WO2018227377A1 - Communication method for multimode device, multimode apparatus and communication terminal - Google Patents

Communication method for multimode device, multimode apparatus and communication terminal Download PDF

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Publication number
WO2018227377A1
WO2018227377A1 PCT/CN2017/088066 CN2017088066W WO2018227377A1 WO 2018227377 A1 WO2018227377 A1 WO 2018227377A1 CN 2017088066 W CN2017088066 W CN 2017088066W WO 2018227377 A1 WO2018227377 A1 WO 2018227377A1
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WIPO (PCT)
Prior art keywords
communication
voice
party
mode
audio system
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PCT/CN2017/088066
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French (fr)
Chinese (zh)
Inventor
宫晓文
朱德友
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海能达通信股份有限公司
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Application filed by 海能达通信股份有限公司 filed Critical 海能达通信股份有限公司
Priority to PCT/CN2017/088066 priority Critical patent/WO2018227377A1/en
Publication of WO2018227377A1 publication Critical patent/WO2018227377A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/725Cordless telephones

Definitions

  • the present invention relates to the field of mobile communications technologies, and in particular, to a communication method, a multimode device, and a communication terminal of a multimode device.
  • dual-mode or multi-mode communication devices can be seen everywhere, but currently dual-mode devices realize simultaneous communication under two communication modes. does not exist.
  • a dual mode device receives two incoming calls at the same time, the user manually selects to answer one incoming call, and puts another incoming call into a call hold state or a call waiting state, thereby implementing communication.
  • the mobile phone number of the incoming call is recorded and the incoming call is rejected, or the call is hung up and the audio is switched to another mode to answer the incoming call. Or, hold the call and switch the audio to another mode to answer the call.
  • the audio is switched back to the original mode to continue the original call, thereby achieving communication.
  • Multimode devices and communication terminals can acquire dual-mode information at the same time and use only one audio system without increasing hardware costs.
  • the technical solution adopted by the present invention to solve the above technical problem is to provide a communication method of a multimode device, comprising: the multimode device performing first voice communication with the first communication party in a first mode; The multimode device simultaneously performs second voice communication with the second party in a second mode; wherein the first mode indicates that the multimode device uses an audio system to perform first voice communication with the first party The second mode indicates that the multimode device uses a non-audio system to perform second voice communication with the second communication party, or the multimode device mixes an audio system and a non-audio system with the second The communicating party performs the second voice communication.
  • a multi-mode device for simultaneously communicating with a first communication party and a second communication party, including: a first communication circuit, a first voice communication with the first communication party in a first mode; a second communication circuit, configured to perform a first voice with the first communication party in the first mode in the first communication circuit Simultaneously communicating with the second communication party in a second mode; wherein the first mode indicates that the first communication circuit uses an audio system to perform a first voice with the first communication party Communication; the second mode indicating that the second communication circuit uses a non-audio system to perform second voice communication with the second communication party, or the second communication circuit mixes an audio system and a non-audio system to The second communication party performs the second voice communication.
  • a communication terminal for simultaneously communicating with a first communication party and a second communication party, including: a first transceiver device, configured to: Performing a first voice communication with the first communication party in a first mode; and second transceiver device, configured to perform a first voice communication with the first communication party in the first mode in the first transceiver device Simultaneously, performing a second voice communication with the second communication party in the second mode; wherein the first mode indicates that the first transceiver device uses an audio system to perform first voice communication with the first communication party; The second mode indicates that the second transceiver uses a non-audio system to perform a second voice communication with the second party, or the second transceiver mixes an audio system and a non-audio system with the The second communication party performs the second voice communication.
  • the invention has the beneficial effects that the multi-mode device can realize simultaneous communication, can acquire two modes of voice communication at the same time, and adopts only one audio system without additional hardware cost.
  • the audio system is preferentially used to perform voice communication with the first communication party to ensure normal voice communication with the first communication party while maintaining the voice of the second communication party. Communication is smooth.
  • FIG. 1 is a flow chart showing a first embodiment of a communication method of a multimode device of the present invention
  • FIG. 2 is a schematic diagram of communication of the multimode device of the above embodiment
  • FIG. 3 is a flow chart showing a second embodiment of a communication method of a multimode device of the present invention.
  • FIG. 4 is a schematic structural view of an embodiment of a multimode device of the present invention.
  • FIG. 5 is a schematic structural diagram of an embodiment of a communication terminal according to the present invention.
  • a multimode device refers to a device having different radio access technologies, such as broadband wireless access and narrowband wireless access.
  • the multimode device can communicate with different communication terminals, such as smart phones, walkie-talkies, and the like.
