unit 122 extracts position information corresponding to the cell identification information of the serving cell stored in the storage unit 130.

  In step S110, as in step S107 described above, the application control unit 122 provides the extracted position information to the application unit 140. The application unit 140 transmits a data acquisition request to the corresponding information distribution server together with the position information of the serving cell, and acquires distribution information corresponding to the position information. Thereafter, the process ends.

  On the other hand, when the information reacquisition flag of the cell is information reacquisition required “O” (S108: Yes), the mobile terminal 100 distributes information using the location information of the serving cell stored in the storage unit 130. The distribution information corresponding to the position information is acquired from the server (steps S109 to S110), and the position related information is acquired again from the position information providing server 500 in the serving cell (steps S111 to S112).

  In step S111, as in step S104 described above, the mobile terminal 100 transmits a location related information acquisition request to the location information providing server 500. When receiving the location-related information acquisition request from the mobile terminal 100, the location information providing server 500 identifies the serving cell of the mobile terminal 100 and neighboring cells of the serving cell, cell identification information of each identified cell, Location-related information consisting of the location information of each cell and the information re-acquisition flag in which information re-acquisition “O” is set in the outer cell and information re-acquisition unnecessary “×” is set in the other cells Is provided to the requesting mobile terminal 100.

  In step S112, as in step S105 described above, when receiving location-related information between the serving cell and the neighboring cell via the base station 200, the mobile terminal 100 stores the received location-related information in the storage unit 130.

  Note that the mobile terminal 100 may execute the processes of steps S109 to S110 and the processes of steps S111 to S112 at the same time, or may preferentially execute any process according to the execution state of the application unit 140. It may be. For example, when giving priority to distribution information acquisition processing depending on position information in the application unit 140, the mobile terminal 100 may preferentially execute steps S109 to S110. On the other hand, when the distribution information acquisition process is not executed in the application unit 140 or when the position related information is frequently updated due to the user moving at high speed, the mobile terminal 100 gives priority to the position related information acquisition process. Steps S111 to S112 may be executed with priority.

  Here, the above process at the time of transition between the cells of the mobile terminal 100 shown in FIG. 6 will be further described using the specific example shown in FIG. For simplicity of explanation, it is assumed that the mobile terminal 100 does not have any cell location-related information in the initial stage.

  In the specific example shown in FIG. 1, a case where the mobile terminal 100 is activated in the cell 1 will be described. In this case, the mobile terminal 100 is considered to have moved to the cell 1 in step S101, and acquires the cell identification information of the cell 1 in step S102. In step S103, the cell information determination unit 123 does not have the location information corresponding to the cell identification information of the cell 1 in the storage unit 130 (S103: No), so the process proceeds to step S104, and the mobile terminal 100 provides the location information. A position related information acquisition request is transmitted to the server 500. Thereafter, in step S105, the mobile terminal 100 acquires location-related information between the serving cell 1 and the neighboring cell of the cell 1, and acquires distribution information based on the acquired location information in subsequent steps S106 to S107.

  Next, a case where the mobile terminal 100 moves from the cell 1 to the cell 2 will be described. In this case, the mobile terminal 100 acquires cell identification information of the cell 2 in step S102. In step S <b> 103, the cell information determination unit 123 determines whether the location information corresponding to the cell identification information of the cell 2 exists in the storage unit 130. Since the cell 2 is a neighboring cell of the cell 1, the position information of the cell 2 has already been acquired in response to the position related information acquisition request in the cell 1 described above (S103: Yes). For this reason, the process proceeds to step S108, and the information reacquisition determining unit 124 checks the information reacquisition flag for the cell 2. Since the cell 2 is not the outer cell of the cell 1, the information reacquisition flag is set to “x” that does not require information reacquisition (S108: No). Therefore, the information reacquisition determining unit 124 proceeds to step S109 without notifying the position information providing server 500 of the position related information acquisition request in the cell 2. In steps S109 to S110, the mobile terminal 100 acquires distribution information based on the location information of the cell 2 stored in the storage unit 130. It will be understood that the case where the mobile terminal 100 moves from the cell 2 to the cell 3 is the same.

  Next, a case where the mobile terminal 100 moves from the cell 3 to the cell 4 that is an outer peripheral cell will be described. In this case, the mobile terminal 100 acquires the cell identification information of the cell 4 in step S102. In step S <b> 103, the cell information determination unit 123 determines whether the location information corresponding to the cell identification information of the cell 4 exists in the storage unit 130. Since the cell 4 is a neighboring cell of the cell 1, the position information of the cell 4 has already been acquired in response to the position related information acquisition request in the cell 1 described above (S103: Yes). For this reason, the process proceeds to step S <b> 108, and the information reacquisition determining unit 124 checks the information reacquisition flag for the cell 4. Since the cell 4 is an outer peripheral cell of the cell 1, the information reacquisition flag is set to “requirement of information reacquisition” (S108: Yes). Therefore, the mobile terminal 100 executes the distribution information acquisition process (S109 to S110) and the position related information reacquisition process (S111 to S112) simultaneously or in any appropriate order. By the position related information re-acquisition process in the cell 4, the mobile terminal 100 acquires the position related information of the cell group within a predetermined range centering on the cell 4.

