JP2018137598A - Automatic broadcast device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic broadcast device capable of updating the data for automatic broadcast efficiently, while improving reliability at the time of data update.SOLUTION: An automatic broadcast device includes a storage unit 32 storing the data for automatic broadcast, a data acquisition unit (data communication unit 33) acquiring update data for updating the data for automatic broadcast, stored in the storage unit 32, via radiocommunication, and a control unit 31 for updating the data for automatic broadcast, stored in the storage unit 32, on the basis of the update data acquired by the data acquisition unit. The storage unit 32 has a rewritable area for storing the data requiring rewrite, and a rewrite unnecessary area for storing the data not requiring rewrite, out of the data for automatic broadcast. The data acquisition unit acquires the update data stored already in the rewritable area.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an automatic broadcast apparatus.

2. Description of the Related Art Conventionally, a railway vehicle is known that is equipped with an automatic broadcast device that automatically broadcasts guidance broadcasts such as departure from a station, arrival, door opening side, and transfer (for example, see Patent Document 1). .
An automatic broadcast apparatus mounted in a vehicle holds automatic broadcast data in a recording medium provided therein.

JP 2007-216709 A

  However, when trying to change the content of the automatic broadcast data held in the recording medium inside the automatic broadcasting device, the recording medium currently attached to the vehicle is manually changed from the recording medium holding new data. Since it is necessary to exchange, there is a problem that the efficiency is low and human exchange mistakes are induced.

  An object of the present invention is to provide an automatic broadcast apparatus that can efficiently update data of automatic broadcast data and can improve reliability at the time of data update.

In order to achieve the above object, the present invention provides:
In an automatic broadcasting device that is installed on a railway vehicle and automatically broadcasts various guidance broadcasts,
A storage unit for storing automatic broadcast data for automatically broadcasting the various guidance broadcasts;
A data acquisition unit for acquiring change data for changing the automatic broadcast data stored in the storage unit via wireless communication;
Based on the change data acquired by the data acquisition unit, a control unit for changing the automatic broadcast data stored in the storage unit,
With
The storage unit
Of the automatic broadcast data, a rewritable area for storing data that needs to be rewritten,
Of the automatic broadcast data, a rewrite unnecessary area for storing data that does not need to be rewritten,
Have
The data acquisition unit is configured to acquire the change data including data already stored in the rewritable area.

  According to the automatic broadcast apparatus having such a configuration, only the data that needs to be rewritten may be included in the change data of the automatic broadcast data. Accordingly, the time required for data communication and the time required for data rewriting can be reduced. Therefore, the data for automatic broadcast data can be updated efficiently, and the reliability at the time of data update can be improved. Moreover, even if any data is stored in the rewritable area, it can be surely updated to the latest automatic broadcast data. Therefore, the reliability at the time of data update can be improved.

Here, preferably,
In the rewritable area, the storage unit stores the data that needs to be rewritten in units of block data.
According to such a configuration, the size of one file stored in the storage unit can be reduced. Therefore, the amount of data rewriting and the rewriting time can be minimized. Therefore, data can be rewritten efficiently in a short time, and unnecessary rewriting of data can be suppressed to improve the reliability at the time of data rewriting.

Also, preferably
When the control unit determines that a predetermined prohibition condition is satisfied, the control unit prohibits acquisition of the change data by the data acquisition unit. Here, the predetermined prohibition condition is a condition in which when the changed data is acquired and the data loading is started, the current data is rewritten or damaged, thereby causing an adverse effect during automatic broadcasting. .
With this configuration, it is possible to prevent rewriting or damage of current data. Therefore, since automatic broadcasting can be performed appropriately, the reliability of automatic broadcasting can be ensured.

In particular, preferably
When it is determined that the crown symbol included in the train number information of the railway vehicle indicates “in operation” or “trial operation”, the control unit prohibits the data acquisition unit from acquiring the change data.
According to such a configuration, since loading can be prohibited during business, it is possible to prevent provision of erroneous automatic broadcasts. In addition, since loading during the trial run can be prohibited, it is possible to reliably confirm the content of the automatic broadcast during the trial run, and an appropriate automatic broadcast can be provided.

