JP6676392B2 - Base station and notification method - Google Patents

Description

  The present invention relates to a base station and a notification method, and more particularly, to a base station and a notification method for notifying a terminal of an emergency bulletin.

  2. Description of the Related Art Generally, a mobile communication system that notifies a terminal of an emergency bulletin is known. The mobile communication system is disclosed in Patent Document 1, for example. FIG. 1 is a configuration diagram of a mobile communication system of Patent Document 1.

  As shown in FIG. 1, the mobile communication system of Patent Literature 1 includes a broadcast device, a switching center MME (Mobility Management Entity), and a base station eNB (evolved Node B). The broadcast device has a mapping table (hereinafter, referred to as “table A”) in which a “distribution area” for distributing an emergency bulletin and a “switching station MME” for controlling the base station eNB in the distribution area are associated with each other. It is set in advance. In the exchange MME, a mapping table (hereinafter, referred to as “table B”) in which “distribution area” and “base station eNB” of the distribution area are associated with each other is set in advance.

  When receiving the emergency information notification message from the connected device (not shown), the broadcast device extracts from the table A the exchange MME corresponding to the distribution area included in the received emergency information notification message. The broadcast device transfers the received emergency information notification message to the extracted switching center MME (for example, the MME 90).

  Next, upon receiving the emergency information notification message, the exchange MME (for example, the MME 90) extracts, from Table B, the base station eNB corresponding to the distribution area included in the emergency information notification message. The extracted base station eNB is the base station eNB in the distribution area. The exchange MME transfers the received emergency information notification message to each of the base stations eNB in the extracted distribution area. Each base station eNB in the distribution area broadcasts emergency information included in the received emergency information notification message as a radio signal to terminals in its own cell. Thereby, the emergency information is notified to the terminals in the distribution area.

  As described above, the mobile communication system of Patent Literature 1 can notify a terminal in a distribution area of emergency information as described above.

JP 2009-303174 A JP 2015-080173 A

  However, in the mobile communication system of Patent Literature 1, there is a problem that the user of the terminal cannot recognize the emergency bulletin depending on the state of the terminal because the user recognizes the emergency bulletin via the terminal.

  For example, when the power of the terminal is turned off at a hospital or the like or when the battery of the terminal is exhausted, the user of the terminal cannot recognize the emergency bulletin. In addition, even when the terminal does not support the emergency bulletin, the user of the terminal could not recognize the emergency bulletin. There is a problem that the terminal user cannot recognize the emergency bulletin depending on the state of the terminal.

  An object of the present invention is to provide a base station and a notification method that solve the above problems.

  In order to achieve the above object, the base station of the present invention is a base station having a cell, and a determination unit that determines whether a received message received is an emergency bulletin notification message, and the determination unit A warning unit that emits a predetermined warning sound indicating a notification of the emergency flash report at a predetermined volume reaching a terminal in the cell, when it is determined that the received message is the emergency flash notification message.

  In order to achieve the above object, a notification method of the present invention is a method of a base station having a cell, wherein a determination step of determining whether a received message received is an emergency bulletin notification message, and the determination step And a warning step of, when it is determined that the received message is the emergency bulletin notification message, issuing a predetermined warning sound indicating a notification of the emergency bulletin at a predetermined volume reaching a terminal in the cell.

  ADVANTAGE OF THE INVENTION According to this invention, a terminal user can recognize an emergency flash report regardless of the state of a terminal.

FIG. 1 is a configuration diagram of a mobile communication system of Patent Document 1. FIG. 1 is a diagram illustrating a configuration example of a mobile communication system according to a first embodiment of the present invention. FIG. 3 is a diagram illustrating an example of a volume data table set in a base station device provided in the mobile communication system according to the first embodiment of the present invention. FIG. 3 is a diagram illustrating an example of a voice data table set in a base station device provided in the mobile communication system according to the first embodiment of the present invention. FIG. 11 is a diagram for explaining the operation of the base station of Patent Document 2. FIG. 2 is a diagram illustrating a configuration example of a base station device provided in the mobile communication system according to the first embodiment of the present invention. FIG. 3 is a diagram for explaining an operation of the base station device provided in the mobile communication system according to the first embodiment of the present invention. FIG. 4 is a diagram illustrating another configuration example of the base station device provided in the mobile communication system according to the first embodiment of the present invention. FIG. 3 is a diagram for explaining a registration operation of a base station device provided in the mobile communication system according to the first embodiment of the present invention. FIG. 11 is a diagram illustrating a configuration example of a mobile communication system according to a second embodiment of the present invention. FIG. 11 is a diagram illustrating a configuration example of a base station device provided in a mobile communication system according to a second embodiment of the present invention. FIG. 13 is a diagram illustrating an example of a volume data table set in a base station device provided in a mobile communication system according to a second embodiment of the present invention. FIG. 11 is a diagram (part 1) for explaining the operation of the base station device provided in the mobile communication system according to the second embodiment of the present invention. It is FIG. (2) for demonstrating operation | movement of the base station apparatus with which the mobile communication system in 2nd Embodiment of this invention is provided. FIG. 13 is a diagram illustrating a configuration example of a base station according to a third embodiment of the present invention.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

<< 1st Embodiment >>
[Overview]
The base station of the mobile communication system according to the present embodiment, when the received message is the emergency bulletin notification message, emits a warning sound to the terminal in the own cell to indicate the emergency bulletin notification. The user of the terminal can recognize the emergency bulletin by sound without going through the terminal. As a result, the terminal user can recognize the emergency bulletin regardless of the state of the terminal even if the power is off.

  Hereinafter, the configuration, function, and operation of the mobile communication system according to the first embodiment of the present invention will be described.

[Description of configuration]
First, the configuration and functions of the mobile communication system according to the first embodiment of the present invention will be described. FIG. 2 is a diagram illustrating a configuration example of the mobile communication system according to the first embodiment of the present invention.

(1) Configuration of Mobile Communication System According to First Embodiment of the Present Invention As shown in FIG. 2, a mobile communication system according to this embodiment includes base station apparatuses 1 and 2, terminal 3, And a body communication network 4. The base station devices 1 and 2 include cells. The terminal 3 is located in the cell of the base station device 1. The base station apparatuses 1 and 2 are connected to a mobile communication network 4 via a wired line (specifically, a transmission line). The base station device 1 is connected to the terminal 3 via a wireless line.

(2) Functions of Base Station Devices 1 and 2 The functions of the base station devices 1 and 2 will be described below. Since the base station apparatuses 1 and 2 have the same function, the function of the base station apparatus 1 will be described as a representative. FIG. 3 is a diagram illustrating an example of a volume data table set in the base station device 1. FIG. 4 is a diagram illustrating an example of a voice data table set in the base station device 1.

(2-1) General Base Station Function The base station apparatus 1 has a general base station function.