  • the method can be applied to different application scenarios to realize simultaneous communication with different communication terminals, for example, an application scenario that simultaneously receives communication requests of two communication terminals, and communicates with one communication terminal while receiving another An application scenario of a communication request of a communication terminal.
  • the method includes the following steps:
  • S102 The multimode device performs first voice communication with the first communication party in the first mode.
  • S104 The multimode device simultaneously performs the second voice communication with the second communication party in the second mode.
  • the first mode indicates that the multimode device uses the audio system to perform the first voice communication with the first communication party;
  • the second mode indicates that the multimode device uses the non-audio system to perform the second voice communication with the second communication party, or multimode
  • the device mixes the audio system and the non-audio system for second voice communication with the second party.
  • the first communication party and the second communication party refer to different communication terminals.
  • the first communication party may be a walkie-talkie
  • the second communication party may be a smart phone.
  • the audio system includes an earpiece/microphone configured by the multi-mode device itself.
  • the audio system also includes an audio playback device that is matched with the multi-mode device and is isolated from the microphone configured by the multi-mode device and does not affect each other. For example, headphones.
  • the multi-mode device can realize simultaneous communication, and can acquire two modes of voice communication at the same time, and adopt only one audio system without additional hardware cost. Further, when the multi-mode device communicates with different communication terminals at the same time, the audio system is preferentially used to perform voice communication with the first communication party to ensure normal voice communication with the first communication party while maintaining the voice of the second communication party. Communication is smooth.
  • the first mode communication of the multimode device with the first communication party in the first mode includes:
  • Sub-step S1021 when the first voice communication is in a transmitting state, the multi-mode device acquires a voice signal using a microphone in the audio system, and transmits the voice signal acquired by the microphone to the first communication party;
  • Sub-step S1021 When the first voice communication is in the receiving state, the multi-mode device receives the voice signal transmitted by the first communication party, and plays the voice signal sent by the first communication party using the earphone in the audio system.
  • the multimode device uses the microphone to acquire the voice signal, and when receiving the voice signal sent by the first communication party, uses the earpiece to play the first communication party.
  • sub-step S1021 and the sub-step S1022 do not have a chronological relationship.
  • the second mode indicates that the multimode device uses the non-audio system to perform the second voice communication with the second communicating party, regardless of the multimode device
  • the first voice communication with the first communication party is in a transmitting state or a receiving state.
  • the multi-mode device simultaneously performing the second voice communication with the second communication party in the second mode includes:
  • Sub-step S1041 The multi-mode device acquires text information input by the user, converts the input text information into a voice signal, and transmits the converted voice signal to the second communication party.
  • Sub-step S1042 When receiving the voice signal transmitted by the second communication party, the voice signal transmitted by the second communication party is converted into text information, and the converted text information is displayed.
  • the multi-mode device needs to transmit the voice to the second communication party, and in the sub-step S1042, the multi-mode device receives the voice transmitted by the second communication party.
  • Sub-step S1041 and sub-step S1042 perform no chronological relationship.
  • the text information can be converted into a voice signal by using a software part of the multi-mode device, that is, a non-audio system is used to perform voice communication with the second communication party, and the voice communication between the multi-mode device and the first communication party is performed.
  • a software part of the multi-mode device that is, a non-audio system is used to perform voice communication with the second communication party, and the voice communication between the multi-mode device and the first communication party is performed.
  • the second mode indicates that the multimode device mixes the audio system and the non-audio system to perform second voice communication with the second communication party, the first voice communication uses the audio system or not, and accordingly, the second voice The communication is also different.
  • the following describes the first voice communication between the multimode device and the second communication party in the second mode when the first voice communication is in a different state.
  • the multimode device uses the earpiece/headphone in the audio system to perform the first voice communication with the first communication party, and if the multimode device needs to simultaneously send the voice to the second communication party, Referring to FIG. 2, the multi-mode device simultaneously performs the second voice communication with the second communication party in the second mode, including:
  • Sub-step S1043 When the first voice communication is in the receiving state, the multi-mode device acquires the voice signal using the audio system, and transmits the acquired voice signal to the second communication party.
  • the multimode device plays the voice signal sent by the first communication party by using the earpiece/earphone in the audio system when receiving the voice signal sent by the first communication party.
  • the multi-mode device performs second voice communication with the second communication party, and uses the audio system to acquire the voice signal, that is, uses the microphone to acquire the voice signal, thereby completing the second voice communication, and effectively utilizing the audio system to enable communication with the second voice. diversification.
  • the multimode device uses the earpiece in the audio system to play the voice signal sent by the first communication party, the played voice enters the microphone, and the multimode device uses the microphone to obtain the second voice communication.
