JP2013038712A - Radio system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio system capable of promptly shifting to the start of emergency broadcast on the occurrence of necessity for emergency broadcast such as a national instantaneous alarm system in a radio system such as disaster prevention radio.SOLUTION: The radio system includes a base station, a plurality of sub-stations for receiving broadcast from the base station, and an external device, connected to the base station, for transmitting an alarm signal to initiate the emergency broadcast at disaster. The base station includes sub-station discrimination means for discriminating whether sub-stations of general broadcast targets entirely coincide with sub-stations of emergency broadcast targets. On receipt of the alarm signal from the external device during broadcasting general broadcast, the radio system shifts to the emergency broadcast if the sub-station discrimination means discriminates that the sub-stations of general broadcast targets coincide with the sub-stations of emergency broadcast targets.

Description

  The present invention relates to a process when a base station receives an emergency broadcast by a national instantaneous alarm system (J-ALERT) or the like in a radio system that makes a report over a wide area such as a disaster prevention radio or a fire fighting radio.

  Conventionally, a disaster prevention radio system has been adopted as means for notifying local residents of various regional information including disaster prevention related information. According to this disaster prevention radio system, it is possible to broadcast simultaneously from the base station to all the slave stations, that is, within the jurisdiction area, or to broadcast only to a part of the jurisdiction area (slave stations). Is also possible. For example, if there is a risk of landslides or landslides in a part of a mountainous area due to heavy rain, an operation may be considered in which an evacuation warning is broadcast only to that dangerous area.

In addition, in order to prepare for emergencies caused by large-scale natural disasters such as earthquakes, municipalities and villages where disasters are likely to occur via the communication satellite from the Ministry of Internal Affairs and Communications Fire Department using the Japan Instant Warning System (J-ALERT) There is a system that automatically activates the municipal disaster prevention administrative radio system of local governments, etc., and instantly transmits the emergency information to the relevant residents.
As a technique related to such a disaster prevention radio system, for example, there is one described in the conventional example of Patent Document 1.
JP 2010-35094 A

  By the way, if a highly urgent broadcast from the national instantaneous warning system (hereinafter referred to as an emergency broadcast) is received during a general broadcast of regional information, etc., the current general broadcast is temporarily stopped and then Emergency broadcasts must be made. The reason for terminating the current broadcast is that if the current broadcast area setting is limited to a specific area, even if the base station switches to emergency broadcasting as it is, the broadcast area setting remains in the specific area (slave station) This is because it is necessary to end the talk once and cancel the broadcast setting of the slave station.

  Broadcasting from this nationwide instantaneous warning system is very urgent, so how quickly emergency notification is sent to residents is greatly related to reducing damage. Examples of nationwide instantaneous warning systems include earthquake warnings, large tsunami warnings, heavy rain / flood warnings, etc. These warnings need to be notified as early as 1 second as emergency broadcasts.

  In the case of emergency broadcasts as described above, it is necessary to notify the local residents of information as early as 1 second. However, in the current digital wireless system, if an emergency broadcast is received during a general broadcast, Therefore, it is necessary to follow a procedure of transmitting a synchronous burst signal for starting emergency broadcasting. The end-of-call process sends an end signal to end the current broadcast from the base station to the slave station. When the slave station receives the end signal, it recognizes that the broadcast (audio broadcast) has ended and cancels the broadcast setting. Then prepare for the next broadcast reception. Since this end-call process takes 3-4 seconds, compared to the time when the general broadcast is not performed, only the time required for the end-call process since the base station received the emergency broadcast during the general broadcast Emergency broadcast will be started after a delay.

  The present invention has been made in view of the above problems, and in a radio system such as a disaster prevention / administrative radio, when an emergency broadcast such as a national instantaneous warning system occurs during a general broadcast, the time until the emergency broadcast starts It is an object of the present invention to provide a wireless system that can shorten the time.

Claim 1 of the present invention is a base station, a plurality of slave stations that receive broadcasts from the base station, and an external device that is connected to the base station and transmits an alarm signal for starting emergency broadcasts in the event of a disaster And the base station determines whether or not the slave stations subject to general broadcasting and the slave stations subject to emergency broadcasting all match. Having means,
When the warning signal is received from the external device while broadcasting a general broadcast, the slave station determining means determines that the slave station targeted for the general broadcast matches the slave station targeted for the emergency broadcast. In this case, the radio system is characterized in that it shifts to emergency broadcasting as it is.

