JP2004134863A - Wireless talking apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow a passenger freely moving about to switch over the talking parties or listening objects and to recognize the present talking party or the listening object. <P>SOLUTION: The wireless talking apparatus is capable of communicating with terminal units 3a, 3b for generating slave unit information Drc for identifying the radio slave units 2a, 2b and switching select information Dct for the radio slave units 2a, 2b, and the terminal units 3a, 3b are capable of wirelessly transmitting/receiving signals to/from the slave units 2a, 2b. It comprises a talking signal controller 4 which is configured to communicate with the terminal units 3a, 3b, updates and stores the switching select information Dct related to the slave unit information Drc, and transfers audio signals to be transmitted/received between the radio slave unit 2a and radio apparatus 5, 6, etc., based on the switching select information Dct. Upon input of the slave unit information Drc, the controller 4 reads the switching select information Dct corresponding to the information Drc to output information to the terminal units 3a, 3b, and each of units 3a, 3b displays the switching select information Dct outputted from the controller 4 on a display. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides a plurality of wireless slaves, a plurality of terminal devices that generate handset information for specifying the wireless handset and switching selection information for the specified wireless handset, and a plurality of terminal devices based on the handset information and the switching selection information. The present invention relates to a wireless communication device including a communication signal controller for transferring an audio signal transmitted and received between each of the wireless communication devices and at least one of a plurality of external devices and another wireless communication device. .
[0002]
[Prior art]
As this type of wireless communication device, a wireless communication device 91 used by passengers of a large helicopter or a cargo aircraft is conventionally known. As shown in FIG. 4, the wireless communication device 91 includes a plurality of (two as an example in the figure) wireless slave units 92a and 92b (hereinafter, also referred to as "wireless slave units 92" unless otherwise distinguished). In the figure, two terminal devices (for example, switch panels) 93a and 93b (hereinafter also referred to as “switch panel 93” unless otherwise distinguished), and an interaction signal controller (two corresponding to each wireless slave 92) 94 is provided. Further, for example, a first wireless device 5, a second wireless device 6, a navigation device 7, and an alarm device 8 are connected to the wireless communication device 91 as external devices. In addition, the wireless communication device 91 communicates with each other between the wireless terminals 92 and 92, between each of the wireless devices 5 and 6 and the wireless terminal 92a, and 6 and the wireless handset 92b are configured to be able to communicate with each other, and are also configured so that each wireless handset 92 can monitor various signals output by the external device.
[0003]
Each wireless slave device 92 includes a headset in which headphones and a microphone are integrated, and a wireless device (both not shown), respectively, and communicates with a corresponding transmission / reception unit provided in an interaction signal controller 94. , So that wireless communication (wireless communication) is possible. Each wireless slave 92 is configured to be worn by a passenger and usable.
[0004]
Each switch panel 93a, 93b is provided corresponding to each wireless slave device 92a, 92b. Each switch panel 93 is provided with a plurality of setting switches (not shown). The setting switches are used to select the switching selection information Dct1 and Dct2 (hereinafter, unless otherwise distinguished) of the corresponding wireless handsets 92a and 92b. “Switch selection information Dct”). In this case, each switching selection information Dct is used to identify the wireless device and other wireless slaves selected as the target of transmission and reception by the passenger, and to specify the external device selected as the target of the reception by the passenger. Information. Further, each switch panel 93 has a function of outputting the switching selection information Dct set by the setting switch to the conversation signal controller 94.
[0005]
The communication signal controller 94 includes two transmitting / receiving units 95a and 95b provided corresponding to the respective wireless handsets 92a and 92b, and a communication interface unit provided corresponding to the respective switch panels 93a and 93b. (Hereinafter, “communication I / F section”) 96 a and 96 b and a selection / synthesis section 97. In this case, each transmission / reception unit 95 is configured to be able to wirelessly transmit and receive a voice signal transmitted / received by each passenger to / from the corresponding wireless slave device 92. Specifically, the transmission / reception units 95a and 95b receive the audio signals transmitted by the corresponding wireless slave devices 92a and 92b, and output the audio signals as Sct1 and Sct2, respectively. Further, the transmission / reception units 95a and 95b transmit the input audio signals Scr1 and Scr2 to the wireless handsets 92a and 92b, respectively. The communication interface units 96a and 96b input the switching selection information Dct1 and Dct2 output by the corresponding switch panels 93a and 93b, respectively, and transmit the switching information Dct1 and Dct2 for the wireless slave device 92a based on the switching selection information Dct1 and Dct2. The selection data Dt1 for speech and the selection data Dr1 for reception, the selection data Dt2 for transmission and the selection data Dr2 for reception for the wireless slave device 92b are respectively output.
[0006]
As shown in FIG. 5, the selection synthesis section 97 includes two reception selection sections 97a and 97b, two transmission selection sections 97c and 97d, two reception synthesis sections 97e and 97f, and two transmission synthesis sections 97g and 97g. 97h. The selection / synthesis unit 97 includes the audio signals Sr1 and Sr2 output by the wireless devices 5 and 6, the audio signal Sr3 output by the navigation device 7, the audio signal Sr4 output by the alarm device 8, and the transmission / reception units 95a, The audio signals Sct1 and Sct2 output by the communication interface 95b are input, and the input audio signals are selected and mixed based on the selection data Dt1, Dt2, Dr1, and Dr2 output by each communication I / F unit 96. Outputs various audio signals.
[0007]
Specifically, each of the receiving selection units 97a and 97b receives the audio signals Sr1 to Sr4, Sct1 and Sct2, respectively, and selects and outputs the audio signals based on the corresponding selection data Dr1 and Dr2. Each of the transmission selection units 97c and 97d receives the audio signals Sct1 and Sct2, respectively, and selects and outputs the audio signals based on the corresponding selection data Dt1 and Dt2. Each of the reception synthesis units 97e and 97f receives the audio signals selected by the corresponding reception selection units 97a and 97b, mixes (inputs) the input audio signals, and outputs them as audio signals Scr1 and Scr2. . Similarly, the transmission synthesis sections 97g and 97h input the audio signals selected by the corresponding transmission selection sections 97c and 97d, respectively, and mix (addition processing) the input audio signals to generate the audio signals St1 and St1. Each is output as St2.