Also, preferably
After acquiring the change data by the data acquisition unit, the control unit changes the data for automatic broadcast stored in the storage unit at the next power-on.
According to such a configuration, the data for automatic broadcasting can be changed at a timing after the possibility of performing automatic broadcasting with the data before the change disappears. Therefore, since the inappropriate automatic broadcast is not provided, the reliability of the automatic broadcast can be ensured.

  According to the present invention, it is possible to efficiently update data for automatic broadcast data and improve the reliability at the time of data update.

It is a block diagram which shows the main control structure of each apparatus which comprises the automatic broadcast system which concerns on embodiment of this invention. It is a flowchart which shows an example of operation | movement of the automatic broadcast system which concerns on embodiment of this invention. It is a figure which shows an example of the data structure of the data for conventional automatic broadcasting. It is a figure which shows an example of the data structure of the data for automatic broadcasts of this invention. It is a figure which shows an example of the data structure of the loading data of this invention.

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

[1. Description of configuration]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[1-1. Explanation of system configuration]
First, the configuration of the automatic broadcast system 100 according to the embodiment of the present invention will be described.
As shown in FIG. 1, the automatic broadcast system 100 according to the embodiment of the present invention includes a ground server 1, an on-board information device 2, and an automatic broadcast device 3. The ground server 1 is a ground facility, and the on-vehicle information device 2 and the automatic broadcast device 3 are facilities on the railway vehicle C (on-vehicle facility). The ground server 1 and the on-board information device 2 perform wireless communication. The on-board information device 2 and the automatic broadcast device 3 transmit and receive data via a LAN (Local Area Network) or the like.

  The ground server 1 is an information device such as a PC or WS (Work Station) owned by a company that operates the railway vehicle C. The ground server 1 accepts registration of change data for changing the automatic broadcast data. And the ground server 1 transmits the change data of the registered data for automatic broadcasting to the on-board information device 2 by wireless communication. The ground server 1 is configured by one unit, but is not limited thereto, and may be configured by a plurality of devices.

  The on-board information device 2 is an information device such as a PC or WS installed at a predetermined position on the railway vehicle C. The on-board information device 2 transmits the change data of the automatic broadcast data transmitted from the ground server 1 to the automatic broadcast device 3 via a LAN (Local Area Network) or the like. The on-board information device 2 is configured by one unit, but is not limited to this, and may be configured by a plurality of units.

  The automatic broadcast device 3 is an information device installed at a predetermined position on the railway vehicle C, and automatically broadcasts various guidance broadcasts based on automatic broadcast data. The automatic broadcast device 3 performs an update process of the automatic broadcast data based on the change data of the automatic broadcast data transmitted from the on-board information device 2. The automatic broadcast apparatus 3 is configured by one unit, but is not limited to this, and may be configured by a plurality of units.

[1-2. Explanation of ground server configuration]
Next, the configuration of the ground server 1 will be described.
The ground server 1 includes a control unit 11, a storage unit 12, and a wireless communication unit 13.

  The control unit 11 performs central control of the operation of the ground server 1. Specifically, the control unit 11 includes a CPU, a ROM, a RAM, and the like. The program data stored in the ROM or the storage unit 12 developed in the RAM work area and the CPU cooperate with the ground. Centrally controls each part of the server 1.

The storage unit 12 includes, for example, an HDD (Hard Disk Drive), a semiconductor memory, and the like, and stores data such as program data and various setting data in a readable / writable manner from the control unit 11.
In addition, the storage unit 12 stores change data of the registered automatic broadcast data.

  The wireless communication unit 13 includes an antenna and a communication circuit, and performs wireless communication with an external device (such as the onboard information device 2) under the control of the control unit 11. For example, the wireless communication unit 13 transmits the change data of the automatic broadcast data stored in the storage unit 12 to the on-board information device 2.

[1-3. Description of configuration of on-board information device]
Next, the configuration of the on-board information device 2 will be described.
The on-board information device 2 includes a control unit 21, a storage unit 22, a wireless communication unit 23, and a data communication unit 24.

  The control unit 21 centrally controls the operation of the on-board information device 2. Specifically, the control unit 21 includes a CPU, a ROM, a RAM, and the like. The program data stored in the ROM or the storage unit 22 expanded in the RAM work area and the CPU cooperate with the program data. The overall control of each part of the upper information device 2 is performed.

