JP5894817B2 - Mobile station radio - Google Patents

Description

  The present invention relates to a mobile station radio that performs a radio call with another mobile station radio via a base station, a radio call with a command board via a base station, and the like. The present invention relates to a mobile station radio that can be transmitted to another mobile station radio and the like and output from the speaker of the local station.

FIG. 1 shows a schematic configuration example of a digital wireless communication system related to this technical field. In this wireless communication system, an SCPC method (Single Channel Per Carrier) in which one carrier is assigned to one channel for transmitting voice data is used. The SCPC digital wireless communication system is defined by, for example, the digital communication system standard ARIB STD-T61.
In the system of FIG. 1, a command board (also referred to as a control console or a communication console) 10, a line control device 20, a base station 30, and a plurality of mobile station radios (hereinafter referred to as “onboard radios”). 40 (1) to 40 (4) and a mobile station 40 (5) which is a portable device (portable wireless device) that can be carried by a person. There may be a plurality of mobile stations 40 (5) which are portable devices. The command board 10 and the line control device 20 are connected by a wired transmission line 5, and the line control device 20 and the base station 30 are connected by a transmission line 4 such as a wired or micro line. In addition, when representing a mobile station, it calls the mobile station 40.

  The base station 30 and the mobile station 40 can be connected by radio, and the command base 10, the mobile station 40, and the mobile stations 40 are connected by telephone communication through base station communication via the base station 30. Further, the mobile stations 40 can be connected by direct communication between mobile stations without using the base station 30. In FIG. 1, the command board 10 and the mobile station 40 (1), and the mobile station 40 (2) and the mobile station 40 (5) are connected by base station communication, and the mobile station 40 (3) and the mobile station 40 (4). Are connected by direct communication between mobile stations.

Although the base station 30 has a communication zone (or communication area) 1, due to frequency restrictions, the same transmission frequency (from the base station to the mobile station) is transmitted to a plurality of mobile stations 40 in the communication zone 1. Transmission is performed using the downlink signal frequency (F1), and reception is performed using the same reception frequency (uplink signal frequency from the mobile station to the base station: F2). As described above, in base station communication via a base station, duplex communication in which bidirectional communication is performed simultaneously is possible.
Further, in direct communication between mobile stations, the frequency F3 is used in both uplink and downlink, and simplex communication that allows communication in only one direction is performed at the same time.

  The mobile station 40 is equipped with an emergency button and a speaker, and when the emergency button is pressed when the danger of the mobile user of the mobile station 40 is approached, an alarm sound is output from the speaker, or an emergency situation occurs. A function of transmitting emergency information data for informing the user to the command board 10 or another mobile station 40 is provided.

  However, since the capacity of the battery built into the mobile station 40, especially the portable device, is small, it is difficult to continuously output an alarm sound from a speaker or to transmit emergency information data continuously for a long time. is there. Under such circumstances, there may be a problem in searching for the mobile station 40 that has fallen into an emergency.

In addition, in the digital communication system standard ARIB STD-T61 described above, specifications for voice communication are specified, but specifications for emergency information data communication are not specified. Therefore, even if the wireless communication system is manufactured based on the same communication standard as described above, the presence / absence of handling of emergency information data and the handling specifications differ depending on the manufacturer of the system.
Therefore, for example, the mobile station A used in the city A fire fighting radio system (manufacturer A) can communicate with the mobile station B used in the city B fire fighting radio system (manufacturer B). In some cases, emergency information data cannot be transmitted and delivered. This is, for example, an obstacle to the fire fighting activities of the city A fire engine and the city B fire engine jointly.

  Patent Literature 1 below discloses a wireless communication system related to the above-described digital communication system standard ARIB STD-T61. Further, in Patent Document 2 below, an emergency sound is continuously emitted from the own station by pressing the emergency switch, or an emergency sound is sent to the other station by pressing the press after the alarm sound is emitted from the own station. Send data and listen to your own emergency sound, or press the emergency switch to continuously sound an alarm sound from your station, and also send alarm sound request data to the other station to alert you A wireless device having a function of continuously sounding is disclosed.