[0008]
In the wireless communication device 91, each occupant wearing the wireless slave units 92a and 92b operates the setting switches of the switch panels 93a and 93b designated in advance (corresponding to the wireless slave unit 92 being worn). By doing so, a radio device to be transmitted and received and other radio devices are selected, and an external device to be received is selected. Each switch panel 93 exchanges information on the wireless device selected by the passenger as a target of transmission / reception and other wireless slave devices and information on an external device selected by the passenger as a target of reception as switching selection information Dct. The signal is output to each communication I / F section 96 of the signal controller 94. Each communication I / F section 96 generates and outputs transmission selection data Dt1 (Dt2) and reception selection data Dr1 (Dr2) for wireless slave device 92 based on switching selection information Dct. The receiving selectors 97a and 97b respectively select an audio signal to be received from the audio signals Sr1, Sr2, Sr3 and Sr4 and the audio signals Sct1 and Sct2 based on the selection data Dr1 and Dr2, and correspond to the corresponding receiving synthesizer 97e. , 97f. The reception synthesis units 97e and 97f mix the audio signals selected by the reception selection units 97a and 97b to generate audio signals Scr1 and Scr2, respectively, and output them to the transmission / reception units 95a and 95b. The transmission / reception units 95a and 95b wirelessly transmit the input audio signals Scr1 and Scr2 to the corresponding wireless handsets 92a and 92b. Thereby, each wireless slave device 92 can input the audio signal output by the wireless device selected as the target of transmission / reception and further the external device selected as the target of reception. In addition, each wireless slave device 92 can communicate with another wireless slave device selected as a transmission / reception target.
[0009]
On the other hand, the transmission selection units 97c and 97d of the interchange signal controller 94 select and correspond to the audio signals to be transmitted from the audio signals Sct1 and Sct2 based on the transmission selection data Dt1 and Dt2. Output to the transmission synthesis units 97g and 97h. The transmission synthesis units 97g and 97h mix the audio signals selected by the transmission selection units 97c and 97d to generate audio signals St1 and St2, respectively, and output them to the wireless devices 5 and 6. Thereby, each wireless slave device 92 can transmit an audio signal to the wireless device selected as a target of transmission / reception. Therefore, each occupant wearing each wireless slave device 92 can wirelessly communicate with the wireless device selected as a target of transmission / reception and another wireless slave device 92, and can control the external device selected as a target of reception. Various audio signals output by the CPU can be monitored.
[0010]
In this way, according to the wireless communication device 91, each passenger operates the setting switches of the switch panel 93 specified in advance, thereby setting the wireless devices 5, 6 and the other wireless slave devices 92. The user can arbitrarily select and communicate wirelessly, and can arbitrarily select an external device such as the navigation device 7 or the alarm device 8 to monitor various signals output by the external device. In other words, each occupant can arbitrarily switch between the conversation target and the reception target by operating the setting switch of the switch panel 93.
[0011]
[Patent Document 1]
JP-A-7-59144 (pages 8-9)
[0012]
[Problems to be solved by the invention]
However, the conventional wireless communication device 91 has the following problems. That is, in the wireless communication device 91, since the wireless handset 92 is wireless, the occupant moves away from the switch panel 93 with the wireless handset 92 attached, and freely moves around with the selected communication partner. It is possible to talk and listen to various signals output by the selected external device. However, when switching between the conversation partner and the subject to be listened, the passenger must return to the installation location of the switch panel 93 designated for himself and operate the setting switch of the switch panel 93, which is extremely inconvenient. There is a problem that there is. Also, when the passenger checks the current conversation partner and the target to be listened, it is necessary to return to the installation location of the switch panel 93 designated for himself and check the setting state of the setting switch, similarly. There is also a problem that it is extremely inconvenient.
[0013]
The present invention has been made in view of such a problem, and enables a passenger to move around freely, switch between a talker and a target to be listened to, and furthermore, can confirm a current talker and a target to be listened to wirelessly. The main purpose is to provide a communication device.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, a wireless communication device according to the present invention includes a plurality of wireless slaves, slave information for specifying any one of the slaves, and switching to the identified wireless slave. A plurality of terminal devices for generating and outputting selection information, and a plurality of transmission / reception units arranged corresponding to the respective wireless slaves so that audio signals can be wirelessly transmitted and received to and from the respective wireless slaves. And configured to be communicable with each of the terminal devices, and when the slave device information and the switch selection information output by each of the terminal devices are input, the switch selection information corresponds to the slave device information. Update and store, and pass an audio signal transmitted and received between each of the wireless slaves and at least one of the plurality of external devices and the other wireless slaves based on the updated and stored switching selection information. A communication signal controller, wherein the communication signal controller reads the switching selection information corresponding to the slave device information when the slave device information output by the terminal device is input. Each of the terminal devices includes a display unit and causes the display unit to display the switching selection information output by the conversation signal controller.
[0015]
In the wireless communication device according to the present invention, in the wireless communication device, each of the terminal devices detects a wireless channel having a maximum electric field strength among wireless channels allocated to the plurality of wireless handsets. And a field strength measurement unit for generating the slave unit information of the wireless slave unit to which the wireless channel is assigned.
[0016]
Also, in the wireless communication device according to the present invention, in the wireless communication device, the communication signal controller is provided corresponding to each of the transmitting and receiving units, and is included in the audio signal received by the transmitting and receiving unit. A voice recognition unit that extracts the switching selection information that has been extracted, and when the switching selection information is extracted by the voice recognition unit, the wireless slave unit that transmitted the audio signal from which the switching selection information was extracted. The slave unit information is generated, and the generated slave unit information and the extracted switching selection information are updated and stored.
[0017]
Further, in the wireless communication device according to the present invention, in the wireless communication device, each of the terminal devices is connected to the communication signal controller via a first communication cable, and each of the wireless handsets is The first communication cable is configured to be connectable to any one of the plurality of terminal devices via a second communication cable, and is connected to the terminal device via the second communication cable. And passing the voice signal to and from the communication signal controller via the arbitrary terminal device and the second communication cable.
[0018]
In the wireless communication device according to the present invention, in the wireless communication device, each of the terminal devices can detect connection of the second communication cable and output a detection signal to the communication signal controller. When the communication signal controller is inputting the detection signal, the wireless communication device is connected to the terminal device outputting the detection signal via the second communication cable. Of the audio signal is switched to the wired communication via the first communication cable, the terminal device, and the second communication cable in place of the wireless communication.
[0019]
Further, the wireless communication device according to the present invention, in the wireless communication device, further includes a human body detection unit disposed in each of the terminal devices or in the vicinity thereof, the display unit of each of the terminal devices, The display operation is performed only when the human body is detected by the corresponding human body detection unit.
[0020]
Further, in the wireless interaction device according to the present invention, in the wireless interaction device, the interaction signal controller includes a voice synthesis unit, and generates a voice signal indicating the content of the switching selection information in the voice synthesis unit. At the same time, the generated audio signal is transmitted via the transmitting / receiving unit provided corresponding to the wireless slave device corresponding to the switching selection information.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a preferred embodiment in which a wireless communication device according to the present invention is applied to an ICS (inter communication system) used in an aircraft will be described with reference to the accompanying drawings. Note that the same components as those of the conventional wireless communication device 91 are denoted by the same reference numerals, and redundant description will be omitted.