  As one of the general base station functions, the base station apparatus 1 has a transmission power adjustment function. The transmission power adjustment function is a function of adjusting a transmission power value based on interference power from neighboring cells. A base station having a transmission power adjustment function is disclosed in Patent Document 2. Here, the operation of the base station of Patent Document 2 will be described. FIG. 5 is a diagram for explaining the operation of the base station of Patent Document 2.

  First, as shown in the left diagram of FIG. 5, the base station 95 of Patent Document 2 performs a general cell search to detect a neighboring cell. The base station 95 of Patent Literature 2 measures interference power for each detected neighboring cell, and when the measured interference power is small and equal to or less than a threshold, estimates that there is a dead zone with the neighboring cell. When the base station 95 of Patent Document 2 estimates that there is a dead zone between itself and a neighboring cell, the base station 95 estimates the distance to the boundary of the neighboring cell, and calculates the transmission power value at which a radio wave reaches a point at the estimated distance by a propagation equation. Ask. The base station 95 of Patent Literature 2 performs adjustment to increase the transmission power to the determined transmission power value. As a result, as shown in the right diagram of FIG. 5, the communication area (that is, the cell) of the base station 95 of Patent Literature 2 increases, and the base station 95 of Patent Literature 2 can eliminate the dead zone. .

  Similarly to the base station of Patent Document 2, the base station apparatus 1 also has a transmission power adjustment function, and measures interference power from neighboring cells (ie, interference power from cells of the base station apparatus 2) at regular intervals. Then, the transmission power value is adjusted according to the measured interference power.

(2-2) Power value storage function When the transmission power value is adjusted by the transmission power adjustment function, the base station apparatus 1 stores the adjusted transmission power value in a memory (hereinafter, referred to as a “power value storage memory”).

(2-3) Message Determination Function When receiving a message via a transmission path, the base station apparatus 1 determines whether the received message is an emergency bulletin notification message. Specifically, the base station apparatus 1 extracts a Procedure Code value from the received message, and determines whether or not the extracted Procedure Code value is a value indicating an emergency bulletin notification message.

  The emergency bulletin notification message may be a Write Replace Warning Request message specified in 3GPP (3rd Generation Partnership Project). In this case, the Procedure Code value is value 36, and the base station apparatus 1 determines whether the Procedure Code value extracted from the received message is the value 36.

(2-4) Warning Sound Transmission Function The base station apparatus 1 emits a warning sound when the received message is an emergency bulletin notification message. However, the base station device 1 emits a warning sound at a volume at which the warning sound reaches the cell boundary.

  Here, the base station device 1 includes a volume data table so that the volume at which the warning sound reaches the cell boundary is obtained. This is because, as shown in FIG. 5, the boundary of the cell fluctuates due to the transmission power adjustment function (transmission power value), and the volume at which the warning sound reaches the cell boundary is not constant.

(2-4-1) Volume Data Table As shown in FIG. 3, the volume data table includes a transmission power value that fluctuates by the transmission power adjustment function and an area where radio waves transmitted at the transmission power value reach (that is, This is a table in which volume values at which a warning sound reaches the boundary of a cell) are associated with each other. The volume data table is preset in the base station device 1 by the administrator of the mobile communication system of the present embodiment.

(2-4-2) Procedure for Creating Volume Data Table The administrator of the mobile communication system of the present embodiment may create the volume data table according to the following procedure.

  Procedure I) First, when the base station apparatus 1 transmits a radio wave at a certain transmission power value, the administrator of the mobile communication system determines a boundary of an area (ie, a cell) where the radio wave reaches a general area. Check with a tester.

  Procedure II) Next, the administrator of the mobile communication system transmits a warning sound at several volumes from the base station apparatus 1 and determines a volume value at which the warning sound reaches the boundary of the area confirmed in the procedure I). Ask. For this purpose, the administrator of the mobile communication system places a person on the area boundary confirmed in the procedure I) and obtains a volume value that can be recognized by the placed person. Each time the manager of the mobile communication system issues a warning sound at a different volume, it confirms whether or not a person located at the area boundary has recognized the warning sound, and obtains a volume value at which the warning sound reaches the boundary of the area.

  Procedure III) Next, the administrator of the mobile communication system records the transmission power value used in procedure I) and the volume value obtained in procedure II) in association with each other.

  Procedure IV) The administrator of the mobile communication system repeatedly performs procedures I) to III) for a plurality of transmission power values for each transmission power value.

  Procedure V) The administrator of the mobile communication system sets the transmission power value and the sound volume value recorded in association with each other in the base station device 1 as a sound volume data table.

(2-4-3) Details of Warning Sound Transmission Function The base station device 1 emits a warning sound using the volume data table as follows.

  First, when the received message is an emergency bulletin notification message, the base station device 1 acquires the transmission power value of the base station device 1 from the power value storage memory. Next, the base station device 1 extracts a volume value corresponding to the acquired transmission power value from the volume data table, and emits a warning sound at the extracted volume value.

(2-5) Warning Sound Change Function The base station apparatus 1 may change the warning sound depending on the type of the emergency bulletin notification message. Specifically, the base station device 1 may change the alarm sound by using a Message ID (Identifier) included in the emergency bulletin notification message.

  The Message ID is an identifier indicating the type of the emergency bulletin notification message, and is specified as follows in 3GPP Technical Specification (TS) 23.041 v10.1.0.

-Message ID = 0x1100-Earthquake warning message-Message ID = 0x1101-Tsunami warning message-Message ID = 0x1102-Compound warning message of self and tsunami-Message ID = 0x1103-Test message To change the warning sound for each Message ID The base station device 1 may include a voice data table.

(2-5-1) Audio Data Table As shown in FIG. 4, the audio data table is a table in which the above-described Message ID, audio data of the alarm sound, and the number of repetitions are associated with each other. It is set in the base station device 1 by the administrator of the body communication system.

  The sound data of the warning sound may include a sound such as “an earthquake will occur”. Further, the sound data of the warning sound may be sound data in the MP3 (Moving Picture Experts Group) Audio Layer-3 (MPEG) format.

(2-5-2) Details of Warning Sound Change Function The base station apparatus 1 can emit a warning sound according to the Message ID using the voice data table as follows.

  The base station device 1 extracts the Message ID from the received emergency bulletin notification message. Next, the base station device 1 obtains the sound data of the warning sound corresponding to the extracted Message ID from the sound data table. The base station apparatus 1 reproduces the acquired sound data of the warning sound as a sound, and transmits the reproduced sound (warning sound) by the above-described “warning sound transmission function”.

(2-6) Function of Repeating Warning Sound Further, the base station device 1 may repeatedly emit a warning sound. Specifically, the base station apparatus 1 extracts the number of repetitions corresponding to the Message ID included in the received emergency bulletin notification message from the voice data table, and emits a warning sound for the extracted number.

(3) Configuration of Base Station Device 1 FIG. 6 is a diagram illustrating a configuration example of the base station device 1 provided in the mobile communication system according to the first embodiment of the present invention.