  Claim 2 of the present invention provides a base station, a plurality of slave stations that receive broadcasts from the base station, and an external device that is connected to the base station and transmits an alarm signal for activating emergency broadcasts in the event of a disaster When the base station receives the alarm signal from the external device while broadcasting a general broadcast, the base station transmits an immediate synchronization burst signal and then shifts to an emergency broadcast. In the wireless system, the slave station that is receiving a general broadcast receives the emergency broadcast following the general broadcast when receiving the synchronous burst signal from the base station.

  According to a third aspect of the present invention, in addition to the second aspect, the slave station that is receiving a general broadcast is a wireless system that mutes a speaker sound while receiving the synchronous burst signal.

  According to the first aspect of the present invention, when the base station receives an alarm signal for starting the emergency broadcast during the general broadcast from the external device, the slave station that is the target of the general broadcast during the broadcast It is determined whether or not all the slave stations subject to emergency broadcasts match, and when the slave stations subject to broadcast match, it is possible to shift directly to emergency broadcasts, so general broadcasting is performed If the area and the target area of the emergency broadcast match, it is possible to shift to the emergency broadcast as it is, and it is no longer necessary to perform the end-call processing and the transmission of the synchronous burst signal, which conventionally required 3 to 4 seconds, The time until the start of emergency broadcasting can be shortened.

  According to the second aspect of the present invention, when the base station receives an alarm signal for starting the emergency broadcast during the general broadcast from the external device, the base station transmits the immediate synchronization burst signal, and then shifts to the emergency broadcast. When the slave station receiving the general broadcast receives the synchronous burst signal from the base station, it has conventionally required 3 to 4 seconds to receive the emergency broadcast following the general broadcast. There is no need for end-of-call processing, and quick emergency broadcasting can be started.

  According to a third aspect of the present invention, in the second aspect, when a slave station receiving a general broadcast receives a synchronous burst signal, the speaker sound is muted during reception of the synchronous burst signal, so that the synchronization is not an audio signal. The signal sound (noise) of the burst signal can be prevented from flowing.

In the wireless system 10 of this invention, it is a flowchart showing the flow of the base station when an alarm signal is received during general broadcasting. In the radio | wireless system 10 of this invention, it is a sequence diagram showing the flow of a process when an alarm signal is received during general broadcasting. It is explanatory drawing showing the use slot condition during a broadcast. It is explanatory drawing showing an example of the signal format used for broadcasting. It is the schematic diagram showing the structure of the radio | wireless system of this invention. (A) is a block diagram showing the configuration of the base station 11, and (b) is a block diagram showing the configuration of the slave station 12. In the conventional wireless system, it is a sequence diagram showing the flow of processing when an alarm signal is received during general broadcasting.

  A radio system according to the present invention includes a base station, a plurality of slave stations that receive broadcasts from the base station, and an external device that is connected to the base station and transmits an alarm signal for activating emergency broadcasts during a disaster. The base station is configured to determine whether or not the slave station that is the target of general broadcast matches the slave station that is the target of emergency broadcast. And when the alarm signal is received from the external device while broadcasting a general broadcast, the slave station subject to the general broadcast matches the slave station subject to the emergency broadcast by the slave station discriminating means. Then, when it is determined, it shifts to emergency broadcasting as it is. Details will be described below.

  The wireless system 10 of the present invention will be described with reference to the drawings. FIG. 5 is a schematic diagram showing the configuration of the wireless system 10 of the present invention. In FIG. 5, reference numeral 11 denotes a base station (parent station), which has a function of broadcasting to slave stations in the jurisdiction area. Reference numerals 12a to 12f denote slave stations that have a function of receiving broadcasts from the base station 11. Here, the slave station 12 includes a door-to-door receiver installed in a building such as a house, and an outdoor transmission / reception device that informs local residents of a broadcast installed and received outdoors using a loudspeaker. A station having a function of receiving a broadcast from a base station is collectively referred to as a slave station 12. 12a and 12b belong to a broadcasting jurisdiction called area 1, 12c and 12d belong to a broadcasting jurisdiction called area 2, and 12e and 12f belong to a broadcasting jurisdiction called area 3. Further, reference numeral 13 denotes a relay station. In FIG. 5, since the area 3 is out of the direct broadcast area of the base station 11, the relay station 13 functions as a device for relaying broadcast to such an area. Reference numeral 14 denotes an external device having a function of notifying the base station 11 that an emergency warning has been issued, and includes, for example, a national instantaneous warning system (J-ALERT).