[0022]
As shown in FIG. 1, the wireless communication device 1 includes a plurality (two as an example) of wireless slave devices 2 a and 2 b (hereinafter, also referred to as “wireless slave devices 2” unless otherwise distinguished), a plurality (wireless wireless devices 2 as an example). Terminal devices 3a and 3b (same number as the slave units) (hereinafter, also referred to as "terminal device 3" unless otherwise distinguished), and an interaction signal controller 4. In addition, for example, a first wireless device 5, a second wireless device 6, a navigation device 7, and an alarm device 8 are connected to the wireless communication device 1 as external devices.
[0023]
Each wireless slave device 2 includes a headset and a wireless device (both not shown) in which a headphone and a microphone are integrated, and a corresponding transmitting / receiving unit (described later) provided in the interaction signal controller 4. It is configured to be able to communicate using a wireless communication channel (for example, a frequency channel) using a predetermined radio wave, infrared light, or the like. Also, different wireless channels (frequency, time slot, modulation code, etc.) C1 and C2 (hereinafter, also referred to as “wireless channel C” unless otherwise distinguished) are assigned to the respective wireless handsets 2a and 2b. Each of the wireless slaves 2 is configured to periodically transmit on the assigned wireless channel C, and all wireless slaves 2a and 2b perform transmission within a fixed time. In this case, the wireless channel C does not necessarily need to be associated with wireless communication performed between each wireless slave device 2 and the talk signal controller 4 for transmitting and receiving a voice signal. That is, transmission and reception of the audio signal may be performed on the wireless channel C, or may be performed on a channel completely different from the wireless channel C. Further, each wireless slave device 2 includes a second communication cable CB, and is configured to be connectable to a later-described wireless slave device I / F unit provided in each terminal device 3 via the second communication cable CB. ing. Each wireless client 2 reproduces the audio signal Sbr input from the terminal device 3 via the second communication cable CB with the headphones, converts the audio captured by the microphone into the audio signal Sbt, and connects the second communication cable CB. It has a function of outputting to the terminal device 3 via the terminal.
[0024]
As shown in FIG. 2, each terminal device 3 includes a switch panel 31, an electric field strength measurement unit 32, a slave unit information generation unit 33, a human body detection unit 34, a display unit 35, and a wireless slave unit interface unit (hereinafter, “wireless unit”). A slave unit I / F unit) 36 and a communication signal controller communication interface unit (hereinafter also referred to as a "speaker communication I / F unit") 37 via a first communication cable CA. Each is connected to the conversation signal controller 4.
[0025]
In this case, the switch panel 31 is provided with a plurality of setting switches (not shown), and by using the setting switches, any one of the wireless slaves 2 is selected and selected. The switching selection information Dct for the wireless slave device 2 is settable. The switch panel 31 also generates the slave unit information Drc1 of the selected wireless slave unit 2 and outputs it to the slave unit information generation unit 33, and also outputs the switching selection information Dct to the communication unit communication I / F unit 37. I do.
[0026]
The electric field strength measuring unit 32 receives a radio wave periodically transmitted by each wireless handset 2 on the wireless channel C, searches for the wireless channel C having the strongest received electric field strength within the above-mentioned fixed time, The wireless slave 2 to which the strongest wireless channel C is assigned is detected as the closest wireless slave 2. In addition, the electric field strength measuring unit 32 generates the slave unit information Drc2 of the detected closest wireless slave unit 2 and outputs it to the slave unit information generation unit 33. If the wireless channel C is configured independently of the transmission / reception channel of the audio signal at the time of detection of the wireless handset 2, the transmission power of the wireless channel C is reduced so that the terminal device 3 closest to the wireless handset 2 can receive the signal. The difference between the electric field intensity and the electric field intensity at the other terminal device 3 can be further increased, and the detection of the wireless client 2 by the electric field intensity measuring unit 32 can be performed with higher accuracy. Note that, instead of the configuration in which the electric field strength measurement unit 32 is provided integrally with each terminal device 3, a configuration in which the electric field strength measurement unit 32 is disposed close to the outside of the corresponding terminal device 3 can be adopted.
[0027]
The slave unit information generating unit 33 normally outputs the slave unit information Drc2 generated by the electric field strength measuring unit 32 to the communication unit communication I / F unit 37 as the slave unit information Drc. On the other hand, the slave unit information generating unit 33 outputs the slave unit information Drc1 as the slave unit information Drc only when the switch panel 31 generates the slave unit information Drc1 by operating the setting switch.
[0028]
The human body detection unit 34 is configured using an infrared sensor, an ultrasonic sensor, or the like, and detects whether or not a human is present in the vicinity of the terminal device 3 constantly or at predetermined time intervals. The human body detecting section 34 generates a detection signal Sd when detecting the presence of a human. In addition, instead of the configuration in which the human body detection unit 34 is provided integrally with each terminal device 3, a configuration in which the human body detection unit 34 is disposed close to the outside of the corresponding terminal device 3 can be adopted.
[0029]
The display unit 35 is configured by means capable of displaying a selected state, such as a lamp or LED with a name, an illuminated push button switch, or a display such as a liquid crystal display, and has a function of displaying the contents of the input display data Dd. I have. In addition, the display unit 35 is configured to perform the display operation only when the detection signal Sd generated by the human body detection unit 34 is being input, that is, only when there is a human in the vicinity. With this configuration, the display operation of the display unit 35 can be automatically stopped when a person who looks at the display contents of the display unit 35 is not near the terminal device 3, resulting in reduction of unnecessary power consumption. In addition, power consumption in the terminal device 3 can be reduced.
[0030]
The wireless handset I / F unit 36 is configured to be connectable to any one of the wireless handset 2 via the second communication cable CB, and receives audio input via the communication unit communication I / F unit 37. The signal Sbr is output to the wireless communication device 2 via the second communication cable CB, and the audio signal Sbt output by the wireless communication device 2 is input via the second communication cable CB to output the communication I / F for the handset. It has a function of outputting to the unit 37. Further, the wireless slave device I / F unit 36 functions as a connection detecting unit, detects whether or not the second communication cable CB is connected, and generates a connection signal Sco when the second communication cable CB is connected. And outputs it to the communication device communication I / F unit 37. As an example, a contact is provided in a receptacle (not shown) in the I / F unit 36 for a wireless slave unit that fits with a plug (not shown) of the second communication cable CB, and the contact is formed by the plug inserted into the receptacle. A configuration in which the connection signal Sco is generated by being pressed and closed can be employed.