JP 2011-071703 A JP 2004-274130 A

  The present invention has been made in order to solve the above-mentioned problems of the background art, and is a technique that makes it easy to search for a mobile station that has had a built-in battery of a mobile station for a long time or has fallen into an emergency. The purpose is to provide.

A typical configuration of the mobile station radio of the present invention for solving the above-described problems is as follows. That is,
A wireless unit that transmits and receives wireless audio signals to and from other wireless devices; and
An alarm sound generator for generating an alarm sound;
A voice output unit that outputs a warning sound generated by the warning sound generation unit;
An operation unit that receives input from the operator;
A control unit that controls the radio unit, the alarm sound generation unit, the audio output unit, and the operation unit;
When the controller receives an emergency notification mode start instruction from the operator through the operation unit, the control unit wirelessly transmits an alarm sound from the alarm sound generation unit as an audio signal from the radio unit, but outputs an audio from the audio output unit. No alarm sound transmission step, an audio output step for outputting an alarm sound from the alarm sound generator from the audio output unit but not wirelessly transmitting from the radio unit, an alarm sound transmission from the radio unit and the audio output And a pause step in which no audio output from the unit is performed.

  According to said structure, it becomes easy to make the internal battery of a mobile station last long, or to search for the mobile station which fell into an emergency.

It is a figure which shows the example of schematic structure of the radio | wireless communications system which concerns on embodiment of this invention. It is a figure which shows the structure of the command stand which concerns on embodiment of this invention, a line control apparatus, and a base station. It is a figure which shows the structure of the mobile station which concerns on embodiment of this invention. It is a figure which shows operation | movement of the transmission source mobile station in the emergency alert mode which concerns on embodiment of this invention.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a schematic configuration example of a radio communication system according to the present technical field as described in the background art, and is a diagram illustrating a schematic configuration example of a radio communication system according to an embodiment of the present invention. The description of the background art will be omitted as appropriate.
As described in the description of the background art, the base station 30 includes a transmission unit at a transmission frequency F1 (downlink: from a base station to a mobile station), and a reception unit at a reception frequency F2 (uplink: from a mobile station to a base station). The transmission / reception part comprised from these. Further, it is sufficient that the number of mobile stations 40 is two or more, and the base station 30 can be configured to have two or more.

  In direct communication between mobile stations between the mobile station 40 (3) and the mobile station 40 (4), the frequency F3 is used in both the uplink and downlink directions. In the present embodiment, the frequency F3 is used. Is set to the same frequency as the uplink frequency F2 from the mobile station to the base station. In this way, the frequency can be saved. For example, the mobile station 40 (4) performs base station communication at the frequency F2 within the base station area (communication zone 1), and directly at the frequency F2 outside the base station area. Since communication can be performed, there is an advantage that the mobile station 40 does not need to be aware of whether it is within or outside the base station area.

In the present embodiment, in base station communication from the mobile station 40 to another mobile station 40, the voice signal transmitted from the source mobile station 40 is looped back by the base station 30 and all of the signals in the communication zone 1 are returned. It is comprised so that it may transmit to the mobile station 40 of. In this way, it is possible to perform simultaneous communication in which all mobile stations participate in a call within the communication zone. At this time, since the mobile station 40 uses an uplink frequency, the base station transmits the communication channel including the Busy signal. And the other mobile station which received the Busy signal will be in a transmission prohibition state. Normally, in communication between mobile stations via a base station, communication is performed by a two-wave simplex system.
Further, in the communication between the mobile station 40 and the command board 10, while the command board 10 is transmitting, the voice signal from the mobile station 40 is not transmitted back by the base station 30, thereby allowing two-wave duplex. System communication is also possible.