  In order to realize the functions (2-1) to (2-6) described above, the base station apparatus 1 includes an IF (Interface) unit 11, a message branching unit 12, The base station control unit 13 includes a wireless communication unit 14 and an antenna unit 15. Further, the base station device 1 includes a data search unit 16, an audio conversion unit 17, an audio output unit 18, a storage unit 19, and a volume adjustment unit 20.

(3-1) Function Unit with General Function The IF unit 11, the base station control unit 13, the radio communication unit 14, and the antenna unit 15 are function units for realizing a general base station function. is there.

  The IF unit 11 is a functional unit having a general transmission line interface function. Therefore, when receiving a message addressed to the base station device 1 from the mobile communication network 4, the IF unit 11 outputs the message to the message branching unit 12. When a message is input from the message branching unit 12, the IF unit 11 transmits the message to the mobile communication network 4. When receiving a message other than the one addressed to the base station device 1 from the mobile communication network 4, the IF unit 11 discards the message.

  The wireless communication unit 14 is a general wireless communication function unit that performs wireless communication according to 3GPP. The antenna unit 15 is a general antenna. The base station control unit 13 is a functional unit that adjusts the transmission power value of the base station device 1 at regular intervals, like the base station of Patent Document 2.

  When adjusting the transmission power value, the base station control unit 13 converts the adjusted transmission power value into an electric signal and outputs the electric signal to the data search unit 16. This is to enable the data search unit 16 to use the transmission power value.

(3-2) Audio Output Unit 18 The audio output unit 18 is a general omnidirectional speaker without directivity. The sound output unit 18 emits a sound in all directions of 360 degrees from the base station device 1 which is the center of the cell.

  FIG. 6 illustrates a case where the audio output unit 18 is installed on the side surface of the base station device 1, but the audio output unit 18 may be provided on the top surface of the base station device 1.

(3-3) Other Function Units The functions of other function units will be described in detail in [Description of Operation] described later.

  The audio data table and the volume data table described in (2-4-1) and (2-5-1) are set in the storage unit 19. The audio data table and the volume data table set in the storage unit 19 are hereinafter referred to as an “audio data table 190” and a “volume data table 191”.

(4) Terminal 3 and Mobile Communication Network 4 The terminal 3 is a terminal of a general mobile communication system.

  The mobile communication network 4 is a general mobile communication network. The mobile communication network 4 includes an MME (Mobility Management Entity) device, a maintenance monitoring device, and the like.

(5) Means of Implementing Each Function Unit of Base Station Device 1 The IF unit 11 can be implemented using an electronic circuit having a general transmission line interface function. The message branching unit 12, the base station control unit 13, and the data search unit 16 can be realized using an arithmetic processing device such as a CPU (Central Processing Unit) and a memory such as a RAM. The wireless communication unit 14 can be realized using a general RF (Radio Frequency) circuit, a DSP (Digital Signal Processor), a memory such as a RAM, and an electronic circuit. The electronic circuit of the wireless communication unit 14 is a circuit that connects a DSP that handles digital signals and an RF circuit that handles analog signals, and is realized using a general D / A conversion circuit and an A / D conversion circuit. be able to. D / A is an abbreviation for Digital to Analog, and A / D is an abbreviation for Analog to Digital.

  The antenna unit 15 can be realized using a general antenna. The audio converter 17 can be realized using a general reproduction player, an electronic volume IC (Integrated Circuit), a microcomputer, an amplifier, and a memory such as a RAM. The audio output unit 18 can be realized using a general omnidirectional speaker. The storage unit 19 can be realized using a memory such as a RAM. The volume control unit 20 can be realized using a general microcomputer.

[Description of operation]
FIG. 7 is a diagram for explaining an operation of the base station apparatus 1 provided in the mobile communication system according to the first embodiment of the present invention. The operation of the base station device 1 in the mobile communication system of the present embodiment will be described below with reference to FIG.

(1) Processing for Adjusting Transmission Power Value First, the base station control unit 13 of the base station apparatus 1 transmits the peripheral cells (specifically, the base station apparatus) at regular intervals, similarly to the base station of Patent Document 2. The description will be made on the assumption that the interference power from the second cell is measured and the transmission power value is adjusted based on the measured interference power.

  At that time, the base station control unit 13 of the base station apparatus 1 converts the adjusted transmission power value into an electric signal and outputs it to the data search unit 16 (see FIG. 6). It is assumed that the transmission power value extracted from the obtained electric signal is stored in the power value storage memory.

  Hereinafter, "converting to an electric signal and outputting" is referred to as "output", and "extracted from the input electric signal" is referred to as "input".

(2) Processing for Determining Whether or Not an Emergency Bulletin Message Here, it is assumed that the IF unit 11 of the base station device 1 has received a message addressed to the base station device 1 from the mobile communication network 4.

  When receiving the message addressed to the base station device 1, the IF unit 11 of the base station device 1 outputs the received message to the message branching unit 12.

  Next, as shown in FIG. 7, the message branching unit 12 determines whether or not the message input from the IF unit 11 is an emergency bulletin notification message, that is, a Write Replace Warning Request message (S1).

  More specifically, the message branching unit 12 extracts a Procedure Code value from the input message, and determines whether the extracted Code value is a value 36 indicating a Write Replace Warning Request message.

  Next, when the input message is an emergency bulletin notification message (Yes in S1), that is, when the Procedure Code value is 36, the message branching unit 12 converts the input emergency bulletin notification message into data. Output to the search unit 16 (S2).

  On the other hand, when the message branching unit 12 determines that the input message is not the emergency bulletin notification message (No in S1), the input message is processed according to 3GPP. That is, in the case of No in S1, the message branching unit 12 outputs the input message to the base station control unit 13 (S11), and the base station control unit 13 receives the input message in the same manner as a general base station. The message is processed according to the 3GPP regulations (S12). After S12, the base station device 1 enters a state of waiting for a message to be input.

  Here, the description will be continued assuming that the message branching unit 12 determines that the input message is the emergency bulletin notification message, and has performed S2. The emergency bulletin notification message output in S2 is input to the data search unit 16.

(3) Process of Acquiring Voice Data of Warning Sound Next, the data search unit 16 extracts a Message ID from the emergency bulletin notification message input from the message branching unit 12 (S3).

  The description will be continued assuming that the data search unit 16 extracts the Message ID of 0x1100 (the number indicating the earthquake warning message) by the process of S3.

  Next, the data search unit 16 searches the audio data table 190 with the extracted Message ID (0x1100) (S4), and determines whether the Message ID (0x1100) exists in the audio data table 190 (S5). ).

  When the extracted Message ID exists in the voice data table 190 (Yes in S5), the data search unit 16 stores the voice data of the alarm sound corresponding to the Message ID and the number of repetitions in the voice data table shown in FIG. 190 (S6).

  Here, the description is continued assuming that the data search unit 16 extracts the sound data of the alarm sound A and the number of repetitions 3. The sound data of the alarm sound A also includes a sound saying "An earthquake will occur."