FIG. 6A is a block diagram showing the configuration of the base station 11. In FIG. 6A, reference numeral 15 denotes an alarm signal receiving unit which has a function of receiving an alarm signal from the external device 14. Reference numeral 16 denotes an alarm signal demodulator having a function of demodulating the alarm signal received by the alarm signal receiver 15. Reference numeral 17 denotes a disaster prevention signal generation unit that generates a disaster prevention signal to be transmitted from the base station based on the received alarm signal. Actually, the warning signal from the national instantaneous warning system (J-ALERT) is a signal indicating the type of disaster as an emergency broadcast start command (for example, earthquake information, tsunami information, meteorological information such as heavy rain / flood, volcanic eruption) The base station 11 selects the content of the emergency broadcast that is selected from the content of the emergency broadcast stored in advance corresponding to the type of disaster sent.
Reference numeral 18 denotes a regional information generation unit that creates regional information such as event holding information for each region and designates the broadcast target areas 1 to 3 shown in FIG. Reference numeral 19 denotes a console, and all broadcasts from the base station 11 are broadcast via this console. In addition, the identification codes of all the slave stations 12 in the jurisdiction area of the base station 11 are stored, and the grouped regional information such as the areas 1 to 3 is also stored and is to be broadcasted. Specify and manage slave stations in the area. Usually, in the case of emergency broadcasting, it is automatically broadcast to the slave stations in all areas, but when disasters are limited in wide-area municipalities, for example, the target area is a coastal area like tsunami information In an emergency broadcast that does not affect the mountainous area, the broadcast target area can be designated and broadcast. In the case of performing general broadcasting, broadcasting is performed by operating the console with respect to the broadcasting area designated by the content created by the regional information generation unit 18. Reference numeral 20 denotes a transmission unit that transmits a broadcast signal from the console to the slave station 12.

  FIG. 6B is a block diagram showing the configuration of the slave station 12. In FIG. 6B, reference numeral 21 denotes a receiving unit that has a function of receiving a broadcast signal from the base station 11. A demodulation unit 22 has a function of demodulating a signal received by the reception unit 21. A control unit 23 has a function of controlling the operation of the slave station based on the signal demodulated by the demodulation unit 22. Specifically, it is determined whether or not the own station is included in the broadcast target in the received synchronous burst signal, and the volume output from the speaker is controlled. Reference numeral 24 denotes a variable gain amplification unit that adjusts the amplification degree based on a volume instruction from the control unit and outputs an audio signal to the speaker 25.

  Here, problems of the conventional wireless system will be described with reference to FIG. As shown in FIG. 7, during the general broadcast to the slave station 12 within the jurisdiction of the base station 11 via the transmission unit 20 by the operation from the console 19 of the base station 11, the external device 14 Suppose that an alarm signal for activating emergency broadcasting at the time of a disaster is entered. Conventionally, when a base station transmits a new emergency broadcast during broadcasting, the base station transmits a call termination processing signal for ending the current broadcast to the slave station, and broadcasts (audio broadcast) when the slave station receives the call termination processing signal. Is terminated, the broadcast setting such as the volume setting of the speaker is canceled, and the end-of-call process is performed to prepare for the next broadcast reception. This end-call processing takes 3 to 4 seconds. The base station is configured to transmit a synchronization burst signal for starting an emergency broadcast to the slave station after transmitting the end-call processing signal, and then transmit the emergency broadcast. Therefore, compared to when the general broadcast is not being performed, the start of the emergency broadcast may be delayed by the time required for the end call process after the base station receives the alarm signal from the external device 14 during the general broadcast. .

  Therefore, the present invention is characterized by shifting to emergency broadcasting without performing the call termination process, and in particular, the slave station 12 that is the target of general broadcasting and the slave station 12 that is the target of emergency broadcasting. Is exactly the same, the transmission of the synchronization burst signal is omitted, and the transmission of the emergency broadcast is immediately started. Details will be described below.