  • the voice signal sent by the first communication party and the voice signal acquired by the second voice communication are voice aliased, and then the useless voice signal is sent during the second voice communication, thereby Affecting the communication quality of the second voice communication, preferably, when the first voice communication is in the receiving state, the multimode device plays the voice signal sent by the first communication party, and uses the earphone in the audio system to play the first communication party to send voice signal.
  • the multimode device if the multimode device receives the voice signal sent by the second communication party, the multimode device simultaneously performs the second voice communication with the second communication party in the second mode, including:
  • Sub-step S1044 Upon receiving the voice signal transmitted by the second communication party, the multi-mode device converts the voice signal transmitted by the second communication party into text information, and displays the converted text information.
  • the multi-mode device when the first voice communication is in the receiving state, the multi-mode device performs the second voice communication with the second communication party, and when the second voice communication is in the transmitting state, the multi-mode device utilizes the audio system to effectively utilize the audio of the multi-mode device.
  • the multi-mode device When the second voice communication is in the receiving state, the multi-mode device utilizes the non-audio system to effectively ensure that the multi-mode device preferentially uses the microphone in the audio system to perform the first voice communication with the first communication party.
  • the multimode device uses the microphone in the audio system to perform the first voice communication with the first communication party, referring to FIG. 2, if the multimode device needs to simultaneously send the voice to the second communication party, At this time, the multi-mode device simultaneously performs the second voice communication with the second communication party in the second mode, including:
  • Sub-step S1045 When the first voice communication is in the transmitting state, the multi-mode device acquires the text information input by the user, converts the input text information into a voice signal, and transmits the converted voice signal to the second communication party.
  • the multimode device if the multimode device receives the voice signal sent by the second communication party, the multimode device simultaneously performs the second voice communication with the second communication party in the second mode, including:
  • Sub-step S1046 When receiving the voice signal transmitted by the second communication party, the voice signal sent by the second communication party is converted into text information, and the converted text information is displayed.
  • the multi-mode device when the first voice communication is in the transmitting state, the multi-mode device performs the second voice communication with the second communication party, and when the second voice communication is in the transmitting state, the multi-mode device utilizes the non-audio system to effectively ensure the priority of the multi-mode device.
  • the multimode device Using a microphone in the audio system to perform first voice communication with the first communication party; while the second voice communication is in a receiving state, the multimode device still utilizes the non-audio system to avoid interference of the second voice communication with the first voice communication, Thereby ensuring the communication quality of the first voice communication.
  • the first voice communication is on the first frequency band
  • the second voice communication is on the second frequency band, wherein the first frequency band is smaller than the second frequency band.
  • the first voice communication and the second voice communication sample different bandwidths to transmit communication information, such as voice signals, for example, the first voice communication transmits the voice signal in a narrow band, and the second voice communication transmits the voice signal in a wide band.
  • FIG. 3 it is a flowchart of the second embodiment of the communication method of the multi-mode device of the present invention.
  • the difference between the embodiment and the foregoing embodiment is that the communication method of the multi-mode device further includes:
  • Step S306 detecting whether the first voice communication ends
  • Step S308 If the first voice communication ends, the multimode device performs the second voice communication with the second communication party in the first mode.
  • step S306 if the first voice communication ends, step S308 is performed, and if no, step S302 is performed.
  • step S308 when the first voice communication ends, the multimode device performs the second voice communication with the second communication party in the first mode, that is, the multimode device uses the audio system to implement the second voice communication, thereby further effectively securing the multimode device.
  • the first voice communication is preferentially performed with the first communication party using the audio system, and the audio system is further effectively utilized.
  • Step S302 and step S304 are the same as steps S102 and S104 in the above embodiment, and the related content is described in detail in the above embodiment.
  • FIG. 4 it is a schematic structural diagram of an embodiment of a multimode device of the present invention.
  • the multimode device 400 can implement communication with different communication terminals, and can be a communication terminal, or a communication intermediate device or the like.
  • the multimode device 400 includes a first communication circuit 410 and a second communication circuit 420, wherein:
  • the first communication circuit 410 is configured to perform first voice communication with the first communication party in the first mode
  • the second communication circuit 420 is configured to perform second voice communication with the second communication party in the second mode while the first communication circuit 410 performs the first voice communication with the first communication party in the first mode;
  • the first mode indicates that the first communication circuit 410 uses the audio system to perform first voice communication with the first communication party; the second mode indicates that the second communication circuit 420 uses the non-audio system to perform second voice communication with the second communication party Or the second communication circuit 420 mixes the audio system and the non-audio system to perform second voice communication with the second communication party.