[0031]
The communication I / F unit 37 for the talker is connected to a corresponding communication I / F unit for a terminal (to be described later) in the talk signal controller 4 via the first communication cable CA, and outputs a speech signal Sbt or the like. It transfers various signals and various data such as slave unit information Drc.
[0032]
As shown in FIG. 1, the communication signal controller 4 includes transmission / reception units 41a and 41b (hereinafter, also referred to as “transmission / reception unit 41” when not distinguished), and terminal communication interface units 42a, 42b (hereinafter, when not distinguished) Terminal communication I / F section 42), voice recognition sections 43a and 43b (hereinafter also referred to as "voice recognition section 43" when not distinguished), and voice synthesis sections 44a and 44b (hereinafter referred to as "voice synthesis" when not distinguished). Unit 44), slave unit information output units 45a and 45b (hereinafter, also referred to as "slave unit information output unit 45" when not distinguished), a selection / synthesis unit 46, and an information control unit 47.
[0033]
In this case, the same number of transmission / reception units 41 are provided as the number of the wireless slaves 2 corresponding to the respective wireless slaves 2. Specifically, a transmitting / receiving unit 41a is provided corresponding to the wireless handset 2a, and a transmitting / receiving unit 41b is provided corresponding to the wireless handset 2b. Wireless communication is possible. In this case, the transmission / reception units 41a and 41b receive the radio waves (or infrared rays or the like) transmitted by the corresponding wireless handset 2 and output the audio signals Sct1 and Sct2, respectively. In addition, the transmission / reception units 41a and 41b receive the synthesized voice signals Syr1 and Syr2 generated by the voice synthesis units 44a and 44b and the voice signals Scr1 and Scr2 selectively synthesized by the selection synthesis unit 26, respectively. It transmits to the wireless handset 2 by radio.
[0034]
The terminal communication I / F units 42 are provided in the same number as the terminal devices 3 (two as an example) corresponding to each terminal device 3. Specifically, a terminal communication I / F unit 42a is provided corresponding to the terminal device 3a, and a terminal communication I / F unit 42b is provided corresponding to the terminal device 3b. Further, each terminal communication I / F unit 42 is connected to the corresponding communication device communication I / F unit 37 of the terminal device 3 by the first communication cable CA, and various signals such as an audio signal Sbt and child signals. Transfers various data such as machine information Drc. In addition, the terminal communication I / F unit 42 outputs the input various signals and data to the corresponding components in the interaction signal controller 4.
[0035]
The voice recognition unit 43 is provided for each transmission / reception unit 41 as an example. Specifically, a voice recognition unit 43a is provided corresponding to the transmission / reception unit 41a, and a voice recognition unit 43b is provided corresponding to the transmission / reception unit 41b. The voice recognition units 43a and 43b receive the voice signals Sct1 and Sct2 output by the corresponding transmission / reception units 41a and 41b, and extract voices related to the switching selection information Dct included in the voice signals Sct1 and Sct2. The switching selection information Dct is generated. Instead of providing the voice recognition unit 43 for each transmission / reception unit 41, only one voice recognition unit 43 common to the transmission / reception units 41 is provided, and the voice output by the transmission / reception units 41a and 41b is provided. It is also possible to adopt a configuration in which the signals Sct1 and Sct2 are temporarily stored in a memory or the like, and the switching selection information Dct included in the stored audio signals Sct1 and Sct2 is extracted by the common audio recognition unit 43.
[0036]
The voice synthesis unit 44 is provided for each transmission / reception unit 41. Specifically, a voice synthesis unit 44a is provided corresponding to the transmission / reception unit 41a, and a voice synthesis unit 44b is provided corresponding to the transmission / reception unit 41b. Each of the voice synthesis units 44a and 44b receives information such as the switching selection information Dct output by the information control unit 47 and generates synthesized voice signals Syr1 and Syr2 representing the information. Instead of providing the voice synthesizing unit 44 for each transmitting / receiving unit 41, only one voice synthesizing unit 44 is provided for each transmitting / receiving unit 41, and the common voice synthesizing unit 44 uses the synthesized voice signal Syr1, A configuration in which Syr2 is generated and output to the transmission / reception units 41a and 41b may be employed.
[0037]
The slave unit information output unit 45 is provided for each transmission / reception unit 41. Specifically, a slave unit information output unit 45a is provided corresponding to the transmission / reception unit 41a, and a slave unit information output unit 45b is provided corresponding to the transmission / reception unit 41b. Each of the slave unit information output units 45a and 45b inputs the switching selection information Dct extracted by the voice recognition units 43a and 43b, and outputs the switching selection information Dct output by the corresponding terminal device 3 to the terminal communication I / F unit. The switching selection information Dct is output to the information control section 47 together with the corresponding child device information Drc. In this case, when the switching selection information Dct is input from the voice recognition unit 43, the slave unit information output unit 45 generates the slave unit information Drc of the wireless slave unit 2 that communicates with the corresponding transmission / reception unit 41, The slave unit information Drc is output to the information management unit 47 together with the switching selection information Dct. The generation of the slave unit information Drc becomes possible because the transmission / reception unit 41 is provided corresponding to each wireless slave unit 2. On the other hand, when the switching selection information Dct is input from the terminal communication I / F unit 42, the slave unit information output unit 45 outputs the slave unit information Drc output simultaneously from the terminal communication I / F unit 42 to this. The information is output to the information control section 47 together with the switching selection information Dct.
[0038]
As shown in FIG. 3, the selection and synthesis unit 46 includes four reception selection units 46a to 46d, two transmission selection units 46e and 46f, four reception synthesis units 46g to 46j, and two transmission synthesis units 46k and 46k. 46m. The selection / synthesis unit 46 includes the audio signals Sr1 and Sr2 output by the wireless devices 5 and 6, the audio signal Sr3 output by the navigation device 7, the audio signal Sr4 output by the alarm device 8, and the transmission / reception units 41a and 41b. Audio signals Sct1 and Sct2 output by the terminal and the audio signal Sbt output by each terminal communication I / F unit 42 (the audio signal Sbt from the terminal communication I / F unit 42a is Sbt1 and the terminal communication I / F The audio signal Sbt from the unit 42b is input as Sbt2) and these input audio signals are converted into the selection data Dr1, Dr2, Dbr1, Dbr2, Dt1, Dt2 (hereinafter, unless otherwise distinguished) generated by the information control unit 47. Selection and mixing based on “selection data D”), and audio signals for wireless reception to each wireless handset 2 cr1 and Scr2, audio signals Sbr1 and Sbr2 for wired reception for each wireless handset 2, audio signal St1 for transmission to first radio device 5, and audio signal St2 for transmission to second radio device 6 are generated. I do.