  Next, although not shown, the data search unit 16 outputs the extracted voice data of the alarm sound A and the number of repetitions to the voice conversion unit 17 shown in FIG. The voice conversion unit 17 stores the input voice data of the alarm sound A and the number of repetitions in its own memory (hereinafter referred to as “voice storage memory”).

(4) Processing for Notifying Terminal 3 of Sound Data of Warning Sound as Sound As described in “(1) Processing for Adjusting Transmission Power Value”, the data search unit 16 stores the transmission power value in the power value storage memory. I remember. The transmission power value is a transmission power value of the base station device 1.

  As shown in FIG. 7, the data search unit 16 outputs the transmission power value stored in the power value storage memory to the volume adjustment unit 20 after the processing of S6 (after outputting the sound data of the alarm sound A or the like), as shown in FIG. (S7). This is for obtaining the volume value at which the warning sound reaches the cell boundary.

  The volume adjustment unit 20 extracts a volume value corresponding to the transmission power value input from the data search unit 16 from the volume data table 191 and outputs the extracted volume value to the voice conversion unit 17 (S8). The extracted volume value is a volume value at which the warning sound reaches the cell boundary.

  Next, when the sound volume value is input from the sound volume adjustment unit 20, the sound conversion unit 17 reproduces the sound data of the alarm sound A stored in the sound storage memory by a general reproduction player provided therein. Is output to the audio output unit 18 (S9). However, when outputting the audio signal to the audio output unit 18, the audio conversion unit 17 converts the amplitude of the audio signal into an amplitude corresponding to the volume value input from the volume adjustment unit 20 and then outputs the audio signal to the audio output unit 18. Output to This is for the purpose of emitting a sound having a volume reaching the cell boundary.

  To convert the amplitude of the audio signal, the audio conversion unit 17 may include an electronic volume IC (Integrated Circuit). The audio conversion unit 17 inputs the audio signal output from the playback player to the electronic volume IC, and the electronic volume IC converts the amplitude of the input audio signal into an amplitude corresponding to the volume value input from the volume adjustment unit 20. And output. The audio converter 17 outputs an audio signal output from the electronic volume IC to the audio output unit 18.

  Next, although not shown, the audio output unit 18 (speaker) converts the audio signal (alarm sound A) input from the audio conversion unit 17 into a sound wave, and outputs the alarm sound A at a volume reaching the cell boundary. send.

  Here, in addition to the warning sound A, the voice data also includes a voice that "an earthquake will occur".

  Therefore, the voice conversion unit 17 also reproduces a voice portion “earthquake occurs” and outputs a voice signal of the voice portion to the voice output unit 18 (S10). The audio output unit 18 (speaker) converts an input audio signal into a sound wave and emits the sound wave.

  Note that the voice conversion unit 17 may repeatedly perform the processing of S9 and S10 for the number of repetitions (three times) stored in the voice storage memory.

  By the processing of S1 to S10 described above, the emergency bulletin (earthquake occurrence) reaches the terminal 3 in the cell as a warning sound. As a result, even when the user of the terminal 3 has turned off the power of the terminal 3 at a hospital or the like, it is possible to recognize the emergency bulletin (earthquake occurrence).

(5) Processing of No in S5 Determination In the processing of S5 described above, when the extracted Message ID does not exist in the voice data table 190 (in the case of No in S5), the data search unit 16 outputs the input message. Is discarded (S13). This is because the message cannot be handled. After S13, the base station device 1 waits for the next message to be input.

(6) Modification The base station device 1 may include a function unit (hereinafter, referred to as a “data registration unit”) that registers the voice data table 190 and the volume data table 191 in the storage unit 19. FIG. 8 is a diagram illustrating another configuration example (modification example) of the base station device 1. The base station device 1 includes a data registration unit 21 as shown in FIG.

  The data registration unit 21 registers the voice data table 190 and the volume data table 191 notified from the maintenance monitoring device of the mobile communication network 4 in the storage unit 19 by performing the following operation. FIG. 9 is a diagram for explaining a registration operation of the base station device 1.

  First, it is assumed that the maintenance monitoring device has transmitted the voice data table 190 and the volume data table 191 to the base station device 1 as messages. The transmitted message (hereinafter, referred to as a “table registration request message”) includes a Procedure Code value (for example, value 48) for requesting table registration.

  The table registration request message is input to the message branching unit 12 of the base station device 1 via the IF unit 11.

  When the table registration request message is input, the message branching unit 12 of the base station device 1 determines whether the input message is a table registration request message as shown in FIG. 9 (S100).

  Specifically, the message branching unit 12 of the base station device 1 extracts a Procedure Code value from the input message, and the extracted Code value is a value indicating a table registration request message (hereinafter, referred to as a “registered value”). It is determined whether or not there is.

  If the input message is a table registration request message (Yes in S100), that is, if the Procedure Code value is a registration value, the message branching unit 12 outputs the table registration request message to the data registration unit 21. (S101).

The data registration unit 21 extracts the audio data table 190 and the volume data table 191 from the table registration request message input from the message branching unit 12 (S102).
Next, the data registration unit 21 sets the extracted audio data table 190 and volume data table 191 in the storage unit 19 (S103).

  If the input message is not the table registration request message in the determination in S100 described above (No in S100), the message branching unit 12 performs the processing in S1 to S13 described above (S1 to S12).

  The above-described maintenance monitoring device may be a general APMS (Access Point Management System) server.

  As described above, the case where the mobile communication system according to the first embodiment includes one terminal has been described, but the number of terminals is not limited to one. The mobile communication system according to the first embodiment may include a plurality of terminals in addition to the terminal 3. Further, the number of base station devices is not limited to two. The mobile communication system according to the first embodiment may include one or three or more base station devices.

[Explanation of effects]
According to the present embodiment, in the mobile communication system, the user of the terminal 3 can recognize the emergency bulletin regardless of the state of the terminal 3.

  This is because the base station device 1 of the mobile communication system according to the present embodiment emits a warning sound indicating the notification of the emergency bulletin when the received message is the emergency bulletin notification message. The user of the terminal can recognize the emergency bulletin by sound without going through the terminal. As a result, the user of the terminal can recognize the emergency bulletin regardless of the state of the terminal even if the power is off.

<< 2nd Embodiment >>
Next, a second embodiment of the present invention will be described.

  The base station of the mobile communication system according to the present embodiment is a base station that confirms the presence of a neighboring base station and, when there is no neighboring base station, emits a warning sound at a volume that reaches the cell of the neighboring base station. The base station of the mobile communication system according to the present embodiment can make a user of a terminal located in a cell of a neighboring base station recognize an emergency bulletin when the neighboring base station collapses due to a large-scale earthquake. The emergency bulletin is, for example, an emergency bulletin indicating the occurrence of a tsunami.

  Hereinafter, the configuration and operation of the mobile communication system according to the second embodiment will be described.