  • the first communication circuit 410 and the second communication circuit 420 respectively adopt different access technologies, for example, the first communication circuit 410 adopts narrowband access, the second communication circuit 320 adopts broadband access, and then the first communication The circuit 410 transmits the communication information in a narrow band, and the second communication circuit 420 transmits the communication information in a wide band.
  • the first communication party and the second communication party refer to different communication terminals, for example, the first communication party may be a walkie-talkie, and the second communication party may be a smart phone.
  • the multi-mode device can realize simultaneous communication, and can acquire two modes of voice communication at the same time, and adopt only one audio system without additional hardware cost. Further, when the multi-mode device communicates with different communication terminals at the same time, the audio system is preferentially used to perform voice communication with the first communication party to ensure normal voice communication with the first communication party while maintaining the voice of the second communication party. Communication is smooth.
  • the audio system includes an earpiece/microphone configured by the multi-mode device itself.
  • the audio system also includes audio that is paired with the multi-mode device and is isolated from the microphone configured by the multi-mode device and does not affect each other.
  • a playback device such as a headset.
  • the first communication circuit 410 includes a first transmitter 411 and a first receiver 412. If the audio system used by the user includes an earphone and a microphone, specifically:
  • the first transmitter 411 is configured to acquire a voice signal using a microphone in the audio system when the first voice communication is in a transmitting state, and send the voice signal acquired by the microphone to the first communication party.
  • the first receiver 412 is configured to receive a voice signal sent by the first communication party when the first voice communication is in the receiving state, and play the voice signal sent by the first communication party using the earphone in the audio system.
  • the first transmitter 411 acquires voice using a microphone in the audio system, and the first receiver 412 plays the first communication party using the earpiece when receiving the voice signal sent by the first communication party.
  • the voice signal sent If the audio system used by the user includes an earpiece and a microphone, the first transmitter 411 acquires voice using a microphone in the audio system, and the first receiver 412 plays the first communication party using the earpiece when receiving the voice signal sent by the first communication party. The voice signal sent.
  • the first receiver 411 is configured to play the voice signal sent by the first communication party by using the earphone in the audio system when receiving the voice signal sent by the first communication party.
  • the second communication circuit 420 includes a second transmitter 421 and a second receiver 422.
  • the second mode indicates that the multimode device uses the non-audio system to perform second voice communication with the second correspondent party, regardless of whether the first voice communication of the multimode device with the first correspondent party is in a transmitting state or a receiving state
  • the second transmitter 421 is configured to acquire text information input by the user, convert the input text information into a voice signal, and send the converted voice signal to the second communication party.
  • the second receiver 422 is configured to convert the voice signal sent by the second communication party into text information when the voice signal sent by the second communication party is received, and display the converted text information.
  • the second mode indicates that the multimode device 400 mixes the audio system and the non-audio system for second voice communication with the second party.
  • the first voice communication is in the receiving state, that is, the multimode device uses the earpiece/headphone in the audio system to perform the first voice communication with the first communication party, and if the multimode device needs to simultaneously send the voice to the second communication party.
  • the second transmitter 421 is configured to acquire a voice signal by using an audio system when the first voice communication is in a receiving state, and send the acquired voice signal to the second communication party.
  • the second receiver 422 is configured to convert the voice signal sent by the second communication party into text when receiving the voice signal sent by the second communication party. Information and display the converted text information.
  • the second transmitter 421 is configured to acquire text information input by the user when the first voice communication is in a transmitting state, and convert the input text information into a voice signal, and send the converted voice signal to the second communication party.
  • the first voice communication is in the transmitting state, if the multimode device receives the voice signal sent by the second communication party, the second receiver 422 is configured to receive the voice signal sent by the second communication party. The voice signal sent by the second party is converted into text information, and the converted text information is displayed.
  • the multimode device 400 further includes a controller 430, configured to detect whether the first communication circuit 410 stops working, and control the second communication circuit when the first communication circuit 410 stops working. 420 performs a second voice communication with the second party in the first mode.
  • Corresponding devices of the foregoing multi-mode device may be correspondingly used to perform the steps in the foregoing method embodiments. For specific description, refer to the description of the foregoing method embodiments.
  • FIG. 5 is a schematic structural diagram of an embodiment of a communication terminal according to the present invention.
  • the communication terminal 500 is configured to simultaneously communicate with a first communication party and a second communication party, where the first communication party and the second communication party refer to different
  • the communication device for example, the first communication party may be a walkie-talkie, the second communication party may be a smart phone, and the first communication party and the second communication party may be the same as or different from the communication terminal.