In addition, the configuration of the wireless channel used in the present embodiment includes a communication channel and a synchronization burst. A synchronization burst is always transmitted before the communication channel. The communication channel includes a traffic channel and a radio information channel, and transmits a voice signal using the traffic channel. The synchronization burst includes a parameter information channel and a radio information channel, and can include a transmission source ID for identifying the transmission source in the parameter information channel.
The wireless communication system of FIG. 1 is, for example, a fire and ambulance wireless communication system, the in-vehicle device 40 is a wireless device mounted on a fire engine or an ambulance, and the communication zone has a radius of about several kilometers to several tens of kilometers. is there.

FIG. 2 is a block diagram showing a schematic configuration of the command board 10, the line control device 20, and the base station 30 in the embodiment of the present invention. The function of the line control device 20 can also be configured to be incorporated in the command board 10.
The command board 10 includes a control unit 11, a storage unit 12, a display unit 13, an operation unit 14, a speaker 15 that outputs voice, and a microphone 16 into which an operator's voice is input. The operation unit 14 includes a PTT button for making a call using PTT (Push To Talk), an end button for ending the call, and the like. The control unit 11 controls each component of the command board 10. The storage unit 12 stores an operation program for the CPU of the control unit 11 to operate. The CPU of the control unit 11 operates by reading the operation program from the storage unit 12.
The command board 10 uses the microphone 16 and the speaker 15 to perform a call related to a command to the mobile station 40 via the base station 30, that is, exchanges a call signal.

The line control device 20 includes a control unit 21 and a storage unit 22 configured by a CPU or the like. The control unit 21 includes a communication line between the mobile stations 40 via the base station 30, the mobile station 40, the command board 10, and the like. And control such as a call control from the command board 10 or the mobile station 40.
The storage unit 22 of the line control device 20 stores an operation program for operating the CPU of the control unit 21, and the CPU of the control unit 21 operates by reading the operation program from the storage unit 22.

Next, the configuration of the base station 30 will be described. The base station 30 includes a base station transmission unit 33, a base station reception unit 34, a control unit 31 configured by a CPU and the like, and a storage unit 32. The control unit 31 includes each component of the base station 30. Control. The storage unit 32 stores an operation program for the CPU of the control unit 31 to operate. The CPU of the control unit 31 reads the operation program from the storage unit 32 and operates.
The base station transmission unit 33 transmits the call signal from the command board 10 and the aforementioned return signal to the mobile station 40 at the radio frequency F1. The base station receiving unit 34 receives a call signal transmitted from the mobile station 40 at the radio frequency F2.

When the base station 30 is not receiving a call signal including a voice signal from the command board 10 to the mobile station 40 via the line control device 20, the control unit 31 receives a call signal including the voice signal from the mobile station 40. When the base station reception unit 34 receives the signal at the frequency F2, the base station transmission unit 33 transmits the call signal at the frequency F1 and controls the line control device 20 to transmit the call signal. The line control device 20 that has received the call signal transmits the call signal to the command board 10.
In addition, when the base station 30 is receiving a call signal from the command board 10 to the mobile station 40 via the line control device 20, the control unit 31 sends the received call signal from the command board 10 to the base station transmission unit. 33 is controlled to transmit at frequency F1. At this time, even if the call signal from the mobile station 40 is received by the base station receiver 34 at the frequency F2, the call signal from the mobile station 40 is not transmitted back and is not transmitted to the line control device 20.

Next, the configuration of the mobile station 40 will be described with reference to FIG. FIG. 3 is a block diagram illustrating a schematic configuration of the mobile station 40. The mobile station 40 is a mobile station that represents the in-vehicle devices 40 (1) to 40 (4) and the portable device 40 (5) in FIG. The mobile station 40 shown in FIG. 3 uses a base station wave of a pair of uplink radio carrier (frequency F2) and downlink radio carrier (frequency F1) and can perform simultaneous transmission / reception via the base station 30. Is a wireless communication device. That is, the individual communication with the command board 10 is performed by duplex using a transmitter 43 and a receiver 44 described later. Further, as described above, when communication is performed with another mobile station 40 via the base station 30, since it is transmitted back by the base station 30, it is substantially a simplex wireless communication.
In addition, the mobile station 40 is a wireless communication device that performs direct communication with another mobile station 40 by the simplex method without using the base station 30. That is, direct communication between mobile stations is performed by simplex transmission on the wireless carrier (frequency F2) using the transmission unit 43 and the reception unit 44. Whether to perform direct communication between mobile stations or base station communication via the base station 30 can be set by the user using the communication changeover switch of the operation unit 53 of the mobile station 40.