[Description of configuration]
FIG. 10 is a diagram illustrating a configuration example of a mobile communication system according to the second embodiment of the present invention. FIG. 11 is a diagram illustrating a configuration example of a base station device provided in a mobile communication system according to the second embodiment of the present invention. FIG. 12 is a diagram illustrating an example of a volume data table set in the base station device.

(1) Configuration of Mobile Communication System of Second Embodiment The mobile communication system of the second embodiment includes a base station device 5 instead of the base station device 1 as shown in FIG. The base station device 2 is a neighboring base station existing around the base station device 5. The base station device 2 is hereinafter referred to as “neighboring base station device 2”.

  As shown in FIG. 11, the base station device 5 includes a base station control unit 23, a data search unit 26, and a volume control unit 30 instead of the base station control unit 13, the data search unit 16, and the volume control unit 20. Is provided. Further, the base station device 5 is newly provided with a voice output unit 28.

(2) Volume Data Table In the storage unit 19, a volume data table 291 is set instead of the volume data table 191. As shown in FIG. 12, in the volume data table 291, the transmission power value is associated with a value indicating whether or not the neighboring base station device 2 exists (hereinafter, referred to as “neighboring base station information value”). I have. Each of the neighboring base station information values in the volume data table 291 is initially a value indicating that the neighboring base station device 2 does not exist by the administrator of the mobile communication system of the present embodiment (hereinafter, referred to as “Absense value”). Is set. The Absense value may be any value. Hereinafter, the Absense value is assumed to be 0.

  The neighboring base station information value will be described later in [Description of Operation]. be changed. The Presence value may be any value as long as it is different from the Absence value. In the following, the Presence value is assumed to be the value 2.

(3) Newly Provided Audio Output Unit 28 The audio output unit 28 is a general directional speaker. The audio output unit 28 is installed in the base station device 5 toward the neighboring base station device 2 by the manufacturer of the base station device 5.

  The manufacturer of the base station apparatus 5 checks with the administrator of the mobile communication system of the present embodiment which side of the side of the base station apparatus 5 faces the neighboring base station apparatus 2 and outputs the voice to the confirmed side. The output unit 28 is provided.

  Configurations other than those described above are the same as those of the mobile communication system according to the first embodiment.

[Description of operation]
FIG. 13 and FIG. 14 are diagrams for explaining the operation of the base station device 5.

(1) General Cell Search Operation First, it is assumed that the base station control unit 23 of the base station device 5 adjusts the transmission power as in the base station of Patent Document 2. At this time, the base station control unit 23 of the base station apparatus 1 performs a general cell search at regular intervals, similarly to the base station of Patent Document 2, and performs a cell ID (Identifier) of a cell of the neighboring base station apparatus 2. ) To get. The cell ID is an identifier repeatedly transmitted from the neighboring base station device 2, and may be a PCI (Physical Cell Identity) defined in 3GPP.

  The base station control unit 23 of the base station device 1 outputs the adjusted transmission power value and the acquired cell ID to the data search unit 26 as peripheral cell information.

(2) Processing for reflecting the presence of a nearby base station in the volume data table (when there is a nearby base station device 2)
When the neighboring cell information is input, as shown in FIG. 13, the data search unit 26 extracts the cell ID included in the input neighboring cell information (S20), and determines that the extracted cell ID is a neighboring base station. It is determined whether or not the cell ID of the cell of the device 2 is (S21).

  In the determination in S21, it is determined whether or not the neighboring base station device 2 exists. The cell ID of the cell of the neighboring base station device 2 is preset in the data search unit 26 by the administrator of the mobile communication system of the present embodiment.

  If the extracted cell ID is the cell ID of the cell of the neighboring base station device 2 (Yes in S21), that is, if the neighboring base station device 2 exists, the data search unit 26 The included transmission power value is extracted (S22).

  Next, the data search unit 26 rewrites the neighboring base station information value corresponding to the extracted transmission power value to the Presence value 2 in the volume data table 291 (S23). Further, the data search unit 26 rewrites the neighboring base station information value other than the neighboring base station information value corresponding to the extracted transmission power value to the Absense value 0 in the volume data table 291. This is so that the transmission power value when the neighboring base station device 2 exists can be determined.

(3) Processing when an emergency bulletin is notified (when a nearby base station apparatus 2 exists)
After that, it is assumed that a large-scale earthquake occurs, and an emergency alert message (earthquake warning message) is also notified to the base station device 5.

  When the emergency bulletin message is notified, as shown in FIG. 14, each functional unit of the base station device 5 performs the above-described processing of S1 to S6 and extracts voice data of a warning sound and the like.

  After the processing in S6, the data search unit 26 searches for a neighboring base station information value in the volume data table 291 (S30), and determines whether there is a neighboring base station information value of the Presence value 2 in the volume data table 291. It is determined whether or not it is (S31).

  The above-mentioned determination in S31 is for determining whether or not the neighboring base station device 2 exists.

  Next, when there is a neighboring base station information value of the Presence value 2 (Yes in S31), that is, when there is a neighboring base station device 2, the data search unit 26 performs the following processing of S32. Do.

  The data search unit 26 extracts a transmission power value corresponding to the neighboring base station information value of the Presence value 2 from the audio data table, and outputs the extracted transmission power value to the volume adjustment unit 30 (S32). The data search unit 26 performs S32 instead of S7.

  Next, when the transmission power value is input, the voice conversion unit 17 of the base station device 5 performs the above-described S8 to S10. As a result, a warning sound corresponding to the emergency bulletin (earthquake warning) message is emitted in the cell of the base station device 5.

(4) Processing to reflect that there is no neighboring base station in the volume data table (when the neighboring base station device 2 no longer exists)
After that, it is assumed that the neighboring base station device 2 collapses due to a large-scale earthquake and its function is down. At that time, the cell of the neighboring base station device 2 disappears, and the base station control unit 23 of the base station device 5 performs a general cell search, but cannot acquire the cell ID of the cell of the neighboring base station device 2. In that case, the base station control unit 23 outputs the transmission power value and the dummy cell ID to the data search unit 26 as peripheral cell information. The dummy cell ID is preset in the base station control unit 23 by the administrator of the mobile communication system of the present embodiment. The dummy cell ID is a value other than the cell ID of the cells of the base station devices 2 and 5.

  When the neighboring cell information is input, as shown in FIG. 13, the data search unit 26 extracts the cell ID included in the input neighboring cell information (S20), and determines that the extracted cell ID is a neighboring base station. It is determined whether or not the cell ID is the cell ID of the cell of the device 2 (S21).

  If the extracted cell ID is not the cell ID of the cell of the neighboring base station device 2 (No in S21), that is, if the neighboring base station device 2 does not exist, the data search unit 26 The base station information value is rewritten (S24). Specifically, the data search unit 26 rewrites all neighboring base station information values in the volume data table 291 to Absence value 0.