The storage unit 22 includes, for example, an HDD and a semiconductor memory, and stores data such as program data and various setting data in a readable / writable manner from the control unit 21. The storage unit 22 may be a dedicated storage device such as a recording server.
The storage unit 22 stores operation information and change data for automatic broadcast data transmitted from the ground server 1.

  The wireless communication unit 23 includes an antenna and a communication circuit, and performs wireless communication with an external device (such as the ground server 1) under the control of the control unit 21. For example, the wireless communication unit 23 receives the change data of the automatic broadcast data transmitted from the ground server 1.

  The data communication unit 24 is a communication interface having a communication IC (Integrated Circuit), a communication connector, and the like, and performs data communication using a predetermined communication protocol under the control of the control unit 21. For example, the data communication unit 24 transmits the change data of the automatic broadcast data stored in the storage unit 22 to the automatic broadcast device 3.

[1-4. Description of the configuration of the automatic broadcast device]
Next, the configuration of the automatic broadcast device 3 will be described.
The automatic broadcast device 3 includes a control unit 31, a storage unit 32, and a data communication unit 33.

  The control unit 31 performs central control of the operation of the automatic broadcast device 3. Specifically, the control unit 31 includes a CPU, a ROM, a RAM, and the like. The program data stored in the ROM or the storage unit 32 expanded in the work area of the RAM and the CPU automatically cooperate with each other. Centrally controls each part of the broadcasting device 3.

The storage unit 32 is configured by, for example, a memory card such as a flash memory or an SD memory card, an HDD, a semiconductor memory, or the like, and stores data such as program data and various setting data in a readable / writable manner from the control unit 31.
The storage unit 32 stores operation information and automatic broadcast data.

  The data communication unit 33 is a communication interface having a communication IC, a communication connector, and the like, and performs data communication using a predetermined communication protocol under the control of the control unit 31. For example, the data communication unit 33 receives the change data of the automatic broadcast data transmitted from the on-board information device 2. That is, the data communication unit 33 functions as a data acquisition unit of the present invention.

[2. Explanation of operation]
Next, a specific operation of the automatic broadcast system 100 according to the embodiment of the present invention will be described with reference to the flowchart of FIG. This process is started when the terrestrial server 1 performs the process of registering the change data of the automatic broadcast data.

  First, the control unit 11 of the ground server 1 transmits the change data of the automatic broadcast data registered and stored in the storage unit 12 to the on-board information device 2 installed on an arbitrary railway vehicle C (step). S101).

  Next, the control unit 21 of the on-board information device 2 stores the change data of the automatic broadcast data transmitted from the ground server 1 in Step S101 in the storage unit 22 (Step S102).

Next, the control unit 11 of the terrestrial server 1 sends an automatic broadcast data update (change) command to the automatic broadcast device 3 and transmits the automatic broadcast data change data in step S101. (Step S103).
Next, the control unit 21 of the on-board information device 2 transmits the automatic broadcast data update command for the automatic broadcast device 3 transmitted from the ground server 1 in step S103 to the automatic broadcast device 3 (step S104). ).

Next, when the control unit 31 of the automatic broadcast device 3 receives the automatic broadcast data update command for the automatic broadcast device 3 transmitted from the on-board information device 2 in step S104, the control number 31 (train number) It is determined whether or not (information) is valid (step S105). Here, the column number information is information used as an identifier for distinguishing trains in the operation work, and is numbers and symbols given to individual trains in a railway diagram. This column number information is constantly transmitted from the on-board information device 2 to the automatic broadcast device 3. The control unit 31 refers to the column number information received in advance at the time of the update command, and determines whether the column number information is valid or invalid.
When it is determined that the column number information is valid (step S105: YES), the control unit 31 proceeds to the next step S106.
On the other hand, when it is determined that the column number information is not valid, that is, invalid (step S105: NO), the control unit 31 determines that the automatic broadcast data can be loaded (loading) and permits loading. (Step S109). Next, the process proceeds to step S110.

Next, the control unit 31 determines whether or not the crown symbol included in the column number information indicates “open” (step S106).
When the control unit 31 determines that the crown symbol indicates “business in progress” (step S106: YES), the control unit 31 proceeds to step S108.
On the other hand, if the control unit 31 determines that the crown symbol does not indicate “business” (step S106: NO), the control unit 31 proceeds to the next step S107.