In FIG. 3, reference numeral 41 denotes a control unit that controls each component of the mobile station 40, and 42 denotes a storage unit connected to the control unit 41. The storage unit 42 stores an operation program for the CPU of the control unit 41 to operate. The CPU of the control unit 41 reads the operation program from the storage unit 42 and operates.
Reference numeral 43 denotes a transmitter, and reference numeral 44 denotes a receiver that receives a base station wave (frequency F1) from the base station 30. However, when direct communication between mobile stations is set by the communication switch of the operation unit 53, the reception unit 44 receives a direct wave (frequency F2) from another mobile station 40. The transmitter 43 and the receiver 44 are collectively referred to as a radio unit. 46 is a transmission / reception switch for switching transmission / reception paths for simultaneous transmission / reception, and 47 is an antenna for performing transmission / reception with the base station 30 and direct communication with other mobile stations 40. The transmission unit 43 and the reception unit 44 are connected to the control unit 41 and the transmission / reception switch 46, respectively.

48 encodes a sound signal input from the microphone 52 or an alarm sound generation unit 56 described later, outputs the encoded signal to the control unit 41, and decodes the sound signal received by the reception unit 44 and output from the control unit 41. An encoding / decoding unit. The voice encoding / decoding unit 48 can be configured by being incorporated in the control unit 41.
Reference numeral 49 denotes a speaker that outputs sound (sound or voice). Reference numeral 56 denotes an alarm sound generator for generating an alarm sound. The speaker 49, together with SW1 described later, constitutes an audio output unit that outputs an alarm sound. The alarm sound generated by the alarm sound generation unit 56 is output as audio from the speaker 49 or input into the audio encoding / decoding unit 48, or can be switched by SW4. This switching is performed according to control from the mobile station control unit 41. The alarm sound input to the voice encoding / decoding unit 48 is wirelessly transmitted as a voice signal from the transmission unit 43 via the control unit 41.

Reference numeral 50 denotes a handset, which includes a receiver 51 that outputs sound, a microphone 52 that inputs sound, an operation unit 53 that receives input from an operator, and a display unit 54 that includes an LCD, an LED, and the like that perform various displays. The operation unit 53 and the display unit 54 are connected to the control unit 41.
The operation unit 53 includes a PTT button for performing a call by PTT (Push To Talk), an end button for ending the call, an emergency button for setting the mobile station 40 in the emergency notification mode, and an emergency notification. It has an emergency notification mode release button for releasing the mode, a communication changeover switch for switching between direct communication between mobile stations and base station communication.

For example, the other party is selected by the operation unit 53, the PTT button is pressed once, and a response is received from the other party to enter a call state. When a voice is input from the microphone 52 while the PTT button is being pressed in a call state, the sound signal is transmitted from the transmission unit 43 as a call signal. When the call end button is pressed in the call state, the call state ends.
Further, the emergency notification mode is entered by pressing the emergency button on the operation unit 53. Details of the emergency notification mode will be described later.

  The speaker 49, the receiver 51, and the microphone 52 are configured to be electrically connected (ON) or disconnected (OFF) to the control unit 41 independently by SW1 to SW3. In the ON state, the audio signal is transmitted from the control unit 41 to the speaker 49 and the receiver 51 via the audio encoding / decoding unit 48, and the audio is output from the speaker 49 and the receiver 51. Also, the audio signal from the microphone 52 is transmitted to the control unit 41 via the audio encoding / decoding unit 48. The variable resistor 55 adjusts the volume output from the receiver 51.