  • the communication terminal 500 includes a first transceiver 510, a second transceiver 520, a processor 530, a memory 540, and a bus 550, wherein the first transceiver 510, the second transceiver 520, and the memory 540 are connected to one another via a bus 550.
  • Bus 550 can be a peripheral component interconnect standard (English: Peripheral Component Interconnect, abbreviation: PCI) bus or extended industry standard structure (English: Extended Industry Standard Architecture, abbreviation: EISA) bus, etc.
  • PCI Peripheral Component Interconnect
  • EISA Extended Industry Standard Architecture
  • the bus can be divided into an address bus, a data bus, a control bus, and the like. For ease of representation, only one thick line is shown in Figure 5, but it does not mean that there is only one bus or one type of bus.
  • the memory 540 is used to store programs.
  • the program can include program code, the program code including computer operating instructions.
  • Memory 540 may include high speed random access memory memory and may also include non-volatile memory, such as at least one disk storage.
  • the first transceiver device 510 is configured to perform first voice communication with the first communication party in the first mode
  • the second transceiver device 520 is configured to perform second voice communication with the second communication party in the second mode while the first transceiver device performs the first voice communication with the first communication party in the first mode;
  • the first mode indicates that the first transceiver device 510 uses the audio system to perform first voice communication with the first communication party; the second mode indicates that the second transceiver device 520 uses the non-audio system to perform second voice communication with the second communication party. Or the second transceiver 520 mixes the audio system and the non-audio system to perform second voice communication with the second party.
  • the first transceiver 510 and the second transceiver 520 respectively use different access technologies.
  • the first transceiver 510 uses narrowband access
  • the second transceiver 520 uses broadband access, and then the first transceiver.
  • the device 510 transmits the communication information in a narrow band
  • the second transceiver device 520 transmits the communication information in a wide band.
  • the first transceiver 510 includes a first transmitter 511 and a first receiver 512
  • the second transceiver 520 includes a second transmitter 521 and a second receiver 522, which are respectively operative to perform the steps in the foregoing method embodiments.
  • the processor 530 may be a central processing unit executing a program stored in the memory 540 for detecting whether the first transceiver device 510 stops working, and controlling the second transceiver device 520 to be the first when the first transceiver device 510 stops working.
  • the mode performs a second voice communication with the second communicating party.
  • the first transceiver device and the second transceiver device of the foregoing communication terminal may be corresponding to the steps in the foregoing method embodiment.

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Abstract

Disclosed in the present invention is a communication method for a multimode device, comprising: upon receipt of communication requests of a first communication party and a second communication party, the multimode device performing a first voice communication with the first communication party in a first mode; and the multimode device synchronously performing a second voice communication with the second communication party in a second mode; the first mode indicating that the multimode device uses an audio system to perform the first voice communication with the first communication party; the second mode indicating that the multimode device uses a non-audio system to perform the second voice communication with the second communication party, or that the multimode device uses the audio system and the non-audio system in combination to perform the second voice communication with the second communication party. Also disclosed in the present invention are a corresponding multimode apparatus and a communication terminal. The present invention can achieve simultaneous communication, acquiring voice communications of two modes at the same time, and only uses one audio system, without adding additional hardware costs.

Description

一种多模设备的通信方法、多模装置及通信终端 Multi-mode device communication method, multi-mode device and communication terminal
【技术领域】[Technical Field]
本发明涉及移动通信技术领域,尤其涉及一种多模设备的通信方法、多模装置及通信终端。The present invention relates to the field of mobile communications technologies, and in particular, to a communication method, a multimode device, and a communication terminal of a multimode device.
【背景技术】 【Background technique】
随着移动通讯技术的迅速发展,移动终端在日常生活和工作中的使用越来越普及,其中,双模或多模通信设备随处可见,但是目前双模设备实现两种通信模式下同时通信并不存在。例如,现有技术中,当双模设备同时接收到两个来电时,用户手动选择接听一个来电,而将另一个来电置于通话保持状态或呼叫等待状态,从而实现通信。With the rapid development of mobile communication technologies, the use of mobile terminals in daily life and work is becoming more and more popular. Among them, dual-mode or multi-mode communication devices can be seen everywhere, but currently dual-mode devices realize simultaneous communication under two communication modes. does not exist. For example, in the prior art, when a dual mode device receives two incoming calls at the same time, the user manually selects to answer one incoming call, and puts another incoming call into a call hold state or a call waiting state, thereby implementing communication.
