JP6206103B2 - Voice communication terminal device - Google Patents

Description

  The present invention relates to a terminal device used in a voice communication system using a network such as a wireless LAN.

  The handy transceiver is usually used for simplex communication in which it is held in one hand, talks close to the mouth while pushing the push-to-talk (PTT) switch, and close to the ear with the PTT switch released to listen to the other party's voice. is there. On the other hand, handy transceivers capable of full-duplex communication have been put into practical use in recent years. The full-duplex communication is a communication that outputs the voice received from the partner apparatus even when the own voice is transmitted.

JP 2007-96957 A

  When performing full-duplex communication, the microphone and speaker are enabled at the same time, so it is necessary to use a headset that has an earphone and microphone so that the sound emitted from the speaker does not reach the microphone and cause feedback. Is done. Further, since full-duplex communication speaks while listening to the other party's voice like a telephone, it is easier to speak if the voice of its own is also output as a voice (side sound) that can be heard slightly from the earphone.

  As described above, even in the handy transceiver, there are various kinds of sound desired to be output from the speaker (earphone) depending on the simplex / full duplex communication mode, that is, the connection state of peripheral devices such as a headset.

  An object of the present invention is to provide a voice communication terminal device capable of switching a voice output mode according to a usage pattern in voice communication using a network.

A voice communication terminal device according to the present invention includes a network communication unit that transmits and receives audio signals to and from a communication partner device via a network, an internal microphone, an internal speaker, a peripheral device connection unit to which an external microphone and an external earphone are connected. a transmission circuit for inputting a voice input from the internal microphone or an external microphone to the network communication unit, a receiving circuit for outputting to the internal speaker or an external earphone audio signal network communication unit receives a transmission circuit on / A PTT switch to be turned off and a control unit are provided. Controller determines whether or not the external microphone and an external earphone to the peripheral device connection section is connected, when the external microphone and an external earphone is not connected to the peripheral device connection unit, PTT switch is operated When the transmitter circuit is turned on and the audio signal output from the receiver circuit is silenced, and the external microphone and the external earphone are connected to the peripheral device connection part, the level of the audio input from the external microphone is constant. When the level is exceeded, the transmitter circuit is turned on while the receiver circuit is kept on . Here, the silence of the audio signal output from the receiving circuit may be output by rewriting the signal level of the audio signal to 0, or the audio signal may be output by stopping part or all of the receiving circuit. May not be output.

  The transmission circuit has a side sound function to input the input voice to the network communication unit and also to the reception circuit, and the control unit has an external microphone and an external earphone connected to the peripheral device connection unit. When the level of the sound input from the external microphone in a state exceeds a certain level, the side sound function of the transmission circuit may be enabled.

Another voice communication terminal device according to the present invention includes a network communication unit that transmits and receives audio signals to and from a communication partner device via a network, a peripheral device connection unit to which an internal microphone, an internal speaker, and an external peripheral device are connected. When a transmission circuit for inputting a voice input from the external microphone connected to the internal microphone or peripheral device connection unit to the network communication unit, a receiving circuit for outputting an audio signal by the network communication unit receives the speaker, A PTT switch for turning on / off the transmission circuit and a control unit are provided. Control unit, the peripheral device connection unit, as a peripheral device, it is determined whether the external microphone with external PTT switch is connected, if the external microphone with external PTT switch to peripheral device connection unit is not connected When the PTT switch is operated, the transmitter circuit is turned on and the audio signal output from the receiver circuit is silenced. When an external microphone with an external PTT switch is connected to the peripheral device connection unit , When the external PTT switch is operated, the transmitter circuit is turned on while the receiver circuit is kept on .

  In the above invention, the network communication unit may communicate with the server device via a network including a wireless local area network and transmit and receive an audio signal as an audio packet. In this case, the voice packet is transferred to and from the communication partner device by relay by the server device.

  According to the present invention, since the sound output from the speaker / earphone is switched according to the usage pattern, it is possible to realize the output of the voice suitable for the usage pattern of the user without causing howling.

It is a block diagram of the audio | voice communication system with which the terminal device which is embodiment of this invention is used. It is a block diagram of a terminal device. It is a block diagram of a server apparatus. It is a flowchart which shows operation | movement of the control part of a terminal device. It is a flowchart which shows operation | movement of the control part of a terminal device. It is a flowchart which shows operation | movement of the control part of a terminal device.