[0039]
Specifically, each of the receiving selection units 46a to 46d receives the audio signals Sr1 to Sr4, Sct1, Sct2 and the audio signals Sbt1, Sbt2, respectively, and outputs the audio based on the corresponding selection data Dr1, Dr2, Dbr1, Dbr2. Select and output a signal. Each of the transmission selecting units 46e and 46f receives the audio signals Sct1 and Sct2 and the audio signals Sbt1 and Sbt2, respectively, and selects and outputs an audio signal based on the corresponding selection data Dt1 and Dt2. On the other hand, the reception synthesis units 46g to 46j input the audio signals selected by the corresponding reception selection units 46a to 46d, respectively, and perform mixing (addition processing) to obtain the audio signals Scr1 and Scr2 and the audio signals Sbr1 and Sbr2, respectively. Output. Similarly, the transmission synthesis units 46k and 46m input the audio signals selected by the corresponding transmission selection units 46e and 46f, perform mixing (addition processing), and output the audio signals St1 and St2, respectively. .
[0040]
As an example, the information control section 47 is configured using a CPU and a memory (both not shown), and as shown in FIG. 1, the slave unit information Drc output by each slave unit information output section 45 and the switching selection. The information Dct is input and updated and stored in the memory in association with the information Dct. Therefore, the information supervision unit 47 is configured to be able to recognize the latest switching selection information Dct of each wireless slave 2 by searching the data stored in the memory with the slave information Drc. In addition, the information control section 47 sends the selection / combination section 46 to the selection / combination section 46 based on the stored switching selection information Dct for each slave unit information Drc and the presence or absence of the input of the connection signal Sco from each terminal communication I / F section 42. The selection data Dt1, Dt2, Dr1, Dr2, Dbr1, and Dbr2 are generated. These pieces of selection data D specify the communication target and the reception target of the wireless handset 2 specified by the handset information Drc associated with the switching selection information Dct. In addition, when the slave unit information Drc output by each terminal device 3 is input through the corresponding slave unit information output unit 45, the information control unit 47 switches the switching selection information Dct corresponding to the slave unit information Drc. Is read from the memory and output to the corresponding terminal communication I / F unit 42 as display data Dd.
[0041]
Next, the operation of the wireless communication device 1 will be described.
[0042]
In the wireless communication device 1, a passenger wearing the wireless handset 2 can freely select whether to perform communication with the communication signal controller 4 by wireless (wireless) communication or by wired communication. can do. In addition, the passenger can select a communication target or a reception target by operating the switch panel 31 of an arbitrary terminal device 3 and can also perform an instruction by voice.
[0043]
First, the operation of the wireless interaction device 1 in a case where communication with the interaction signal controller 4 is performed wirelessly, and an interaction target or a reception target is selected by operating the switch panel 31 in the terminal device 3. explain.
[0044]
First, the occupant sets a target (an opponent) for conversation and reception by operating the terminal device 3. In this case, since each of the terminal devices 3 has a function of setting the switching selection information Dct on the switch panel 31 and a function of generating the child device information Drc, the occupant is provided with the specific terminal device 3 side. Without moving, any (for example, close to) terminal device 3 can be operated to set the target (the other party) of conversation or reception. Specifically, as shown in FIG. 1, when the occupant wearing the wireless handset 2b approaches the terminal device 3a, in the terminal device 3a, the electric field intensity measuring unit 32 of the wireless handset 2a, 2b The electric field intensity is measured to detect the electric field intensity of the wireless handset 2b most strongly. Therefore, as shown in FIG. 2, the electric field strength measurement unit 32 automatically generates the slave unit information Drc2 of the wireless slave unit 2b and outputs the same to the slave unit information generation unit 33. When the occupant operates the switch panel 31 to set the target of conversation and reception (the other party), the switch panel 31 generates switching selection information Dct for specifying the target of conversation and reception and performs conversation. Output to the dexterous communication I / F unit 37. On the other hand, the slave unit information generating unit 33 outputs the input slave unit information Drc2 to the communication unit communication I / F unit 37 as slave unit information Drc. Further, since the second communication cable CB is not connected to the I / F unit 36 for a wireless client, the I / F unit 36 for a wireless client does not generate the connection signal Sco. For this reason, the communication device communication I / F unit 37 converts the input slave device information Drc and the switching selection information Dct into the corresponding communication device I / F in the communication signal controller 4 via the first communication cable CA. Output to the unit 42a.
[0045]
As shown in FIG. 1, the terminal communication I / F unit 42 (42a in this example) outputs the input slave unit information Drc and the switching selection information Dct to the slave unit information output unit 45a. In this case, the slave unit information output unit 45a does not input the switching selection information Dct from the voice recognition unit 43a, and thus integrates the slave unit information Drc and the switching selection information Dct input from the terminal communication I / F unit 42a. Output to the unit 47. The information control unit 47 stores the input slave unit information Drc and the switching selection information Dct in the memory. In this case, when storing the switching selection information Dct, when the switching selection information Dct corresponding to the input slave unit information Drc is already stored, the information control unit 47 replaces the old switching selection information Dct with the new switching selection information Dct. And update and store it. Further, the information control section 47 generates the selection data D corresponding to each wireless slave 2 based on the stored slave information Drc, the switching selection information Dct corresponding thereto, and the presence or absence of the connection signal Sco. It is generated and output to the selection and synthesis unit 46. In this case, the input slave unit information Drc is information on the wireless slave unit 2b, and the connection signal Sco is not input. Therefore, the information control unit 47 regenerates the selection data Dr2, Dbr2, Dt2 relating to the wireless slave device 2b and outputs it to the selection synthesis unit 46 as follows. Specifically, since the connection signal Sco has not been input, the information control unit 47 causes the reception selection unit 46b to select / deselect the audio signals included in the audio signals Sr1 to Sr4 and the audio signal Sct2. The selection data Dr2 is generated, and the selection data Dt1 and Dt2 are generated to select / deselect the audio signal Sct2 with respect to the transmission selection units 46e and 46f.
[0046]
On the other hand, in the selection / synthesis unit 46, as shown in FIG. 3, each of the reception selection units 46a to 46d and each of the transmission selection units 46e and 46f instantly output an audio signal output according to the content of the corresponding selection data D. At the same time, the reception synthesis units 46g to 46j and the transmission synthesis units 46k and 46m mix the selected audio signals to generate the audio signals Scr1 and Scr2 for reception and the audio signals St1 and St2 for transmission. Output. The receiving voice signals Scr1 and Scr2 output from the selection / synthesis unit 46 in this way are output to the transmission / reception units 41a and 41b, respectively, and transmitted to the corresponding wireless handsets 2a and 2b by radio. Further, the audio signals St1 and St2 for transmission output from the selection and synthesis unit 46 are output to the first wireless device 5 and the second wireless device 6, respectively. Thus, the occupant wearing the wireless handset 2b can communicate with the communication target set on the switch panel 31, and can monitor a signal from the reception target.