  FIG. 1 is a flowchart showing the flow of processing up to the start of emergency broadcasting when an alarm signal is received during general broadcasting in the wireless system 10 of the present invention. As a premise, it is assumed that a general broadcast is currently being broadcast (S101). The process shown in the flowchart of FIG. 1 is executed on the console 19 of the base station 11.

  When an alarm signal is received (S102), the received signal is demodulated, and an area to be subjected to emergency broadcast is specified from the content of the demodulated signal. In the case of emergency broadcasts, all areas are usually covered, but when disasters are limited in wide-area municipalities, etc., for example, emergency broadcasts that cover the coastal area, such as tsunami information, and do not affect mountainous areas FIG. 1 also considers the case where the broadcast target area is designated and broadcast. Here, it is determined whether or not the area where the general broadcast is currently being performed and the target area of the emergency broadcast match (S103). Here, it is determined whether or not there is a complete match. If the target area is slightly different, a synchronization burst signal is transmitted to the slave station 12 in the target area of the emergency broadcast (S104). By transmitting the synchronization burst signal, the slave station 12 in the emergency broadcast target area switches to reception of the emergency broadcast, and then starts the emergency broadcast (S105). On the other hand, when the area where the general broadcast is performed and the target area for the emergency broadcast completely coincide with each other, the emergency broadcast is started as it is without transmitting the synchronization burst signal (S105).

Here, as a method for determining whether or not the area where the general broadcast is currently performed and the target area of the emergency broadcast match, collation by the slave station identification number is used. Each slave station is assigned a unique slave station identification number. At the time of broadcasting, the base station side broadcasts by specifying the slave station identification number of the slave station to be broadcasted. Broadcasting is received when the identification number of the local station is included.
Therefore, the slave station identification number designated as the target of broadcasting in general broadcasting is stored in the memory of the console 19 in advance, and the slave station identification number targeted for emergency broadcasting is collated to perform current general broadcasting. It is discriminated whether or not the current area and the target area of the emergency broadcast match.

  In the above, it is assumed that the area where the general broadcast is performed (slave station) and the target area of the emergency broadcast (slave station) completely match, but the area where the emergency broadcast is targeted (slave station) If it is included in the area (slave station) that is being used, the emergency broadcast may be started as it is.

  Next, in order to realize the flow specific to the present invention as described above, it is necessary to change the processing in the slave station 12 from the conventional one. That is, if a conventional slave station is receiving a broadcast and receives a synchronous burst signal for other broadcasts such as emergency broadcasts while the end-of-call process is not completed at the end, a sequence error occurs and subsequent broadcasts cannot be received. . Also, since the broadcast setting such as the volume setting and the recording setting is a sequence for maintaining the setting during the current broadcast unless the call-end process is performed, even if the emergency broadcast is received, the broadcast setting for the emergency broadcast is not switched. Therefore, even during a general broadcast, even if a synchronous burst signal for other broadcasts is received without passing through the end-of-call process, a sequence error does not occur, and it is possible to switch to a broadcast setting for emergency broadcasting Thus, when other broadcasts (especially emergency broadcasts) are received during the broadcast, it is necessary to set the sequence to switch to the broadcast settings designated by the new broadcast without retaining the previous broadcast settings.

A specific sequence will be described below. One frame of communication data defined by the disaster prevention / administrative radio system is divided into six slots of 0 to 5 slots. For example, as shown in FIG. 3, the 0th slot and the 3rd slot of the general broadcast are not used (may be used as control data), and 1, 2, 4, 5 slots are used as the audio data of the general broadcast. Assume that the reception slot setting of reception is used in general broadcasting. In this state, when the slave station receives a synchronous burst signal using all 0 to 5 slots for starting emergency broadcast from the base station, it receives it as it is without a sequence error. After transmitting a synchronous burst signal from the base station, the 0th slot and the 3rd slot are unused as in general broadcasting, and 1, 2, 4, 5 slots are assigned to receive transmission signals as broadcast audio data. By using the reception slot setting at the time of general broadcasting as it is, the processing time for setting the reception slot can be omitted, and broadcasting can be started in a short time.
Further, when the slave station receives the synchronization burst signal during reception of the general broadcast, the slave station clears the received broadcast setting information.