  A voice communication system in which the terminal device of the present invention is used will be described with reference to the drawings. FIG. 1 is a configuration diagram of a voice communication system. This voice communication system is a voice communication system that enables communication between terminal devices 14 using a wireless LAN 16 such as Wi-Fi. The terminal device 14 has a shape similar to a handy transceiver for wireless communication and includes a PTT (push-to-talk) switch 220 as shown in FIG. 2, but is functionally a wireless access point. (AP) 13 is a wireless network device that transmits and receives voice packets via the AP 13. The server device 11 as a relay device relays communication between the terminal devices 14 via the wired LAN 15 and the wireless LAN 16. Hereinafter, the wired LAN 15 and the wireless LAN 16 are collectively referred to as a network 17.

  Ethernet (registered trademark) or the like is applicable as the wired LAN 15. In addition, as the wireless LAN 16, a communication method based on IEEE 802.11 such as Wi-Fi can be applied. The terminal device 14 and the wireless access point 13 communicate using this communication method.

  A plurality of wireless access points 13 are installed. Each wireless access point 13 is installed, for example, on a different floor or different room of a building. Accordingly, it is possible to estimate which floor / room the terminal device 14 is in, depending on which wireless access point 13 the terminal device 14 is communicating with.

  A management device 12 is connected to the wired LAN 15. The management device 12 is configured by, for example, a personal computer installed with a management program. The management device 12 accesses the server device 11 according to the operation of the administrator, and manages the server device 11. The management device 12 also functions as a single terminal device and can communicate with other terminal devices 14.

  The terminal device 14 converts the user's call voice signal into a voice packet (RTP packet) and transmits it to the server device 11. The server device 11 transfers this audio signal to the communication partner terminal device 14. The communication mode includes one-to-one individual communication and group communication in which three or more devices communicate with each other, and the server device 11 establishes a communication session in a mode in response to a request from the terminal device 14.

  Further, peripheral devices such as a headset and earphones can be connected to the terminal device 14, and the operation mode is switched according to the connected peripheral devices. Details will be described later.

  FIG. 2 is a block diagram of the terminal device 14. As described above, the terminal device 14 is functionally a wireless network device that transmits and receives voice packets via the wireless LAN wireless access point (AP) 13. The control unit 20 that controls the operation of the apparatus is constituted by a microprocessor. The control unit 20 has a storage unit 21 in which various data are stored. The storage unit 21 stores firmware, data downloaded from the server device 11, and the like.

  An operation unit 22, a display unit 23, a switching unit 24, an audio circuit 25, an audio signal processing unit 26, a packet processing unit 27, and a wireless LAN communication unit 28 are connected to the control unit 20. The operation unit 22 includes a key switch such as a PTT switch 220, receives a user operation, and inputs an operation signal to the control unit 20. The display unit 23 includes a liquid crystal display. On the liquid crystal display, the identification number of the communication partner selected by the user's operation, the identification number of the incoming communication partner, and the like are displayed.

  The audio circuit 25 is a circuit that amplifies an analog audio signal, and amplifies a transmission audio signal input from the internal microphone 240 built in the terminal device 14 or the external microphone 251 connected to the microphone terminal 242. The transmission audio circuit 255 and the reception audio circuit 256 that amplifies the reception audio signal (received via the network 17) input from the audio signal processing unit 26 are provided.

  A switching unit 24 is connected to the audio circuit 25. An internal microphone 240 and an internal speaker 241 are connected to the switching unit 24. The switching unit 24 has a microphone terminal 242 and a speaker terminal 243. An external microphone 251 is connected to the microphone terminal 242. An external speaker (earphone) 252 is connected to the speaker terminal 243. The external microphone 251 and the external speaker 252 are, for example, peripheral devices such as the illustrated VOX-compatible headset 250, a microphone with a PTT switch, and an earphone. The user uses the peripheral device with or without connecting the peripheral device according to the usage pattern of the terminal device 14. The control unit 20 of the terminal device 14 switches the operation mode according to the connected peripheral device.

  When the external microphone 251 is connected to the microphone terminal 242, the switching unit 24 switches the microphone connected to the transmission audio circuit 255 from the internal microphone 240 to the external microphone 251. Further, when the external speaker 252 is connected to the speaker terminal 243, the switching unit 24 switches the speaker connected to the reception audio circuit 256 from the internal speaker 241 to the external speaker 252.