又例如,当双模设备的其中一个模式处于通话状态而另一个模式接收到来电时,通过记录来电的电话号码并拒绝该来电,或者,挂断通话并将音频切换到另一个模式接听来电,或者,保持通话并将音频切换到另一个模式来接听来电,在完成另一个模式下的通话时再将音频切换回原来的模式以继续原来的通话,从而实现通信。For another example, when one mode of the dual mode device is in a call state and the other mode receives an incoming call, the mobile phone number of the incoming call is recorded and the incoming call is rejected, or the call is hung up and the audio is switched to another mode to answer the incoming call. Or, hold the call and switch the audio to another mode to answer the call. When the call in the other mode is completed, the audio is switched back to the original mode to continue the original call, thereby achieving communication.
可以看出,现有的双模设备在进行通信时,同一时刻只能获取其中一个模式的语音通信,不能即时获取双模的信息,因此,如何实现一个只有一套音频通路的双模设备同时传输语音通话以使用户可以即时获取信息变得越来越重要。It can be seen that when the existing dual-mode device communicates, only one mode of voice communication can be obtained at the same time, and the dual-mode information cannot be obtained instantaneously. Therefore, how to implement a dual-mode device with only one set of audio channels simultaneously It is increasingly important to transmit voice calls so that users can get information instantly.
【发明内容】 [Summary of the Invention]
本发明的目的在于,针对现有技术中的双模设备在进行通信时同一时刻只能获取其中一个模式的语言通信,并且不能即时获取双模的信息,提供一种多模设备的通信方法、多模装置及通信终端,同一时刻可以获取双模信息,并且仅采用一个音频系统,无需增加硬件成本。It is an object of the present invention to provide a multi-mode device communication method for a dual-mode device in the prior art, in which only one mode of language communication can be acquired at the same time, and the dual-mode information cannot be acquired instantaneously. Multimode devices and communication terminals can acquire dual-mode information at the same time and use only one audio system without increasing hardware costs.
本发明解决上述技术问题所采用的技术方案是提供了一种多模设备的通信方法,包括:所述多模设备以第一模式与所述第一通信方进行第一语音通信;以及所述多模设备同时以第二模式与所述第二通信方进行第二语音通信;其中,所述第一模式表示所述多模设备使用音频系统以与所述第一通信方进行第一语音通信;所述第二模式表示所述多模设备使用非音频系统以与所述第二通信方进行第二语音通信,或者所述多模设备混合使用音频系统和非音频系统以与所述第二通信方进行第二语音通信。The technical solution adopted by the present invention to solve the above technical problem is to provide a communication method of a multimode device, comprising: the multimode device performing first voice communication with the first communication party in a first mode; The multimode device simultaneously performs second voice communication with the second party in a second mode; wherein the first mode indicates that the multimode device uses an audio system to perform first voice communication with the first party The second mode indicates that the multimode device uses a non-audio system to perform second voice communication with the second communication party, or the multimode device mixes an audio system and a non-audio system with the second The communicating party performs the second voice communication.
本发明解决上述技术问题所采用的另一技术方案是提供了一种多模装置,所述多模装置用于与第一通信方和第二通信方同时进行通信,包括:第一通信电路,用于以第一模式与所述第一通信方进行第一语音通信;第二通信电路,用于在所述第一通信电路以所述第一模式与所述第一通信方进行第一语音通信的同时,以第二模式与所述第二通信方进行第二语音通信;其中,所述第一模式表示所述第一通信电路使用音频系统以与所述第一通信方进行第一语音通信;所述第二模式表示所述第二通信电路使用非音频系统以与所述第二通信方进行第二语音通信,或者所述第二通信电路混合使用音频系统和非音频系统以与所述第二通信方进行第二语音通信。Another technical solution adopted by the present invention to solve the above technical problem is to provide a multi-mode device for simultaneously communicating with a first communication party and a second communication party, including: a first communication circuit, a first voice communication with the first communication party in a first mode; a second communication circuit, configured to perform a first voice with the first communication party in the first mode in the first communication circuit Simultaneously communicating with the second communication party in a second mode; wherein the first mode indicates that the first communication circuit uses an audio system to perform a first voice with the first communication party Communication; the second mode indicating that the second communication circuit uses a non-audio system to perform second voice communication with the second communication party, or the second communication circuit mixes an audio system and a non-audio system to The second communication party performs the second voice communication.