[0047]
When updating the slave unit information Drc and the switching selection information Dct in the memory, the information control unit 47 stores the latest switching selection information Dct in the voice synthesizing unit 44b corresponding to the wireless slave unit 2b. And output it. The information control unit 47 outputs the switching selection information Dct to the terminal device 3a as the display data Dd via the terminal communication I / F unit 42a. Next, in the terminal device 3a, the communication I / F unit 37 for the talker inputs the display data Dd via the first communication cable CA, and outputs the contents of the display data Dd to the display unit 35. In this case, the human body detection unit 34 in the terminal device 3a generates the detection signal Sd and outputs the detection signal Sd to the display unit 35 because the occupant is present near the terminal device 3a. For this reason, the display unit 35 displays the switching selection information Dct as the input display data Dd on the display. Therefore, the occupant wearing the wireless slave device 2b can visually check the latest setting information of his or her conversation target and reception target. On the other hand, as shown in FIG. 1, the voice synthesis unit 44b generates a synthesized voice signal Syr2 representing the switching selection information Dct based on the switching selection information Dct input from the information control unit 47, and outputs the synthesized voice signal Syr2 to the transmission / reception unit 41b. I do. Next, the transmitting / receiving unit 41b wirelessly transmits the input synthesized voice signal Syr2 to the wireless handset 2b. Thus, the passenger wearing the wireless handset 2b can check the latest setting information of his or her own conversation target or reception target by ear.
[0048]
As described above, the example in which the passenger wearing the wireless slave device 2b operates the terminal device 3a has been described. However, when the passenger wearing the wireless slave device 2b operates the terminal device 3b, the wireless slave device 2a is mounted. Even when the occupant operated the terminal device 3b and when the occupant wearing the wireless slave device 2a operated the terminal device 3a, the selection of the conversation target and the reception target can be similarly performed. At the same time, on the display unit 35 of the operated terminal device 3, it is possible to visually confirm the latest setting information of the communication target and the reception target.
[0049]
The passenger can manually generate the slave unit information Drc1 by operating the switch panel 31. In this case, the slave unit information generation unit 33 outputs the input slave unit information Drc1 as the slave unit information Drc to the communication unit communication I / F unit 37, and the communication unit communication I / F unit 37 outputs the slave unit information Drc1. Drc is output to the conversation signal controller 4. Therefore, even when the radio wave condition around the terminal device 3 is poor, the passenger can make any one of them in the same manner as in the case where the automatic generation of the slave unit information Drc2 is normally performed by the electric field strength measurement unit 32 described above. In the terminal device 3 as well, it is possible to select the conversation target and the reception target, and it is possible to visually confirm the latest setting information of the conversation target and the reception target on the display unit 35 of the operated terminal device 3. .
[0050]
Next, the operation of the wireless interaction device 1 in a case where communication with the interaction signal controller 4 is performed wirelessly and an object to be spoken or an object to be listened to is selected by voice instructions will be described. The description of the same operation as the above-described operation of selecting a communication target and a reception target by operating the switch panel 31 in the terminal device 3 is omitted.
[0051]
As an example, when a passenger wearing the wireless slave 2b utters a word related to the switching selection information Dct, the audio signal is transmitted by radio waves by the wireless slave 2b. At this time, in the interaction signal controller 4, as shown in FIG. 1, the transmission / reception unit 41 (41b in this example) receives this radio wave and outputs it as an audio signal Sct2. Next, the voice recognition unit 43b extracts words (voice) related to the switching selection information Dct included in the voice signal Sct2, generates switching selection information Dct, and outputs the generated switching selection information Dct to the slave unit information output unit. 45b. The slave unit information output unit 45b generates the slave unit information Drc of the wireless slave unit 2b that communicates with the transmission / reception unit 41b when the switching selection information Dct from the voice recognition unit 43b is input, and generates the slave unit information Drc. Is output to the information control section 47 together with the switching selection information Dct. The generation of the slave unit information Drc is possible because the transmission / reception unit 41 and the wireless slave unit 2 have a one-to-one correspondence. Next, the information control unit 47 generates the selection data D and sends the selection data D to the selection / synthesis unit 46 in the same manner as when selecting the conversation target or the reception target by operating the switch panel 31 of the terminal device 3 described above. At the same time, the display data Dd is generated and output to the terminal communication I / F unit 42b. Thereby, the occupant can select a communication target or a reception target without operating the switch panel 31 of the terminal device 3. When a passenger is present in the vicinity of the terminal device 3b corresponding to the transmission / reception unit 41b, the passenger visually checks the latest setting information on the communication target and the reception target on the display unit 35 of the terminal device 3b. be able to. Therefore, since the passenger can operate the wireless communication device 1 hands-free, the convenience can be sufficiently improved.
[0052]
Next, the operation of the wireless communication device 1 when the communication with the communication signal controller 4 is performed by wire will be described. The same operations as those described above for performing communication wirelessly and operating the switch panel 31 of the terminal device 3 to select a communication target or a reception target will not be described.
[0053]
As an example, when the occupant wearing the wireless slave device 2b connects the second communication cable CB to the terminal device 3a, as shown in FIG. 2, in the terminal device 3a, the wireless slave device I / F unit 36 2 The connection of the communication cable CB is detected to generate a connection signal Sco. When the occupant operates the switch panel 31, the switch panel 31 generates the switching selection information Dct in the same manner as the above-described operation. In the same manner as the above operation, the slave unit information generation unit 33 generates the slave unit information Drc based on either the slave unit information Drc1 from the switch panel 31 or the slave unit information Drc2 from the electric field strength measurement unit 32. Generate. Next, the communication I / F unit 37 for the talker uses the connection signal Sco, the switching selection information Dct and the handset information Drc generated in this way to the communication I / F unit 42a for the terminal in the talk signal controller 4. Is output via the first communication cable CA. On the other hand, as shown in FIG. 1, the terminal communication I / F unit 42a outputs the input connection signal Sco to the information control unit 47, and also outputs the switching selection information Dct and the slave unit information Drc to the slave unit information output unit 45a. Output to Subsequently, the slave unit information output unit 45a outputs the switching selection information Dct and the slave unit information Drc to the information control unit 47 in the same manner as the above operation.