  In the mobile station 40, the audio signal input from the microphone 52 or the alarm sound generation unit 56 is encoded by the audio encoding / decoding unit 48 and subjected to predetermined signal processing for transmission by the control unit 41. , Input to the transmitter 43. The signal input to the transmission unit 43 is subjected to predetermined modulation for transmission, converted to a predetermined transmission frequency F2, and output from the antenna 47 via the transmission / reception switch 46, and is then transmitted to the base station 30 and other mobile stations. 40.

  On the other hand, a radio carrier (frequency F1) from the base station transmitter 33 of the base station 30 and a radio carrier (frequency F2) by direct communication from another mobile station 40 are received by the antenna 47, and the transmission / reception switch 46 is turned on. And input to the receiving unit 44. As described above, the receiving unit 44 is set to receive the radio carrier of either the frequency F1 or the frequency F2 by the communication changeover switch of the operation unit 53. The signal input to the receiving unit 44 is amplified at high frequency, converted into a predetermined intermediate frequency, further demodulated, and supplied to the control unit 41. After predetermined signal processing is performed by the control unit 41, the signal is decoded by the audio encoding / decoding unit 48 and output from the speaker 49 and the receiver 51.

Next, the operation | movement in the emergency alert mode which concerns on embodiment of this invention is demonstrated using FIG. FIG. 4 is a diagram illustrating an operation of the transmission source mobile station in the emergency notification mode according to the embodiment of the present invention.
For example, in the mobile station 40 (5) that is a portable wireless device, when an emergency button on the operation unit 53 is pressed at time tb, the control unit 41 measures an emergency button press time. When the button is continuously pressed for a predetermined time or longer, that is, when the emergency button is pressed for a long time, the emergency notification mode is started at time t0.

In the emergency notification mode, first, an alarm sound is generated by the alarm sound generation unit 56, and the generated alarm sound is transmitted via the voice encoding / decoding unit 48, the control unit 41, the transmission unit 43, and the transmission / reception switch 46. Thus, an alarm sound transmission state in which the antenna 47 wirelessly transmits with an audio signal is entered. Specifically, an audio signal including an alarm sound is wirelessly transmitted following the synchronization signal. The synchronization signal includes the transmission source ID of the mobile station 40 (5) in the emergency notification mode.
In the alarm sound transmission state, the speaker 49 of the mobile station 40 (5) in the emergency notification mode is turned off, and the alarm sound is not output from the speaker 49. This alarm sound transmission state is continued for a first time (for example, about 10 seconds). Also, the mobile station 40 (5) in the emergency notification mode displays on the display unit 54 of its own station that it is in the emergency notification mode. By doing so, for example, when the emergency button is accidentally pressed to enter the emergency notification mode, the user can easily recognize that the user is in the emergency notification mode.

When the other mobile station 40 or command board 10 receives an alarm sound transmitted from the mobile station 40 (5) in the emergency notification mode, the mobile station 40 or the command board 10 moves in the emergency notification mode based on the transmission source ID included in the received synchronization signal. The station 40 (5) is specified, and the individual number and name of the mobile station 40 (5) in the emergency notification mode are displayed on the other mobile stations 40 on the receiving side and the display unit of the command board 10.
In addition, the other mobile station 40 and command board 10 output the received alarm sound from the speaker 49 or the speaker 15 of the own station. Other users of the mobile station 40 and the command board 10 can know that an emergency has occurred in the mobile station 40 (5) in the emergency notification mode by listening to the alarm sound.
Further, when the mobile station 40 in the emergency notification mode is in the alarm sound transmission state, the uplink frequency is occupied as described above, and therefore the other mobile stations 40 are in a transmission prohibited state.