本发明解决上述技术问题所采用的另一技术方案是提供了一种通信终端,所述通信终端用于与第一通信方和第二通信方同时进行通信,包括:第一收发装置,用于以第一模式与所述第一通信方进行第一语音通信;第二收发装置,用于在所述第一收发装置以所述第一模式与所述第一通信方进行第一语音通信的同时,以第二模式与所述第二通信方进行第二语音通信;其中,所述第一模式表示所述第一收发装置使用音频系统以与所述第一通信方进行第一语音通信;所述第二模式表示所述第二收发装置使用非音频系统以与所述第二通信方进行第二语音通信,或者所述第二收发装置混合使用音频系统和非音频系统以与所述第二通信方进行第二语音通信。Another technical solution adopted by the present invention to solve the above technical problem is to provide a communication terminal for simultaneously communicating with a first communication party and a second communication party, including: a first transceiver device, configured to: Performing a first voice communication with the first communication party in a first mode; and second transceiver device, configured to perform a first voice communication with the first communication party in the first mode in the first transceiver device Simultaneously, performing a second voice communication with the second communication party in the second mode; wherein the first mode indicates that the first transceiver device uses an audio system to perform first voice communication with the first communication party; The second mode indicates that the second transceiver uses a non-audio system to perform a second voice communication with the second party, or the second transceiver mixes an audio system and a non-audio system with the The second communication party performs the second voice communication.
本发明的有益效果有:多模设备可实现同时通信,同一时刻能获取两个模式的语音通信,并且仅采用一个音频系统,无需额外增加硬件成本。The invention has the beneficial effects that the multi-mode device can realize simultaneous communication, can acquire two modes of voice communication at the same time, and adopts only one audio system without additional hardware cost.
进一步地,在多模设备与不同的通信终端同时进行通信时,优先使用音频系统与第一通信方进行语音通信,保障与第一通信方的语音通信正常,同时保持于第二通信方的语音通信畅通。Further, when the multi-mode device communicates with different communication terminals at the same time, the audio system is preferentially used to perform voice communication with the first communication party to ensure normal voice communication with the first communication party while maintaining the voice of the second communication party. Communication is smooth.
【附图说明】 [Description of the Drawings]
下面将结合附图及实施方式对本发明作进一步说明,附图中:The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:
图1是本发明的多模设备的通信方法第一实施例的流程图;1 is a flow chart showing a first embodiment of a communication method of a multimode device of the present invention;
图2是上述实施例的多模设备的通信示意图;2 is a schematic diagram of communication of the multimode device of the above embodiment;
图3是本发明的多模设备的通信方法第二实施例的流程图;3 is a flow chart showing a second embodiment of a communication method of a multimode device of the present invention;
图4是本发明的多模装置实施例的结构示意图;4 is a schematic structural view of an embodiment of a multimode device of the present invention;
图5是本发明的通信终端实施例的结构示意图。FIG. 5 is a schematic structural diagram of an embodiment of a communication terminal according to the present invention.
【具体实施方式】【detailed description】
为使本领域的技术人员更好地理解本发明的技术方案,下面结合附图和具体实施方式对本发明的技术方案做进一步详细描述。The technical solutions of the present invention are further described in detail below in conjunction with the accompanying drawings and specific embodiments.
如图1所示,是本发明的多模设备的通信方法第一实施例的流程图,多模设备是指具有不同无线接入技术的设备,例如宽带无线接入和窄带无线接入等,该多模设备可以与不同的通信终端进行通信,例如智能手机、对讲机等。该方法可应用于不同的应用场景,以实现与不同的通信终端进行同时通信,例如,同时接收到两个通信终端的通信请求的应用场景、与一个通信终端进行通信的过程中而接收到另一个通信终端的通信请求的应用场景。该方法包括以下步骤:As shown in FIG. 1 , it is a flowchart of a first embodiment of a communication method of a multimode device according to the present invention. A multimode device refers to a device having different radio access technologies, such as broadband wireless access and narrowband wireless access. The multimode device can communicate with different communication terminals, such as smart phones, walkie-talkies, and the like. The method can be applied to different application scenarios to realize simultaneous communication with different communication terminals, for example, an application scenario that simultaneously receives communication requests of two communication terminals, and communicates with one communication terminal while receiving another An application scenario of a communication request of a communication terminal. The method includes the following steps:
S102:多模设备以第一模式与第一通信方进行第一语音通信;S102: The multimode device performs first voice communication with the first communication party in the first mode.
S104:多模设备同时以第二模式与第二通信方进行第二语音通信;S104: The multimode device simultaneously performs the second voice communication with the second communication party in the second mode.
其中,第一模式表示多模设备使用音频系统以与第一通信方进行第一语音通信;第二模式表示多模设备使用非音频系统以与第二通信方进行第二语音通信,或者多模设备混合使用音频系统和非音频系统以与第二通信方进行第二语音通信。Wherein the first mode indicates that the multimode device uses the audio system to perform the first voice communication with the first communication party; the second mode indicates that the multimode device uses the non-audio system to perform the second voice communication with the second communication party, or multimode The device mixes the audio system and the non-audio system for second voice communication with the second party.