(5) Processing when emergency bulletin is notified (when neighboring base station apparatus 2 does not exist)
Thereafter, it is assumed that a tsunami has occurred and an emergency alert message (tsunami warning message) has been notified to the base station device 5.

  When the emergency bulletin message is notified, each functional unit of the base station device 5 performs the above-described processing of S1 to S6 as shown in FIG. By the processing of S6, the data search unit 26 of the base station device 5 extracts the sound data of the alarm sound B including the message “Tsunami occurs” and the number of repetitions (five times) from the sound data table 190. The voice conversion unit 17 stores the voice data of the extracted alarm sound B and the number of repetitions 5 in the voice storage memory.

  Next, the data search unit 26 searches for a neighboring base station information value in the volume data table 291 (S30), and determines whether or not a neighboring base station information value of a Presence value 2 exists in the volume data table. (S31).

  The above-mentioned determination in S31 is for determining whether or not the neighboring base station device 2 exists. Here, there is no neighboring base station information value of Presense value 2 in the volume data table 291.

  Next, in the determination of S31, if there is no neighboring base station information value of the Presence value 2 (No in S31), the data search unit 26 performs the process of S32. As a result, the base station device 5 performs steps S8 to S10, and first, an alarm sound B is emitted from the audio output unit 18 (omnidirectional speaker) in the cell of the base station device 5.

  Next, the base station device 5 performs the following processes of S33 to S36, and emits an alarm sound B also to the cell of the neighboring base station device 2.

  Here, after S32, although not shown, the data search unit 26 waits for a predetermined time to elapse. This is to wait until the processing of S8 to S10 is completed.

  The above-mentioned predetermined time is a time (hereinafter, referred to as “transmission completion time”) after the execution of S32 until the execution of S8 to S10 is completed, and is set in the data search unit 26 by the manufacturer of the base station device 5. . The manufacturer of the base station apparatus 5 actually measures the transmission completion time at the time of development, and sets the measured transmission completion time in the data search unit 26 as a predetermined time.

  After a lapse of a predetermined time, that is, when the process of S10 is completed, the data search unit 26 outputs a signal indicating that there is no neighboring base station to the volume adjustment unit 30 and the voice conversion unit 27, as shown in FIG. 14 (S33). ).

  Next, when the signal indicating that there is no nearby base station is input from the data search unit 26 in S33, the volume adjustment unit 30 outputs the maximum volume value to the voice conversion unit 17 (S34). The maximum volume value is a value set in the volume adjustment unit 30 by the administrator of the base station device 5, and is a volume value that reaches a cell of the neighboring base station device 2.

  Next, when the maximum sound volume value is input from the sound volume adjustment unit 30, the sound conversion unit 17 reproduces the sound data of the alarm sound B stored in the sound storage memory by a reproduction player provided therein, and outputs the sound data from the reproduction player. The output audio signal is output to the audio output unit 28 (S35).

  When outputting the audio signal to the audio output unit 28, the audio conversion unit 17 converts the amplitude of the audio signal into an amplitude corresponding to the input maximum volume value by the electronic volume IC, and then outputs the audio signal. Output to the unit 28. The audio output unit 28 converts the audio signal (alarm sound B) input from the audio converter 17 into a sound wave, and emits the alarm sound B at the maximum volume reaching the cell of the adjacent base station device 2. The audio output unit 28 is a directional speaker installed toward the adjacent base station device 2, and emits an alarm sound B to a cell of the adjacent base station device 2.

  Here, in addition to the warning sound B, the voice data also includes a voice saying “tsunami will occur”.

  For this reason, the voice converter 17 also reproduces the voice part “Tsunami will occur” and outputs the voice signal of this part to the voice output unit 28 (S36). The audio output unit 28 converts the input audio signal into a sound wave and emits the sound wave.

  As a result of performing the above-described steps S33 to S36, the base station device 5 can also emit a warning sound B and a sound indicating that a tsunami will occur to a terminal located in a cell of the neighboring base station device 2. The voice conversion unit 17 may repeatedly execute the processing of S35 to S36 for the number of repetitions (5 times) stored in the voice storage memory.

  Other operations are the same as the operations of the first embodiment, and thus detailed description is omitted.

(6) Operation of Emitting Warning Sound to Peripheral Cell In the above description, the base station device 5 emits the alarm sound B to the cell of the adjacent base station device 2, but other base cells (hereinafter, “peripheral cell”) ) May be emitted to those cells. When emitting the warning sound B to each neighboring cell, the base station device 5 newly includes the following configuration.

  First, the base station device 5 includes an audio output unit 28 (directional speaker) for the peripheral cells. Each audio output 28 (directional speaker) is directed to a corresponding peripheral cell. Further, in the storage unit 19 of the base station device 5, a sound volume data table 291 for peripheral cells is set. In the volume data table 291, cell IDs of peripheral cells are set so as to identify which cell table.

  When the warning sound B is emitted to each peripheral cell, the base station device 5 performs the following processing.

(6-1) Reflection Process of Presence or Absence of Neighboring Cell First, when the peripheral cell information is input, the base station device 5 performs a process of reflecting the presence or absence of a peripheral cell in each volume data table 291.

  Specifically, when the neighboring cell information is input, the data search unit 26 of the base station device 5 performs the process of S20 shown in FIG. 13 and extracts the cell ID of the neighboring cell included in the neighboring cell information. Further, the data search unit 26 of the base station device 5 performs the following processes (i) to (iv) for each cell ID of the peripheral cell extracted in S20.

  (I) As in S21, the data search unit 26 of the base station device 5 determines whether the cell ID extracted in S20 is a cell ID of a neighboring cell. All the cell IDs of the neighboring cells are preset in the data search unit 26 by the administrator of the mobile communication system of the present embodiment.

  (Ii) Next, when the cell ID extracted in S20 is the cell ID of the neighboring cell (that is, when there is a neighboring cell), the data search unit 26 of the base station device 5 performs the processing of S22, The transmission power value included in the cell information is extracted.

  (Iii) Next, as in S23, the data search unit 26 of the base station device 5 determines in the volume data table 291 in which the cell ID extracted in S20 is set, the neighborhood corresponding to the transmission power value extracted in (ii). The base station information value is rewritten to the presence value 2. At this time, the data search unit 26 rewrites all neighbor base station information values other than the neighbor base station information value corresponding to the transmission power value extracted in (ii) to the Absense value 0.

  (Iv) If the cell ID extracted in S20 is not a cell ID of a neighboring cell (that is, if there is no neighboring cell), the data search unit 26 of the base station device 5 extracts the data in S20 as in S24. The volume data table 291 in which the cell ID is set is rewritten. Specifically, the data search unit 26 rewrites all the neighboring base station information values in the volume data table 291 in which the cell ID extracted in S20 is set to Absence value 0.

  By performing the above-described processes (i) to (iv), the base station device 5 reflects the presence or absence of the neighboring cells (Presence value and Absense value) in each volume data table 291.