Thereafter, the mobile station 40 (5) in the emergency notification mode stops wireless transmission at the time t1 to end the alarm sound transmission state, switches the SW4, and automatically transmits the alarm sound generated by the alarm sound generating unit 56. A sound output state (speaker output state) in which sound is output from the speaker 49 of the station is entered. This sound output state is continued for a second time (for example, about 10 seconds).
When the mobile station 40 (5) in the emergency notification mode is in the sound output state, the other mobile stations 40 and the command board 10 cannot receive the alarm sound, so that the alarm sound output is stopped. In addition, the other mobile stations 40 that are in the transmission prohibited state in the alarm sound transmission state are released from the transmission prohibited state and returned to a state in which transmission is possible.

  Thus, since the period of the alarm sound transmission state and the period of the sound output state (speaker output state) are not overlapped, the period during which the mobile station 40 in the emergency notification mode outputs the speaker and the period in the emergency notification mode The other mobile stations 40 that have received the alarm sound from the mobile station 40 do not overlap with the period during which the received alarm sound is output from the speaker. Further, since the mobile station 40 in the emergency notification mode is in the alarm sound transmission state before the voice output state, it is easy to search for the mobile station 40 in the emergency notification mode using the alarm sound.

After that, at time t2, the mobile station 40 in the emergency notification mode stops the alarm sound generation from the alarm sound generating unit 56, the speaker is also turned off (that is, SW1 is turned off), and the alarm sound is wirelessly transmitted and the sound output is performed. Enter hibernation mode with both stopped. This resting state is continued for a third time (for example, about 40 seconds).
In the dormant state, each mobile station 40 is in a standby state following the audio output state (speaker output state). By setting the standby state, the mobile station 40 in the emergency notification mode in the emergency notification mode can notify the other mobile stations 40 of a detailed emergency situation through a call. In addition, important communications from other mobile stations 40 can be received by telephone calls. Therefore, it is desirable to set a time during which such an operation is possible during the hibernation period.

  In addition, when the mobile station 40 in the emergency notification mode is in communication with the other mobile stations 40 in the dormant state, when the third time (for example, about 40 seconds) in the dormant state ends, The mobile station 40 is configured to automatically forcibly terminate a call with another mobile station 40 and enter an alarm sound transmission state. By doing so, it is possible to reliably perform alarm sound transmission and alarm sound speaker output.

  Further, when the mobile station 40 in the emergency notification mode receives a voice signal from the other mobile station 40 in the dormant state, that is, when the other mobile station 40 presses the PTT button, the mobile station in the emergency notification mode. 40 outputs a warning sound from the speaker 49 of its own station for 10 seconds, for example, regardless of the content of the received audio signal. By doing so, it is easy for the other mobile stations 40 to search for the mobile station 40 in the emergency notification mode, that is, for the mobile users of the other mobile stations 40 to search for the mobile user of the mobile station 40 in the emergency notification mode. It becomes. At this time, it is preferable to output an alarm sound from the speaker after reception of the audio signal from the other mobile station 40 is completed. By carrying out like this, the carrier of the mobile station 40 in emergency notification mode can listen to the sound from the other mobile stations 40.

After that, at time t3, the alarm sound generation from the alarm sound generating unit 56 of the mobile station 40 in the emergency notification mode is started, and SW4 is switched, and the alarm sound generated by the alarm sound generating unit 56 is encoded / voiced. The signal is input to the decoding unit 48 and enters the alarm sound transmission state again.
In this way, the alarm sound transmission state, the sound output state, and the pause state are repeated in this order. This operation is repeated until the emergency notification mode ends. The emergency notification mode ends when the emergency button is pressed for a long time in the mobile station 40 in the emergency notification mode, that is, continuously pressed for a predetermined time or more.
The mobile station 40 in the emergency notification mode occupies the radio line by repeating the alarm sound transmission state, the speaker output state, and the hibernation state, in particular, by providing the sleep state in addition to the alarm sound transmission state and the speaker output state. In addition, it is possible to suppress the rapid consumption of the battery of the mobile station 40 during the emergency notification mode.