  In this way, the reception slot setting is maintained without being cleared, but the broadcast setting is reset based on the broadcast setting information included in the contents of the emergency broadcast, and the emergency broadcast is received. FIG. 4 is an explanatory diagram showing an example of a signal format used for broadcasting. Among these, it is determined whether or not the volume of the slave station 12 is forcibly changed by the door-to-door receiver forced volume flag. If the flag is set, the broadcast is forcibly broadcast to the volume specified by the volume setting value. Change the setting. Further, whether or not to record in the slave station 12 can be instructed as a broadcast setting by the recording control flag.

  In the second embodiment, in the flowchart of FIG. 1 in the first embodiment, the determination means for determining whether or not the area currently being broadcast and the emergency broadcast area in (S103) match is omitted. This will be described with reference to the sequence diagram of FIG. As shown in FIG. 2, the base station 11 receives a disaster from the external device 14 while broadcasting a general broadcast to the slave station 12 within the jurisdiction of the base station 11 via the transmission unit 20 by an operation from the console 19. When receiving the alarm signal for starting the emergency broadcast at that time, the base station transmits a synchronous burst signal to the slave station 12 in the area targeted for emergency broadcast without transmitting the call-end processing signal. The slave station 12 that is the target of the emergency broadcast by the transmission of the synchronous burst signal switches to the reception of the emergency broadcast, and then broadcasts the received emergency broadcast using a speaker. As a result, the time for switching to the emergency broadcast can be shortened by omitting the end-call processing. At this time, the slave station that has received the general broadcast mutes the synchronization burst signal that is not an audio signal so that no noise is generated from the speaker 25.

  As described above, according to the present invention, when the base station receives an alarm signal for starting emergency broadcast during general broadcast from an external device, the slave station that is the target of the general broadcast being broadcast And whether or not all the slave stations subject to emergency broadcasts match, and if the slave stations subject to broadcast match, it is possible to shift directly to emergency broadcasts, If the area that is present and the target area of the emergency broadcast match, it is possible to shift to the emergency broadcast as it is, and the time until the start of the emergency broadcast can be shortened.

  In addition, when the slave station receiving the broadcast receives the synchronization burst signal, the sequence is switched to the broadcast setting designated by the new broadcast without holding the current broadcast setting information. Broadcast setting information can be updated without the end of call processing requiring 4 seconds, and the time until the start of emergency broadcasting can be shortened.

DESCRIPTION OF SYMBOLS 10 ... Wireless system, 11 ... Base station (master station) 12, 12a-12f ... Slave station, 13 ... Relay station, 14 ... External device, 15 ... Alarm signal receiving part, 16 ... Alarm signal demodulating part, 17 ... Disaster prevention Signal generation unit, 18 ... area information generation unit, 19 ... console, 20 ... transmission unit, 21 ... reception unit, 22 ... demodulation unit, 23 ... control unit, 24 ... variable gain amplification unit, 25 ... speaker.

Claims (3)

A wireless system comprising: a base station; a plurality of slave stations that receive broadcasts from the base station; and an external device that is connected to the base station and transmits an alarm signal for starting emergency broadcasts in the event of a disaster Because
The base station has a slave station discriminating means for discriminating whether or not all the slave stations subject to the general broadcast and the slave stations subject to the emergency broadcast coincide with each other, When the alarm signal from the external device is received, when the slave station discriminating means determines that the slave station targeted for general broadcast matches the slave station targeted for emergency broadcast, the emergency broadcast is transmitted as it is. A wireless system characterized by transition. A wireless system comprising: a base station; a plurality of slave stations that receive broadcasts from the base station; and an external device that is connected to the base station and transmits an alarm signal for starting emergency broadcasts in the event of a disaster Because
When the base station receives the warning signal from the external device during the broadcast of the general broadcast, transmits the immediate synchronization burst signal, and then shifts to the emergency broadcast,
The wireless system, wherein the slave station receiving the general broadcast receives the emergency broadcast following the general broadcast when receiving the synchronization burst signal from the base station.   3. The wireless system according to claim 2, wherein the slave station receiving the general broadcast mutes a speaker sound while receiving the synchronous burst signal.

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