Next, the control unit 31 determines whether or not the crown symbol included in the column number information indicates “trial operation” (step S107).
When it is determined that the crown symbol indicates “trial operation” (step S107: YES), the controller 31 proceeds to the next step S108.
On the other hand, when it is determined that the crown symbol does not indicate “trial operation” (step S107: NO), the control unit 31 determines that the automatic broadcast is not used, such as “forwarding operation”, and the process proceeds to step S109. Transition.

Next, the control unit 31 determines that the automatic broadcast data cannot be loaded, and prohibits the loading (step S108). Next, the process proceeds to step S110.
In other words, when the crown symbol indicates “in operation” (step S106: YES), if loading is performed during operation, there is a risk that automatic broadcasting with incorrect contents may be provided. Prohibit the acquisition of change data and prohibit loading. Further, when the crown symbol indicates “trial operation” (step S108: YES), it is necessary to check the contents of the automatic broadcast during the test operation. Prohibit loading.

In step S <b> 110, the control unit 31 transmits a response to the automatic broadcast data update command to the on-board information device 2.
That is, when loading is prohibited in step S108, a response “loading prohibited” is returned. On the other hand, if loading is permitted in step S109, a response “loading permission” is returned.

Next, the control unit 21 of the on-board information device 2 determines whether or not the response to the automatic broadcast data update command transmitted from the automatic broadcast device 3 in step S110 is “loading permission” (step S111). ), When it is “loading permission” (step S111: YES), the change data of the automatic broadcast data stored in the storage unit 22 is transmitted to the automatic broadcast device 3.
On the other hand, if the response to the automatic broadcast data update command is “loading prohibited” (step S111: NO), the terrestrial server 1 is notified of this and the processing is terminated. The re-transmission of the automatic broadcast data update command to the automatic broadcast device 3 may be performed based on an instruction from the ground server 1 or automatically after a predetermined time (for example, one hour later). Alternatively, it may be performed at a timing when the column number information becomes blank.

Next, the control unit 31 of the automatic broadcast device 3 confirms the consistency of the change data of the automatic broadcast data transmitted from the on-board information device 2 in step S111, and the change data of the automatic broadcast data is normal. It is determined whether or not (step S112).
When it is determined that the change data of the automatic broadcast data is normal (step S112: YES), the control unit 31 transmits a normal response to the on-board information device 2 (step S113), and proceeds to the next step S114. To do.
On the other hand, if the control unit 31 determines that the change data of the automatic broadcast data is abnormal (data mismatch or data other than the automatic broadcast device 3) (step S112: NO), the control unit 31 discards the data, An error response is transmitted to the on-board information device 2 (step S115).

  Next, the control unit 31 performs information processing on the change data of the automatic broadcast data whose consistency has been confirmed in step S112, and stores it in the storage unit 32 (step S114).

Thereafter, at the next power-on, the control unit 31 loads the change data and rewrites the automatic broadcast data. And the control part 31 implements an automatic broadcast using the data for automatic broadcasts after a change.
Here, the reason for changing the data for automatic broadcasting at the time of the next power activation is that automatic broadcasting with the changed data may be performed before the power activation. In other words, if the data for automatic broadcast is changed before the power is turned on, even if it is necessary to perform automatic broadcast with the data before the change, automatic broadcast of the future contents after the change will be performed. This is because the reliability of the system is impaired.

  Conventionally, the automatic broadcast data is stored in the storage unit 32 in the data structure shown in FIG. Specifically, conventional automatic broadcast data is a collection of block data of station data, route data, operation data, broadcast point data, broadcast content data, transfer guidance data, system file A, and system file B. A broadcast file F1 and an audio file that is an aggregate of block data of syllable data 1, syllable data 2, syllable data 3, syllable data 4, syllable data 5, syllable data 6, ... syllable data N-1 and syllable data N It consisted of two files, F2.

  On the other hand, in the present invention, the data structure shown in FIG. Specifically, in the present invention, first, the data storage area of the storage unit 32 includes a rewritable area E1 that stores block data that requires data rewriting, and no rewrite that stores block data that does not require data rewriting. The area E2 is divided. Of the automatic broadcast data of the present invention, block data (station data, route data, operation data, broadcast point data, broadcast content data, and transfer guide data) that needs to be rewritten is stored in the rewritable area E1. In addition, block data (syllable data 1, syllable data 2, syllable data 3, syllable data 4, syllable data 5, syllable data 6,... Syllable data N-1, syllable data N, system file A and The system file B) is stored in the rewrite unnecessary area E2. Newly added data (syllable data N + 1, syllable data N + 2, etc. in FIG. 4) is stored in the rewritable area E1.