  An audio signal processing unit 26 is connected to the audio circuit 25. The audio signal processing unit 26 includes an A / D converter and a D / A converter on the audio circuit 25 side, and processes a digital audio signal. The audio signal processing unit 26 is configured by a DSP or the like. Similar to the analog audio circuit 25, the digital audio signal processing unit 26 also includes a transmission audio signal processing unit 265 that processes transmission audio signals and a reception audio signal processing unit 266 that processes reception audio signals. The operations of the transmission audio signal processing unit 265 and the reception audio signal processing unit 266 will be described later.

  The packet processing unit 27 converts the audio signal input from the audio signal processing unit 26 (transmission audio signal processing unit 265) into a voice packet and inputs the voice packet to the wireless LAN communication unit 28. The packet processing unit 27 extracts an audio signal from the received voice packet and inputs the audio signal to the audio signal processing unit 26, and also extracts control data from the voice packet and inputs the control data to the control unit 20.

  The wireless LAN communication unit 28 includes a circuit that performs wireless communication using a communication method compliant with the above-described IEEE 802.11. The packet input from the packet processing unit 27 is transmitted to the wireless access point 13, and the packet received from the wireless access point 13 is input to the packet processing unit 27.

  FIG. 3 is a block diagram of the server device 11. In order to perform the above processing, the server device 11 includes a control unit 30, a storage unit 31, and a network communication unit 32. The storage unit 31 is configured by, for example, a hard disk or a RAM, and stores various tables, firmware for terminal devices, setting data of each terminal device 14, and the like. The control unit 30 performs audio signal mixing, management of the terminal device 14, and the like. The network communication unit 32 controls communication between the server device 11 and the wired LAN 15.

  The server device 11 further transfers the voice packet (voice signal) input from the terminal device 14 via the network 17 to another terminal device 14 via the network 17. In the case of group communication, an audio signal is transferred to a plurality of terminal devices 14 belonging to the group. In the case of group communication, users of a plurality of terminal devices 14 may speak at the same time, and voice packets may be transmitted simultaneously from the plurality of terminal devices 14. In this case, the server device 11 mixes the audio signals of the plurality of audio packets, edits the new audio packet, and transfers the new audio packet to each terminal device 14. Note that all the audio signals are mixed and transferred to the terminal device 14 that has not transmitted the audio signal, and the audio transmitted by the terminal device 14 is transmitted to the terminal device 14 that has transmitted the audio signal. Remove the signal and mix and transfer other audio signals. As a result, the terminal device 14 that transmitted the audio signal does not cause echo of the audio signal transmitted by the own device.

  Since the communication between the terminal devices 14 relayed by the server device 11 is a transfer of voice packets via the network 17, the voice packets can be transmitted and received in parallel with each other. System communication is possible. However, even in the full-duplex mode, only when the user's call voice is input by the PTT switch 220 (or VOX function (described later)) so that the silent voice packet is not continuously transmitted. Packet transmission is performed.

  When the VOX-compatible headset 250 or PTT microphone is connected to the terminal device 14, the control unit 20 operates the terminal device 14 in the full-duplex mode, and when the peripheral device is not connected to the terminal device 14, The device 14 is operated in simplex mode.

  Here, operations of the transmission audio signal processing unit 265 and the reception audio signal processing unit 266 will be described.

  When operating in the above-described full duplex mode, it is easier for the user to speak if the user's speech (side sound) is heard from the speaker (earphone). Therefore, in the full-duplex mode, the transmission audio signal processing unit 265 inputs the transmission audio signal to the reception audio signal processing unit 266 and emits sound from the speaker of its own device. However, since the terminal device 14 used as a transceiver emits sound from the speaker 241, if a side sound is generated, the terminal device 14 wraps around the microphone and causes howling. Therefore, the transmission audio signal processing unit 265 inputs the transmission audio signal to the reception audio signal processing unit 266 only when the VOX compatible headset 250 is connected.

  In addition, when a side sound is generated, that is, when a user's call voice is input in the full duplex mode, when the user (terminal device 14) moves out of the communication range of the wireless access point 13, Generation of a side sound, that is, input of a transmission audio signal from the transmission audio signal processing unit 265 to the reception audio signal processing unit 266 is stopped. Thus, the side sound is interrupted together with the received voice, so that the user can be notified that the user has gone out of service area.

  The transmission audio signal processing unit 265 has a VOX function. The VOX function is a function that determines whether or not a call voice is input based on the input level of the microphone and its duration, and turns on the transmission operation when it is determined that the call voice is input. This terminal device 14 enables the VOX function only when the VOX-compatible headset 250 is connected to the microphone terminal 242 and the speaker terminal 243, and turns on the transmission operation by the user's call voice.