[0054]
On the other hand, the information control unit 47 stores the input slave unit information Drc and the switching selection information Dct in the memory. Further, the information control unit 47 generates selection data D corresponding to the wireless slave 2b based on the stored slave information Drc, the switching selection information Dct corresponding thereto, and the presence / absence of the connection signal Sco. Then, it is output to the selection / synthesis unit 46. In this case, since the input slave unit information Drc is information on the wireless slave unit 2b and the connection signal Sco is output by the terminal communication I / F unit 42a, the information control unit 47 sets the wireless slave unit 2b The selection data Dr2 relating to the wireless communication, the selection data Dbr1 and Dbr2 relating to the wired communication, and the selection data Dt1 and Dt2 relating to the wireless devices 5 and 6 are regenerated and output to the selection combining unit 46.
[0055]
Specifically, the information control section 47 re-generates the selection data Dbr1 with the content for selecting / non-selecting the audio signals included in the audio signals Sr1 to Sr4 and the audio signals Sbt1 and Sbt2 to the reception selecting section 46c, The selection data Dt1 and Dt2 having contents for selecting / non-selecting the voice signal Sbt1 with respect to the transmission selection units 46e and 46f are generated again. On the other hand, in the selection / synthesis unit 46, as shown in FIG. 3, the reception selection units 46b to 46d and the transmission selection units 46e and 46f instantly select an audio signal to be output according to the content of the corresponding selection data D. At the same time, the reception synthesis unit 46i and the transmission synthesis units 46k and 46m mix the selected audio signals and output the audio signals Sbr1 for reception and the audio signals St1 and St2 for transmission. The audio signal Sbr1 for each reception output from the selection / synthesis unit 46 in this manner is output to the terminal communication I / F unit 42a, and is output to the terminal device 3a via the first communication cable CA by wire. You. Further, the audio signals St1 and St2 for transmission output from the selection and synthesis unit 46 are output to the first wireless device 5 and the second wireless device 6, respectively. Thus, the occupant wearing the wireless handset 2b can communicate with the communication target by wire communication and can monitor a signal from the reception target.
[0056]
When the passenger utters in this state, the wireless handset 2b converts the voice uttered by the passenger into an audio signal Sbt, and outputs it to the terminal device 3a via the second communication cable CB as shown in FIG. I do. On the other hand, in the terminal device 3a, the wireless handset I / F unit 36 outputs the input voice signal Sbt and the generated connection signal Sco to the communication device communication I / F unit 37. Next, the communication device communication I / F unit 37 outputs the audio signal Sbt and the connection signal Sco to the terminal communication I / F unit 42a in the communication signal controller 4 via the first communication cable CA. The terminal communication I / F unit 42a outputs the input audio signal Sbt to the selection / synthesis unit 46 as the audio signal Sbt1, as shown in FIG. As a result, the audio signal Sbt1 is in a state where it can be selected by each of the reception selection units 46a to 46d and the transmission selection units 46e and 46f. On the other hand, the audio signal Sbr1 generated by the selective combining by the selective combining unit 46 is input to the terminal communication I / F unit 42a. Next, the terminal communication I / F unit 42a outputs the audio signal Sbr to the terminal device 3a via the first communication cable CA. On the other hand, in the terminal device 3a, the communication I / F unit 37 for the talker receives the audio signal Sbr and outputs it to the wireless slave unit 2b via the wireless slave unit I / F unit 36 and the second communication cable CB. . Thereby, the passenger can receive the audio signal Sbr by the wireless handset 2b.
[0057]
According to this configuration, the occupant wearing the wireless slave device 2b can perform wired communication via the second communication cable CB. Even in the case where it becomes impossible, it is possible to monitor the conversation with the conversation target and the reception target. In addition, the wireless communication device I / F unit 36 detects the connection of the second communication cable CB and automatically outputs the connection signal Sco, thereby automatically switching from wireless communication to wired communication. Therefore, the occupant does not need to operate the switch panel 31, so that the operability can be improved.
[0058]
Note that the present invention is not limited to the above-described embodiment, and its configuration can be appropriately changed. For example, in the wireless communication device 1 according to the embodiment of the present invention, when performing wired communication using the second communication cable CB, power is transmitted from the terminal device 3 to the wireless handset 2 via the second communication cable CB. May be adopted. With this configuration, even in a situation in which the battery of the wireless slave device 2 has run out, the wireless slave device 2 is operated by the power supplied from the terminal device 3 and the communication signal control can be performed using either wireless or wired communication. Can communicate with the device 4. Further, it is also possible to adopt a configuration in which the operation of the electric field strength measuring unit 32 is controlled by the detection signal Sd generated by the human body detecting unit 34 in the terminal device 3 to further reduce the power consumption in the terminal device 3. Further, by outputting a detection signal Sd to the conversation signal controller 4 via the first communication cable CA to control the operation of the conversation signal controller 4, the power consumption of the whole wireless conversation apparatus 1 can be reduced. It can also be reduced. Further, the voice recognition unit 43 in the interaction signal controller 4 may adopt a configuration in which voices related to various commands are extracted as well as voices related to the switching selection information Dct. Thereby, the output of the contents of the current switching selection information Dct by the information generalization unit 47 (both wireless output and / or display on the display unit 35 of the terminal device 3) is directly instructed by voice. Therefore, the operability can be further improved. The type and number of external devices connected to the wireless communication device 1 are not limited. In addition, the number of wireless terminals and terminal devices is not limited, and can be expanded to three, four, or the like. In the embodiment of the present invention, the handling of the audio signal does not distinguish between analog and digital. This is to select whether to realize each signal by analog processing, digital processing accompanied by A / D conversion, D / A conversion, etc., or analog / digital combined (switching) method. It means that it can be freely designed and implemented.
[0059]
【The invention's effect】
As described above, according to the wireless communication device of the first aspect, each terminal device transmits the handset information for specifying any one of the wireless handsets and the switching selection information for the specified wireless handset. The speech signal controller is configured to be capable of wirelessly transmitting and receiving voice signals to and from each wireless slave unit and to be communicable with each terminal device. When the information is input, the switching selection information is updated and stored in association with the slave unit information, and based on the updated and stored switching selection information, each of the wireless slave units and a plurality of external devices and other wireless slave units By passing an audio signal transmitted / received to / from at least one of the above, the occupant operates an arbitrary (for example, nearby) terminal device without moving to a specific terminal device, and performs conversation and reception. Set the other party It can be. Also, when the interaction signal controller inputs the slave unit information output by the terminal device, the switching selection information corresponding to the slave unit information is output to the terminal device, and each terminal device is output by the interaction signal controller. By displaying the switching selection information on the display unit, the passenger can visually check his or her latest conversation target or reception target on any terminal device.