(6-2) Processing for Emitting Warning Sound B to Each Peripheral Cell Next, when a message is input, the base station device 5 performs processing for issuing a warning sound B to each peripheral cell.

  Specifically, when a message is input, the base station apparatus 5 performs the processing of S1 to S6 shown in FIG. 14 and further performs the following (I) for each volume data table 291 set in the storage unit 19. To (V).

  (I) First, the base station device 5 performs the processing of S30 and S31.

  (II) If Yes in S31 (if there is a base station in a neighboring cell), the base station device 5 performs S32 and S8 to S10.

  (III) In the case of No in S31 (when there is no base station in the neighboring cell), the base station device 5 performs S32, S8 to S10, and S33. However, in S33, the data search unit 26 of the base station device 5 outputs the cell ID included in the volume data table 291 in a signal indicating that there is no neighboring base station.

  (IV) After (III), the base station device 5 performs S34. However, in S34, the volume adjustment unit 30 of the base station device 5 extracts the cell ID included in the input signal indicating that there is no neighboring base station, and extracts the extracted cell ID and the maximum volume value corresponding to the cell ID. And are output. The cell ID and the maximum volume value reaching the neighboring cells of the cell ID are preset in the volume adjustment unit 30 by the manufacturer of the base station device 5. The manufacturer of the base station apparatus 5 checks in advance the boundary of the peripheral cell indicated by the cell ID (the boundary farthest from the base station apparatus 1) with an area tester, and a maximum volume value at which a warning sound reaches a person arranged at the boundary. May be obtained by actual measurement.

  (V) After (IV), the base station device 5 performs S35 and S36. However, in S35 and S36, the voice conversion unit 17 of the base station device 5 extracts the cell ID from the input signal and outputs a voice signal to the voice output unit 28 corresponding to the extracted cell ID.

  The process (V) described above may be specifically the following process.

  First, the audio conversion unit 17 includes a connection port to which (the signal line between) the audio output unit 28 is connected. The voice converter 17 has a plurality of connection ports for connecting to the plurality of voice output units 28. In the audio conversion unit 17, the cell ID is associated with a port number indicating a connection port to which the (signal line between) the audio output unit 28 directed to the cell of the cell ID is connected. The connection table is preset by the manufacturer of the base station device 5. The voice conversion unit 17 of the base station device 5 extracts the port number corresponding to the cell ID extracted in S36 from the connection table, and outputs a voice signal to the connection port indicated by the extracted port number.

  The base station device 5 performs the above-described processes (I) to (V) for each of the volume data tables 291 to emit a warning sound B to each of the neighboring cells that are no longer present due to the collapse of the base station or the like. be able to.

(7) When a warning is issued by light The base station device 5 may issue a warning not only by sound but also by light. Therefore, the base station device 5 may include two search lights. One searchlight (hereinafter, referred to as “searchlight A”) is mounted on a rotating gantry rotated by a motor, and another searchlight (hereinafter, referred to as “searchlight B”) is connected to a neighboring base station. It is fixedly installed toward the cell of the device 2.

  The base station device 5 may turn on the search light A after the process of S10 and drive the motor to rotate the search light A. The light of the searchlight A is light of such intensity that a person at the cell boundary of the base station device 5 can confirm the light. The user of the terminal located in the cell of the base station device 5 emits the light of the rotating searchlight A. By confirming, a warning can be recognized. Further, the base station device 5 may turn on the search light B after the processing of S36. The light of the searchlight B is light of such intensity that a person at the cell boundary of the neighboring base station device 2 (the cell boundary farthest from the base station device 5) can confirm, and is located in the cell of the neighboring base station device 2. The user of the terminal can recognize the warning by the light of the search light B.

[Explanation of effects]
According to the present embodiment, in addition to the effects of the first embodiment, the base station of the mobile communication system, when the neighboring base station collapses due to a large-scale earthquake and no longer exists, the cell of the neighboring base station The user of the terminal located in the area can also recognize the emergency bulletin. Because, when the base station of the mobile communication system of the present embodiment cannot acquire the cell ID from the neighboring base station, the base station emits a warning sound indicating the notification of the emergency bulletin at a volume reaching the cell of the neighboring base station. It is.

<< 3rd Embodiment >>
FIG. 15 is a diagram illustrating a configuration example of a base station according to the third embodiment of the present invention. Hereinafter, the configuration and operation of the base station according to the third embodiment will be described.

[Description of configuration]
(1) Configuration of Base Station of Third Embodiment The base station 100 of the third embodiment is a base station having cells, as shown in FIG. The terminal 200 is located in the cell of the base station 100.

  The base station 100 includes a determination unit 110 and a warning unit 120.

(2) The function determination unit 110 of each part of the base station 100 determines whether the received message is an emergency bulletin notification message.

  When the determination unit 110 determines that the received message is an emergency bulletin notification message, the warning unit 120 emits a predetermined warning sound indicating a notification of the emergency bulletin at a predetermined volume reaching the terminal 200 in the cell.

  The determination unit 110 is a functional unit corresponding to the message branching unit 12 in the base station device 1 according to the first embodiment. The warning unit 120 is a functional unit corresponding to the data search unit 16, the voice conversion unit 17, the voice output unit 18, and the volume adjustment unit 20 in the base station device 1 of the first embodiment.

  Hereinafter, an operation of the base station according to the third embodiment will be described.

[Description of operation]
First, it is assumed that the power of the terminal 200 is turned off. Since the power of the terminal 200 is turned off, the user of the terminal 200 cannot know the emergency earthquake bulletin.

  At that time, it is assumed that a large-scale earthquake has occurred and an emergency alert notification message has been notified to the base station 100.

  The determining unit 110 of the base station 100 determines whether the received message is an emergency bulletin notification message.

  When the determination unit 110 determines that the received message is an emergency bulletin notification message, the warning unit 120 emits a predetermined warning sound indicating a notification of the emergency bulletin at a predetermined volume reaching the terminal 200 in the cell.

  The user of the terminal 200 can recognize the emergency bulletin.

[Explanation of effects]
According to the present embodiment, the user of the terminal 200 can recognize the emergency bulletin regardless of the state of the terminal 200.

  This is because the base station 100 of the present embodiment emits a warning sound indicating a notification of an emergency bulletin when the received message is an emergency bulletin notification message. The user of the terminal 200 can recognize the emergency bulletin by sound without using the terminal 200. As a result, the user of the terminal 200 can recognize the emergency bulletin irrespective of the state of the terminal 200 even when the power is off.

  The above-described embodiment is not limited to the embodiment, and various changes can be made in the implementation stage without departing from the scope of the invention.