  As a result, only the data that needs to be rewritten needs to be included in the change data of the automatic broadcast data, so that the data amount can be reduced. Accordingly, the time required for data communication and the time required for data rewriting can be reduced. Therefore, the data for automatic broadcast data can be updated efficiently, and the reliability at the time of data update can be improved.

In particular, in the railway industry, data is frequently updated every time a schedule is revised. Therefore, it is very effective to improve the efficiency of data updating. In addition, since the audio data (syllable data) of the automatic broadcasting data has a large capacity, it is very preferable if the audio data that does not require rewriting can be removed from the change data.
In general, since the automatic broadcast device 3 is a small device, it is difficult to receive a large amount of data. However, according to the present invention, the amount of data can be reduced, so that the changed data can be transferred without any problem. Can receive.
In addition, since data is updated in railway vehicles that are actually used for business, it is necessary to update data using a small amount of time outside business hours. According to the present invention, data is updated in a short time. Therefore, data can be updated without any problem.

  In the present invention, the change data of the automatic broadcast data includes data already stored in the rewritable area E1. That is, according to the present invention, instead of transmitting only the difference data from the data already stored in the rewritable area E1 as the changed data, “all data to be stored in the rewritable area E1 after the change” is sent. ".

Thereby, even if any data is stored in the rewritable area E1, it can be surely updated to the latest automatic broadcast data. Therefore, the reliability at the time of data update can be improved.
In particular, in the railway industry, when the main body of the automatic broadcast device 3 or the storage unit 32 of the automatic broadcast device 3 breaks down, it is generally used by replacing the spare parts stored in the warehouse. In this case, there are many cases in which it is not known at what point in time the data is stored in the spare part. There may be a shortage. However, according to the configuration of the present invention, since it can be surely updated to the latest automatic broadcast data, it is very effective.

  Also, in the present invention, unlike the conventional example shown in FIG. 3, a configuration is adopted in which each block data is divided and stored separately in block data units without being collected. Thereby, since the size of one file can be reduced, the amount of data rewriting and the rewriting time can be minimized. With the above configuration, data can be efficiently rewritten in a short time (for example, several seconds), and unnecessary rewriting of data can be suppressed to improve reliability during data rewriting.

  In the present invention, the change data (loading data) of the automatic broadcast data itself has a data structure that allows the file to be divided into block data. If the amount of change is large when loading automatic broadcast data, it is necessary to combine a plurality of block data into one file. In this case, since the file needs to be divided and expanded into each block data (data file) in the automatic broadcast apparatus 3, it has a data structure that makes it possible.

As shown in FIG. 5, the data structure of the loading data is “data type”, “file name”, “extension”, “file size”, for each data file (referred to as a file in FIG. 5), It is managed by each element of “CRC code” and “data body”. “Data type” is a flag for recognizing a data file, and is used when recognizing whether it is a broadcast file or an audio file. “File name” is the name of the data file. “Extension” is the extension of the data file. “File size” is the data size of the data file. The “CRC code” is a CRC code of the data body, and is used to check whether data transmission or recording has been performed correctly. The “data body” is data of the data file.
With the above configuration, even if new data (for example, emergency broadcast data) is added in the future, it can be handled as one data file with the same data structure.

As described above, in the automatic broadcast device 3 according to the embodiment of the present invention, the storage unit 32 includes the rewritable area E1 that stores data that needs to be rewritten among the automatic broadcast data, and the automatic broadcast data. Since it has the rewrite-free area E2 for storing data that does not need to be rewritten, the change data of the automatic broadcast data may include only the data that needs to be rewritten. Accordingly, the time required for data communication and the time required for data rewriting can be reduced. Therefore, the data for automatic broadcast data can be updated efficiently, and the reliability at the time of data update can be improved.
In addition, the data communication unit 33 acquires the change data including the data already stored in the rewritable area E1, so that the latest data can be reliably updated even if any data is stored in the rewritable area E1. Can be updated to automatic broadcast data. Therefore, the reliability at the time of data update can be improved.