  The transmission audio signal processing unit 265 transfers the transmission audio signal input from the audio circuit 25 (transmission audio circuit 255) to the packet processing unit 27. When the VOX function is valid, the transmission audio signal input from the audio circuit 25 (transmission audio circuit 255) is accumulated in the buffer (FIFO) memory 260 to be delayed for a predetermined time, and this delayed audio signal is subjected to packet processing. Input to the unit 27. This eliminates the head-off between the start of input of the call voice and the time when the transmission operation is turned on by VOX. When the transmission operation is turned on by turning on the PTT switch 220, it is considered that the user starts talking after turning on the PTT switch 220, and thus such a delay is unnecessary.

  The reception audio signal processing unit 266 converts the reception audio signal in units of packets input from the packet processing unit 27 into a continuous time signal and outputs the continuous time signal to the audio circuit 25 (reception audio circuit 256). Further, the received audio signal is muted in accordance with an instruction from the control unit 20.

  When trying to communicate, the user first operates the terminal device 14 to select a communication partner. At this time, the display unit 23 of the terminal device 14 displays the above-described terminal number of the active terminal device 14 and the group number for which communication is permitted as a communication partner candidate. Since the display unit is small, these communication partner candidates are sequentially switched and displayed in accordance with key operations. The user selects a desired one from the displayed candidates. Then, the PTT switch 220 is turned on, or the VOX is turned on by voice, and the control unit 20 of the terminal device 14 performs an operation as shown in the following flowchart.

  With reference to the flowcharts of FIGS. 4, 5, and 6, the operation of the terminal device 14 and the on / off of received voice and side sound according to the connected peripheral device will be described. Each operation is repeatedly executed in a short time (for example, every 20 milliseconds).

  FIG. 4 is a flowchart showing an operation executed when a peripheral device is not connected. First, it is determined whether the PTT switch 220 is on or off (S10). If it is on (YES in S10), the transmission operation is turned on (S11), and the received sound is muted (S12). However, the side sound is turned off (S13). Here, the transmission operation is to cause each unit of the terminal device 14 to perform the following operation. The transmission audio circuit 255 and the transmission audio signal processing unit 265 input the transmission audio signal input from the internal microphone 240 to the packet processing unit 27. The packet processing unit 27 creates a voice packet for transmitting the transmission audio signal and inputs it to the wireless LAN communication unit 28. The wireless LAN communication unit 28 transmits this voice packet. The received audio signal is muted by the received audio signal processing unit 266 by rewriting the received audio signal (PCM data) with a 0 level signal so that the sound emitted from the speaker is silenced. Alternatively, the reception audio signal processing unit 266 and / or the reception audio circuit 256 may be stopped so that no audio signal is output. Even while the received audio is muted, the wireless LAN communication unit 28 and the packet processing unit 27 receive and analyze packets transmitted from the network 17. Further, turning off the side sound means that the input of the transmission audio signal from the transmission audio signal processing unit 265 to the reception audio signal processing unit 266 is stopped.

  On the other hand, if the PTT switch 220 is off (NO in S10), the transmission operation is turned off (S14), and the received voice is turned on (S15). Since the transmission operation is off and there is no audio transmission signal, the side sound is turned off (S16).

  FIG. 5 is a flowchart showing an operation executed when a VOX compatible headset 250 is connected. First, it is determined whether the PTT switch 220 is on or off (S20). When a VOX-compatible headset 250 is connected, it operates in a full-duplex mode in which the transmission operation is turned on / off with the VOX. Even in this case, the built-in PTT switch 220 is effective. If the PTT switch 220 is on (YES in S20), the transmission operation is turned on (S21), and the received voice is turned off (S22). However, the side sound is turned off (S23).

  If the PTT switch 220 is off (NO in S20), it is determined whether the VOX is on (S24). To turn on VOX means that an audio signal of a certain level or more is input from the external microphone 251 and is maintained for a certain time or more. If VOX is on (YES in S24), the transmission operation is turned on (S25), and the received voice is kept on (S26). In this way, communication in the full duplex mode is realized by allowing the received voice to be heard during transmission. Also, it is determined whether or not the communication range of the wireless access point 13 is present (S27). If within the communication range (YES in S27), the side sound is turned on (S28). If it is outside the communication range (NO in S27), the side sound is turned off (S31).