According to the present embodiment, at least the following effects (1) to (8) can be obtained.
(1) Since the alarm sound transmission state, the sound output state of the alarm sound (speaker output state), and the dormant state are repeated, the mobile station in the emergency notification mode does not use the wireless line compared to the case where no dormant state is provided. Occupying and rapid battery consumption of the mobile station in the emergency notification mode can be suppressed.
(2) After pressing the emergency button, the alarm sound is transmitted first and then the voice output state is established. Therefore, the mobile station and command board are notified more quickly that the local station is in an emergency state. Can do.
(3) The period of the alarm sound transmission state and the period of the voice output state do not overlap, and in the alarm sound transmission state, the sound is not output from the mobile station in the emergency notification mode, and the alarm sound is sounded from other mobile stations, In the voice output state, the mobile station in the emergency notification mode is output as a sound and the alarm sound is not sounded from other mobile stations. It becomes easy for mobile users of mobile stations to discover.
(4) Since the mobile station in the emergency notification mode is in a standby state capable of receiving a call from another mobile station and transmitting a call to another mobile station at least in a dormant state, A mobile station carrier in the emergency notification mode can notify the other mobile stations and the like of the detailed status of the emergency state by calling. In addition, the mobile station carrier in the emergency notification mode can receive important communications from other mobile stations by telephone.
(5) When the mobile station in the emergency notification mode is in a suspended state and is in a call with another mobile station, the mobile station automatically forcibly terminates the call with the other mobile station and enters an alarm sound transmission state. Since it comprised, alarm sound transmission and audio | voice output can be performed reliably.
(6) Since the mobile station in the emergency notification mode is configured to output a warning sound regardless of the destination of the voice signal received in the dormant state, the mobile station and the mobile phone in which the other party is in the emergency notification mode. It becomes easy to search for a person.
(7) When the mobile station in the emergency notification mode receives a voice signal from another mobile station or command board in a dormant state, it outputs a warning sound after completing reception of the voice signal from the other mobile station. Thus, the voices from other mobile stations and command boards can be surely heard in the dormant state.
(8) Since the mobile station in the emergency notification mode is configured to transmit the sound signal of the alarm sound and the transmission source ID, the mobile station used in the present embodiment conforms to the digital communication system standard ARIB STD-T61. When belonging to a compliant wireless communication system, for example, an SCPC digital wireless communication system, for example, even if the manufacturer is between mobile stations of different wireless communication systems, there is a possibility of being able to notify each other that the local stations are in an emergency state Becomes larger.

In addition, this invention is not limited to the said embodiment, It cannot be overemphasized that it can change variously in the range which does not deviate from the summary.
In the embodiment, after the emergency notification mode is started, the alarm sound transmission state, the sound output state, and the sleep state are executed in this order. However, the order is changed, for example, the sound output state, the alarm sound transmission state, and the sleep state are executed in this order. It is also possible to constitute so.
In the embodiment, the mobile station in the emergency notification mode is set in the standby state in the voice output state (speaker output state) or in the sleep state. However, the mobile station can be configured not to enter the standby state. . Alternatively, it may be configured not to enter the standby state in the voice output state but to enter the standby state in the pause state.
Further, in the embodiment, when the mobile station in the emergency notification mode is in a sleep state and the sleep state ends during a call with another mobile station, the call with the other mobile station is automatically forcibly terminated and an alarm sound is transmitted. Although it is configured to enter the state, it may be configured such that the suspension state is not forcibly terminated during a call with another mobile station.

In the above embodiment, the mobile station in the emergency notification mode is configured to output an alarm sound when receiving a voice signal from another mobile station in a dormant state regardless of the destination of the received voice signal. However, it is possible not to have such a configuration.
In the embodiment, when a mobile station in the emergency notification mode receives a voice signal from another mobile station in a dormant state, the mobile station outputs a warning sound after receiving the voice signal from the other mobile station. However, it is also possible to configure so as to output an alarm sound while receiving an audio signal from another mobile station.

In addition, the present invention is understood not only as an apparatus for executing the processing according to the present invention, but also as a system, a method, a program for realizing such a method or system, a recording medium for recording the program, or the like. can do.
Further, the present invention may be configured such that the CPU performs control by executing a control program stored in a memory, or may be configured as a hardware circuit.