Furthermore, some or all of the above embodiments may be described as in the following supplementary notes, but are not limited thereto.
(Appendix 1)
A base station having a cell,
A determining unit that determines whether the received message is an emergency bulletin notification message,
When the determination unit is determined that the received message is the emergency bulletin notification message, a warning sound indicating a notification of the emergency bulletin, a warning unit that emits at a predetermined volume reaching a terminal in the cell,
A base station comprising:
(Appendix 2)
A base station comprising an adjusting unit for adjusting a transmission power value,
The storage unit that stores a table in which the transmission power value and a volume value at which a sound reaches a boundary of the cell formed by the radio wave of the transmission power value are associated with each other,
The warning unit, when the determination unit determines that the received message is the emergency information notification message, extracts from the table a volume value corresponding to the transmission power value adjusted by the adjustment unit, Emit the warning sound at the volume indicated by the extracted volume value,
2. The base station according to claim 1, wherein
(Appendix 3)
When the received message is determined by the determination unit is the emergency bulletin notification message, comprising a data search unit to determine whether there is a predetermined adjacent base station,
The warning unit, when it is determined by the data search unit that the adjacent base station does not exist, emits the warning sound at a predetermined volume that reaches the cells of the adjacent base station,
3. The base station according to any one of supplementary notes 1 and 2, wherein:
(Appendix 4)
The warning unit, when it is determined that the adjacent base station is present by the data search unit, emits the warning sound at a predetermined volume reaching the terminal in its own cell,
4. The base station according to claim 3, wherein:
(Appendix 5)
Along with the warning sound, emit a predetermined warning light indicating a notification of an emergency bulletin,
The base station according to any one of supplementary notes 1 to 4, wherein:
(Appendix 6)
The emergency bulletin notification message is a Write Replace Warning Request message defined in 3GPP (3rd Generation Partnership Project),
The determining unit determines whether or not the Procedure Code value included in the received message is a value of 36.
6. The base station according to any one of supplementary notes 1 to 5, wherein:
(Appendix 7)
A method of a base station having a cell,
A determining step of determining whether the received message is an emergency bulletin notification message,
When the received message is determined to be the emergency alert notification message in the determination step, a warning sound indicating a notification of the emergency alert, a warning step of emitting at a predetermined volume reaching a terminal in the cell,
Notification method characterized by having:
(Appendix 8)
The method of the base station comprising an adjusting unit for adjusting a transmission power value,
When it is determined in the determination step that the received message is an emergency bulletin notification message, in the warning step, a volume value corresponding to the transmission power value adjusted by the adjustment unit, the transmission power value, A volume value at which a sound reaches the boundary of the cell formed by the radio wave of the transmission power value is extracted from a table associated with the volume value, and the warning sound is emitted at the volume indicated by the extracted volume value.
7. The notification method according to supplementary note 7, wherein
(Appendix 9)
When the received message is determined to be an emergency bulletin notification message in the determining step, comprising a search step to determine whether there is a predetermined adjacent base station,
When it is determined in the search step that the adjacent base station does not exist, in the warning step, the warning sound is emitted at a predetermined volume reaching the cell of the adjacent base station,
9. The notification method according to any one of supplementary notes 7 to 8, wherein
(Appendix 10)
When it is determined in the search step that the adjacent base station is present, in the warning step, the warning sound is emitted at a predetermined volume reaching the terminal in the own cell,
9. The notification method according to supplementary note 9, wherein
(Appendix 11)
Along with the warning sound, emit a predetermined warning light indicating a notification of an emergency bulletin,
11. The notification method according to any one of supplementary notes 7 to 10, wherein:
(Appendix 12)
The emergency bulletin notification message is a Write Replace Warning Request message defined in 3GPP (3rd Generation Partnership Project),
In the determining step, it is determined whether or not the Procedure Code value included in the received message is a value of 36.
12. The notification method according to any one of supplementary notes 7 to 11, wherein:

1, 2, 5 Base station device 3, 200 Terminal 4 Mobile communication network 90 MME
Reference Signs List 11 IF (Interface) unit 12 Message branching unit 13, 23 Base station control unit 14 Wireless communication unit 15 Antenna unit 16, 26 Data search unit 17 Audio conversion unit 18, 28 Audio output unit 19 Storage unit 20, 30 Volume adjustment unit 21 Data registration unit 95, 100 Base station 110 Discrimination unit 120 Warning unit 190 Voice data table 191, 291 Volume data table

Claims (8)

A base station having a cell and comprising an adjusting unit for adjusting a transmission power value,
A determining unit that determines whether or not the received message is an emergency bulletin notification message; and a determination unit that indicates a notification of the emergency bulletin when the determination unit determines that the received message is the emergency bulletin notification message. A warning unit that emits a warning sound at a predetermined volume that reaches a terminal in the cell,
The storage unit that stores a table in which the transmission power value and a volume value at which a sound reaches a boundary of the cell formed by the radio wave of the transmission power value are associated with each other,
The warning unit, when the determination unit determines that the received message is the emergency bulletin notification message, extracts a volume value corresponding to the transmission power value adjusted by the adjustment unit from the table, Emit the warning sound at the volume indicated by the extracted volume value,
Base station you wherein a. When the received message is determined by the determination unit is the emergency bulletin notification message, comprising a data search unit to determine whether there is a predetermined adjacent base station,
The warning unit, when it is determined by the data search unit that the adjacent base station does not exist, emits the warning sound at a predetermined volume that reaches the cells of the adjacent base station,
The base station according to claim 1 , wherein: The warning unit, when it is determined that the adjacent base station is present by the data search unit, emits the warning sound at a predetermined volume reaching the terminal in its own cell,
The base station according to claim 2 , wherein: Along with the warning sound, emit a predetermined warning light indicating a notification of an emergency bulletin,
The base station according to any one of claims 1 to 3 , wherein: The emergency bulletin notification message is a Write Replace Warning Request message defined in 3GPP (3rd Generation Partnership Project),
The determining unit determines whether or not the Procedure Code value included in the received message is a value of 36.
The base station according to any one of claims 1 to 4 , wherein: The method of the base station, comprising a cell, comprising an adjusting means for adjusting the transmission power value,
A determining step of determining whether the received message is an emergency bulletin notification message,
When the received message is determined to be the emergency alert notification message in the determination step, a warning sound indicating a notification of the emergency alert, a warning step of emitting at a predetermined volume reaching a terminal in the cell, Has,
When it is determined in the determination step that the received message is an emergency bulletin notification message, in the warning step, a volume value corresponding to the transmission power value adjusted by the adjustment unit, the transmission power value, A volume value at which a sound reaches the boundary of the cell formed by the radio wave of the transmission power value is extracted from a table associated with the volume value, and the warning sound is emitted at the volume indicated by the extracted volume value.
Notice how to, characterized in that. When the received message is determined to be an emergency bulletin notification message in the determining step, comprising a search step to determine whether there is a predetermined adjacent base station,
When it is determined in the search step that the adjacent base station does not exist, in the warning step, the warning sound is emitted at a predetermined volume reaching the cell of the adjacent base station,
7. The notification method according to claim 6 , wherein: Along with the warning sound, emit a predetermined warning light indicating a notification of an emergency bulletin,
The notification method according to claim 6, wherein:

Images