[0060]
Further, according to the wireless communication apparatus of the second aspect, the electric field strength measuring unit of each terminal device detects a radio channel having the highest electric field strength among radio channels allocated to the plurality of wireless handsets. In addition, by generating the slave unit information of the wireless slave unit to which the wireless channel is assigned, it is possible to save the trouble of manually inputting the slave unit information by the occupant, thereby improving the operability.
[0061]
According to the wireless communication device of the third aspect, when the voice recognition unit extracts the switching selection information, it generates the slave unit information of the wireless slave unit that transmitted the audio signal from which the switching selection information was extracted. By updating and storing the generated slave unit information and the extracted switching selection information together, it is possible to set the conversation target and the reception target without the passenger performing any operation on the terminal device. Therefore, since the wireless communication device can be operated hands-free, the operability can be further improved.
[0062]
According to the wireless communication device of the fourth aspect, each of the terminal devices is connected to the communication signal controller via the first communication cable, and each of the wireless terminals is an arbitrary one of the plurality of terminal devices. And a second communication cable, and when connected to a terminal device via the second communication cable, the first communication cable, any terminal device, and the second communication cable are connected. Even when wireless communication is disabled due to radio wave interference, etc., the passenger can talk with his / her own talk target and receive the talk target Monitor can be performed.
[0063]
According to the wireless communication device of the fifth aspect, each terminal device is configured to detect the connection of the second communication cable and output a detection signal to the communication signal controller. When the detection signal is being input, the audio signal is not exchanged with the wireless slave connected to the terminal device that is outputting the detection signal via the second communication cable, instead of the wireless communication. By switching to the wired delivery via the communication cable, the terminal device, and the second communication cable, the occupant does not need to manually switch from wireless to wired, so that the operability can be further improved.
[0064]
According to the wireless communication device of the sixth aspect, each display unit of each terminal device performs a display operation only when a human body is detected by the corresponding human body detection unit. The display operation of the display unit can be automatically stopped when the occupant who sees the displayed content is not near the terminal device, so that the power consumption can be reduced. The power can be sufficiently reduced.
[0065]
According to the wireless interaction device of the seventh aspect, the interaction signal controller causes the audio synthesizing unit to generate an audio signal indicating the content of the switching selection information, and switches the generated audio signal to the switching selection. By transmitting the information to the wireless handset corresponding to the information, the occupant wearing the wireless handset can check the latest setting information of the communication target and the receiving target even by ear without going to the terminal device (switch panel). it can.
[Brief description of the drawings]
FIG. 1 is a block diagram of a wireless communication device 1 according to the present invention.
FIG. 2 is a block diagram of a terminal device 3 in the wireless communication device 1.
FIG. 3 is a block diagram of a selection / synthesis unit 46 in the interaction signal controller 4 in the wireless interaction device 1.
FIG. 4 is a block diagram of a conventional wireless communication device 91.
FIG. 5 is a block diagram of a selection / synthesizing unit 97 in an interaction signal controller 94 in the wireless interaction device 91.
[Explanation of symbols]
1 wireless communication device
2a, 2b wireless handset
3a, 3b terminal device
4 Communication signal controller
5 First radio
6 Second radio
7 Navigation equipment
8 Alarm device
31 Switch panel
32 Electric field strength measurement section
33 Remote Unit Information Generation Unit
34 Human body detector
35 Display
36 I / F section for wireless handset
41a, 41b transceiver
42a, 42b Terminal Communication I / F Unit
43a, 43b voice recognition unit
44a, 44b Voice synthesis unit
45a, 45b slave unit information output unit
46 Selective synthesis unit
47 Information Management Department
Dct switching selection information
Drc slave unit information

Claims (7)

Multiple wireless handsets,
A plurality of terminal devices that generate and output switching device information for specifying any one of the wireless slave devices and switching selection information for the identified wireless slave device,
It has a plurality of transmitting / receiving sections provided corresponding to each of the wireless slaves, and is configured to be able to wirelessly transmit and receive an audio signal with each of the wireless slaves, and configured to be able to communicate with each of the terminal devices. When the slave unit information and the switching selection information output by the terminal devices are input, the switching selection information is updated and stored in association with the slave unit information, and based on the updated and stored switching selection information. An interaction signal controller that exchanges audio signals transmitted and received between each of the wireless slaves and at least one of the plurality of external devices and the other wireless slaves,
The communication signal controller, when the slave unit information output by the terminal device is input, reads the switching selection information corresponding to the slave unit information and outputs the switching selection information to the terminal device,
Each of the terminal devices includes a display unit, and causes the display unit to display the switching selection information output by the interaction signal controller. Each of the terminal devices detects the wireless channel with the highest electric field strength among the wireless channels assigned to the plurality of wireless slaves, and detects the slave information of the wireless slave to which the wireless channel is assigned. The wireless communication device according to claim 1, further comprising: an electric field intensity measuring unit that generates the electric field intensity. The speech signal controller includes a voice recognition unit provided corresponding to each of the transmission / reception units and extracting switching selection information included in the voice signal received by the transmission / reception unit. When the switch selection information is extracted by the switch unit, the switch unit generates the slave unit information of the wireless slave unit that has transmitted the audio signal from which the switch selection information is extracted, and generates the slave unit information and the extracted switch. The wireless communication device according to claim 1, wherein the selection information is updated and stored. Each of the terminal devices is connected to the talk signal controller via a first communication cable, respectively.
Each of the wireless slaves is configured to be connectable to any one of the plurality of terminal devices via a second communication cable, and is connected to the terminal device via the second communication cable. The wireless communication according to any one of claims 1 to 3, wherein the voice signal is transferred to and from the communication signal controller via the first communication cable, the arbitrary terminal device, and the second communication cable. apparatus. Each of the terminal devices is configured to detect connection of the second communication cable and output a detection signal to the conversation signal controller,
The communication signal controller, when the detection signal is input, the wireless communication device connected to the terminal device that is outputting the detection signal via the second communication cable The wireless communication device according to claim 4, wherein the exchange of the audio signal is switched to the wired communication via the first communication cable, the terminal device, and the second communication cable instead of the wireless communication. Each of the terminal devices or a human body detection unit disposed near each of the terminal devices,
The wireless communication device according to claim 1, wherein each of the display units of the terminal devices performs a display operation only when a human body is detected by the corresponding human body detection unit. The interchange signal controller includes a voice synthesizing unit, and causes the voice synthesizing unit to generate a voice signal indicating the content of the switching selection information, and distributes the voice signal in accordance with the wireless slave device corresponding to the switching selection information. The wireless communication device according to any one of claims 1 to 6, wherein the generated audio signal is transmitted via the provided transmission / reception unit.

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