The present specification includes at least the following configurations regarding the present invention.
The first configuration is
A wireless unit that transmits and receives wireless audio signals to and from other wireless devices; and
An alarm sound generator for generating an alarm sound;
A voice output unit that outputs a warning sound generated by the warning sound generation unit;
An operation unit that receives input from the operator;
A control unit that controls the radio unit, the alarm sound generation unit, the audio output unit, and the operation unit;
When the controller receives an emergency notification mode start instruction from the operator through the operation unit, the control unit wirelessly transmits an alarm sound from the alarm sound generation unit as an audio signal from the radio unit, but outputs an audio from the audio output unit. No alarm sound transmission step, an audio output step for outputting an alarm sound from the alarm sound generator from the audio output unit but not wirelessly transmitting from the radio unit, an alarm sound transmission from the radio unit and the audio output And a pause step in which no audio output from the unit is performed.
Here, the audio signal is a signal obtained by converting a sound or a human voice, and is distinguished from, for example, a data signal obtained by converting characters and numbers.

The second configuration is the mobile station radio in the first configuration,
After receiving the emergency notification mode start instruction by the operation unit, the mobile station radio is executed in the order of the alarm sound transmission step, the voice output step, and the pause step.

The third configuration is a mobile station radio in the first configuration or the second configuration,
In the pause step, the mobile station radio is set in a standby state in which a call can be made with another radio.

The fourth configuration is a mobile station radio in the third configuration,
A mobile station radio that automatically forcibly terminates a call with another mobile station during the call when the pause step ends during a call with another mobile station during the pause step.

The fifth configuration is a mobile station radio in the third configuration or the fourth configuration,
When a voice signal from another mobile station is received in the pause step, a warning sound from the warning sound generation unit is output from the voice output unit.

The sixth configuration is a mobile station radio in the fifth configuration,
A mobile station radio that outputs a warning sound from the warning sound generation unit from the voice output unit after reception of a voice signal from another mobile station in the pause step.

  1 .... Communication zone, 4 .... Transmission path, 5 .... Transmission path, 10 .... Command board, 11 .... Command board control section, 12 .... Command board storage section, 13 .... Command board display section, 14 .. · Command console operation unit, 15 · · Speaker, 16 · · Microphone, 20 · · Line control device, 21 · · Line control device control unit, 22 · · Line control device storage unit, 30 · · Base station, · · · Base station control unit 32.. Base station storage unit 33 33 Base station transmission unit 34 Base station reception unit 40 Mobile station 41 Mobile station control unit 42 Mobile station storage unit , 43 .. Transmitter, 44 .. Receiver, 46 .. Transmission / reception switch, 47 .. Antenna, 48 .. Audio encoding / decoding unit, 49 .. Speaker, 50 .. Handset, 51. , 52, microphone, 53, mobile station operation unit, 54, mobile station display unit, 55, variable resistance, 5 ... warning sound generating unit.

Claims (2)

A wireless unit that transmits and receives wireless audio signals to and from other wireless devices; and
An alarm sound generator for generating an alarm sound;
A voice output unit that outputs a warning sound generated by the warning sound generation unit;
An operation unit that receives input from the operator;
A control unit that controls the radio unit, the alarm sound generation unit, the audio output unit, and the operation unit;
When the controller receives an emergency notification mode start instruction from the operator through the operation unit, the control unit wirelessly transmits an alarm sound from the alarm sound generation unit as an audio signal from the radio unit, but outputs an audio from the audio output unit. No alarm sound transmission step, an audio output step for outputting an alarm sound from the alarm sound generator from the audio output unit but not wirelessly transmitting from the radio unit, an alarm sound transmission from the radio unit and the audio output And a pause step in which no audio output from the unit is performed at predetermined times, respectively . The mobile station radio according to claim 1,
In the pause step, the mobile station radio is set in a standby state in which a call can be made with another radio.

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