  If VOX is also off (NO in S24), the transmission operation is turned off (S29), and the received voice is kept on (S30). Since the transmission operation is off and there is no transmission audio signal, the side sound is turned off (S31).

  FIG. 6 is a flowchart showing an operation executed when a microphone (earphone microphone) with a PTT switch is connected. First, it is determined whether the PTT switch 220 is on or off (S40). Even when a peripheral device is connected, the built-in PTT switch 220 is effective and takes precedence over an external PTT switch. If the PTT switch 220 is on (YES in S40), the transmission operation is turned on (S41), and the received sound is muted (S42). However, the side sound is turned off (S43).

  If the PTT switch 220 is off (NO in S40), it is determined whether or not the external PTT switch attached to the microphone is on (S44). If the external PTT switch is on (YES in S44), the transmission operation is turned on (S45), and the received voice is also kept on (S46). In this way, communication in the full duplex mode is realized by allowing the received voice to be heard during transmission. Since the PTT microphone has a possibility of howling, the side sound is turned off (S47).

  If the external PTT switch is also turned off (NO in S44), the transmission operation is turned off (S48), and the received voice remains on (S49). Since the transmission operation is off and there is no transmission audio signal, the side sound is turned off (S50).

  Thus, the terminal device 14 of the embodiment switches the operation mode according to the peripheral device connected to the microphone terminal 242 and the speaker terminal 243. In particular, the output form of the audio signal is switched according to the use form of the user while preventing howling.

  Note that peripheral devices connected to the microphone terminal 242 and the speaker terminal 243 are not limited to the above. Further, although the PTT switch 220 is enabled even when a peripheral device is connected to the microphone terminal 242 and the speaker terminal 243, it may be configured not to function.

11 Server device (relay device)
13 Wireless access point 14 Terminal device 220 PTT switch 240 Internal microphone 241 Internal speaker 250 Headset 251 (for VOX) External microphone 252 External speaker

Claims (4)

A network communication unit that transmits and receives audio signals to and from a communication partner device via a network;
An internal microphone,
An internal speaker;
Peripheral device connection part to which an external microphone and external earphone are connected,
A transmission circuit for inputting a voice input from the internal microphone or the external microphone to the network communication unit,
A receiving circuit that outputs the audio signal received by the network communication unit to the internal speaker or the external earphone ;
A PTT (push-to-talk) switch for turning on / off the transmission circuit;
And determining whether the external microphone and the external earphone to the peripheral device connection unit is connected, the said peripheral device connection unit when the external microphone and the external earphone is not connected, the PTT switch when operated, as well as on the transmitting circuit, the audio signal output from the reception circuit to silence, when the external microphone and an external earphone to the peripheral device connecting portion is connected, from the external microphone When the input audio level exceeds a certain level, a control unit that turns on the transmission circuit while turning on the reception circuit;
A voice communication terminal device comprising: The transmission circuit has a side sound function of inputting the input signal to the network communication unit and also inputting the signal to the reception circuit,
The control unit enables the side-tone function of the transmission circuit when the level of sound input from the external microphone exceeds a certain level with an external microphone and an external earphone connected to the peripheral device connection unit. The voice communication terminal device according to claim 1. A network communication unit that transmits and receives audio signals to and from a communication partner device via a network;
An internal microphone,
An internal speaker;
A peripheral connection section to which an external peripheral device is connected;
A transmission circuit for inputting a voice input from the external microphone connected to the internal microphone or the peripheral device connection unit to the network communication unit,
A receiving circuit that outputs the audio signal received by the network communication unit to a speaker;
A PTT (push-to-talk) switch for turning on / off the transmission circuit;
The peripheral device connection unit, as said peripheral device, it is determined whether the external microphone with external PTT switch is connected, when said external microphone with the external PTT switch is not connected to the peripheral device connection unit the, when the PTT switch is operated, as well as on the transmitting circuit, the audio signal output from the receiving circuit in the silence, the external microphone with external PTT switch is connected to the peripheral device connection unit When the external PTT switch is operated, a control unit that turns on the transmission circuit while turning on the reception circuit;
A voice communication terminal device comprising: The network communication unit communicates with a server device via a network including a wireless local area network, transmits and receives the audio signal as an audio packet,
The voice communication terminal device according to any one of claims 1 to 3 , wherein the voice packet is transferred to and from the communication partner device by relay by the server device .

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