  Next, with reference to FIG. 7, the process in the location information providing server according to an embodiment of the present invention will be described. FIG. 7 is a flowchart showing processing in the location information providing server according to one embodiment of the present invention.

  As shown in FIG. 7, in step S <b> 201, the location information providing server 500 receives a location related information acquisition request from the mobile terminal 100 together with cell identification information indicating a serving cell.

  In step S202, the serving cell specifying unit 521 of the location information providing server 500 specifies the serving cell of the mobile terminal 100 from the received cell identification information.

  In step S203, the location-related information creation unit 522 of the location information providing server 500 accesses the location-related information database 530 and sets a cell at a distance equal to or less than a predetermined value from a serving cell based on a predetermined distance criterion as a neighboring cell. Identify. After identifying the neighboring cell, the location related information creation unit 522 extracts the location information of the serving cell and the neighboring cell from the location related information database 530, and at the same time the cell region configured by the serving cell and the neighboring cell. The information reacquisition flag is set to “O” for information reacquisition for an outer peripheral cell, and “x” for information reacquisition is set for other cells. The location-related information creation unit 522 creates location-related information from the cell identification information, location information, and information reacquisition flag of the serving cell and neighboring cells obtained in this way.

  In step S204, the location information providing server 500 provides the created location related information to the requesting mobile terminal 100.

  Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the specific embodiments described above, and various modifications are possible within the scope of the gist of the present invention described in the claims.・ Change is possible.

10 wireless communication system 100 mobile terminal 500 location information providing server

Claims (5)

A storage unit for storing location-related information of a plurality of cells received from the server;
A control unit that determines a serving cell from information transmitted from a base station and determines the position of the serving cell with reference to the stored location-related information;
A mobile terminal having
The position related information includes cell identification information for identifying a cell, position information indicating the position of the cell, and information reacquisition necessity information indicating necessity of reacquisition of the position related information at the time of transition to the cell. And consists of
The controller is
A cell information determination unit that determines whether location-related information of the serving cell is stored in the storage unit based on the cell identification information of the serving cell;
An information reacquisition determining unit that determines whether or not it is necessary to reacquire the location related information in the serving cell based on the information reacquisition necessity information of the serving cell;
Have
The control unit transmits an acquisition request for the location-related information to the server according to a determination result of the cell information determination unit and / or the information reacquisition determination unit, and the predetermined value is determined from the in-zone cell and the in-zone cell. A mobile terminal that receives location-related information with neighboring cells within the range of.   In the position-related information between the serving cell and the neighboring cell received in response to the acquisition request, the information on the outer cell arranged at the outer edge of the cell area composed of the serving cell and the neighboring cell is reproduced. The mobile terminal according to claim 1, wherein the acquisition necessity information is set when it is necessary to reacquire the position related information. A storage unit for storing position-related information of a plurality of cells;
In response to a location-related information acquisition request from a mobile terminal, a control unit that provides the mobile terminal with the location-related information corresponding to a serving cell of the mobile terminal;
A server having
The position related information includes cell identification information for identifying a cell, position information indicating the position of the cell, and information reacquisition necessity information indicating necessity of reacquisition of the position related information at the time of transition to the cell. And consists of
The control unit identifies a serving cell of the mobile terminal, identifies a neighboring cell within a predetermined range from the identified serving cell, and relates a position relationship between the identified serving cell and the neighboring cell. A server that provides information to the mobile terminal.   The control unit sets the information reacquisition necessity information of the peripheral cell arranged at the outer edge of the cell area composed of the in-zone cell and the neighboring cell that the position-related information needs to be reacquired. The server according to claim 3. A method in a mobile terminal having a storage unit for storing location related information of a plurality of cells received from a server,
The position related information includes cell identification information for identifying a cell, position information indicating the position of the cell, and information reacquisition necessity information indicating necessity of reacquisition of the position related information at the time of transition to the cell. And consists of
The method is
Determining a serving cell from information transmitted from the base station;
Determining whether location related information of the serving cell is stored in the storage unit based on the cell identification information of the serving cell;
Determining whether it is necessary to re-acquire the location-related information in the serving cell based on the information re-acquisition necessity information of the serving cell;
Transmitting an acquisition request for the location-related information to the server according to the determination result;
In response to the acquisition request, receiving location related information between the serving cell and a neighboring cell within a predetermined range from the serving cell;
Determining the location of the serving cell with reference to the received location related information;
Having a method.

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