  Further, in the automatic broadcast device 3 according to the embodiment of the present invention, the storage unit 32 stores data that needs to be rewritten in block data units in the rewritable area E1, and thus is stored in the storage unit. One file size can be reduced. Therefore, the amount of data rewriting and the rewriting time can be minimized. Therefore, data can be rewritten efficiently in a short time, and unnecessary rewriting of data can be suppressed to improve the reliability at the time of data rewriting.

  Moreover, in the automatic broadcast device 3 according to the embodiment of the present invention, when the control unit 31 determines that the crown symbol included in the train number information of the railway vehicle indicates “in operation” or “trial operation”, Since acquisition of the changed data by the data communication unit 33 is prohibited, rewriting or damage of the current data can be prevented. Therefore, since automatic broadcasting can be performed appropriately, the reliability of automatic broadcasting can be ensured.

  Further, in the automatic broadcast device 3 according to the embodiment of the present invention, after the control unit 31 acquires the change data by the data communication unit 33, the automatic broadcast data stored in the storage unit 32 is stored at the next power-on time. Since the change is made, the automatic broadcast data can be changed at a timing after the possibility of performing the automatic broadcast using the data before the change is lost. Therefore, since the inappropriate automatic broadcast is not provided, the reliability of the automatic broadcast can be ensured.

  As mentioned above, although concretely demonstrated based on embodiment which concerns on this invention, this invention is not limited to the said embodiment, It can change in the range which does not deviate from the summary.

For example, in the above embodiment, as shown in FIG. 4, the data is divided and stored in block data units in both the rewritable area E1 and the rewritable area E2, but the present invention is not limited to this. Instead, at least in the rewritable area E1, the same effect can be obtained as long as data is divided and stored in units of block data.
Also in the rewritable area E1, each block data may be stored together instead of a block data unit.

  Moreover, in the said embodiment, when it determines with the crown symbol contained in the train number information of a rail vehicle showing "in operation" or "trial operation", acquisition of the change data by the data communication part 33 is prohibited. However, it is not limited to this. For example, instead of prohibiting acquisition of the change data by the data communication unit 33, after the change data is acquired, rewriting of the data for automatic broadcast based on the change data is prohibited until the predetermined prohibition condition is not satisfied. You may do it.

  In addition, the detailed configuration of each device constituting the automatic broadcast system and the detailed operation of each device can be changed as appropriate without departing from the gist of the present invention.

DESCRIPTION OF SYMBOLS 100 Automatic broadcast system 1 Ground server 11 Control part 12 Storage part 13 Wireless communication part 2 On-board information device 21 Control part 22 Storage part 23 Wireless communication part 24 Data communication part 3 Automatic broadcast apparatus 31 Control part 32 Storage part 33 Data communication part (Data acquisition part)

Claims (5)

In an automatic broadcasting device that is installed on a railway vehicle and automatically broadcasts various guidance broadcasts,
A storage unit for storing automatic broadcast data for automatically broadcasting the various guidance broadcasts;
A data acquisition unit for acquiring change data for changing the automatic broadcast data stored in the storage unit via wireless communication;
Based on the change data acquired by the data acquisition unit, a control unit for changing the automatic broadcast data stored in the storage unit,
With
The storage unit
Of the automatic broadcast data, a rewritable area for storing data that needs to be rewritten,
Of the automatic broadcast data, a rewrite unnecessary area for storing data that does not need to be rewritten,
Have
The automatic broadcast apparatus, wherein the data acquisition unit acquires the change data including data already stored in the rewritable area.   The automatic broadcasting apparatus according to claim 1, wherein the storage unit stores the data that needs to be rewritten in block data units in the rewritable area.   3. The automatic broadcast apparatus according to claim 1, wherein when the control unit determines that a predetermined prohibition condition is satisfied, the control unit prohibits the acquisition of the changed data by the data acquisition unit.   The control unit prohibits the acquisition of the changed data by the data acquisition unit when it is determined that the crown symbol included in the train number information of the railway vehicle indicates “in operation” or “trial operation”. The automatic broadcast apparatus according to claim 3.   The said control part changes the data for automatic broadcasts memorize | stored in the said memory | storage part at the time of the next power activation after acquiring the said change data by the said data acquisition part. An automatic broadcast device according to claim 1.

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