上述步骤中,第一通信方和第二通信方是指不同的通信终端,例如第一通信方可以是对讲机,第二通信方可以是智能手机。In the above steps, the first communication party and the second communication party refer to different communication terminals. For example, the first communication party may be a walkie-talkie, and the second communication party may be a smart phone.
本实施例中,音频系统包括多模设备自身配置的听筒/麦克风,当然,音频系统也包括与多模设备搭配的且与多模设备自身配置的麦克风相互隔离以及相互不影响的音频播放装置,例如耳机。In this embodiment, the audio system includes an earpiece/microphone configured by the multi-mode device itself. Of course, the audio system also includes an audio playback device that is matched with the multi-mode device and is isolated from the microphone configured by the multi-mode device and does not affect each other. For example, headphones.
通过上述实施例的实施,多模设备可实现同时通信,同一时刻能获取两个模式的语音通信,并且仅采用一个音频系统,无需额外增加硬件成本。进一步地,在多模设备与不同的通信终端同时进行通信时,优先使用音频系统与第一通信方进行语音通信,保障与第一通信方的语音通信正常,同时保持于第二通信方的语音通信畅通。Through the implementation of the above embodiment, the multi-mode device can realize simultaneous communication, and can acquire two modes of voice communication at the same time, and adopt only one audio system without additional hardware cost. Further, when the multi-mode device communicates with different communication terminals at the same time, the audio system is preferentially used to perform voice communication with the first communication party to ensure normal voice communication with the first communication party while maintaining the voice of the second communication party. Communication is smooth.
进一步地,在一个实施例中,参考图2,若用户使用的音频系统包括耳机和麦克风,此时,多模设备以第一模式与第一通信方进行第一语音通信包括:Further, in an embodiment, referring to FIG. 2, if the audio system used by the user includes the earphone and the microphone, the first mode communication of the multimode device with the first communication party in the first mode includes:
子步骤S1021:当第一语音通信处于发送状态时,多模设备使用音频系统中的麦克风获取语音信号,并将麦克风获取的语音信号发送至第一通信方;Sub-step S1021: when the first voice communication is in a transmitting state, the multi-mode device acquires a voice signal using a microphone in the audio system, and transmits the voice signal acquired by the microphone to the first communication party;
子步骤S1021:当第一语音通信处于接收状态时,多模设备接收第一通信方发送的语音信号,并使用音频系统中的耳机播放第一通信方发送的语音信号。Sub-step S1021: When the first voice communication is in the receiving state, the multi-mode device receives the voice signal transmitted by the first communication party, and plays the voice signal sent by the first communication party using the earphone in the audio system.
在其他实施例中,若用户使用的音频系统包括听筒和麦克风,此时,多模设备使用麦克风获取语音信号,而在接收到第一通信方发送的语音信号时,使用听筒播放第一通信方发送的语音信号。In other embodiments, if the audio system used by the user includes an earpiece and a microphone, at this time, the multimode device uses the microphone to acquire the voice signal, and when receiving the voice signal sent by the first communication party, uses the earpiece to play the first communication party. The voice signal sent.
需要说明的是,子步骤S1021与子步骤S1022执行没有时间先后关系。It should be noted that the sub-step S1021 and the sub-step S1022 do not have a chronological relationship.
多模设备在与第一通信方进行第一语音通信的同时,在一个实施例中,第二模式表示多模设备使用非音频系统以与第二通信方进行第二语音通信,无论多模设备与第一通信方的第一语音通信处于发送状态还是接收状态,此时,参考图2,多模设备同时以第二模式与第二通信方进行第二语音通信包括:While the multimode device is in the first voice communication with the first communicating party, in one embodiment, the second mode indicates that the multimode device uses the non-audio system to perform the second voice communication with the second communicating party, regardless of the multimode device The first voice communication with the first communication party is in a transmitting state or a receiving state. At this time, referring to FIG. 2, the multi-mode device simultaneously performing the second voice communication with the second communication party in the second mode includes:
子步骤S1041:多模设备获取用户输入的文本信息,并将输入的文本信息转换为语音信号,将转换的语音信号发送至第二通信方。Sub-step S1041: The multi-mode device acquires text information input by the user, converts the input text information into a voice signal, and transmits the converted voice signal to the second communication party.
子步骤S1042:在接收到第二通信方发送的语音信号时,将第二通信方发送的语音信号转换为文本信息,并显示转换的文本信息。Sub-step S1042: When receiving the voice signal transmitted by the second communication party, the voice signal transmitted by the second communication party is converted into text information, and the converted text information is displayed.
上述子步骤S1041中,多模设备需要向第二通信方发送语音,而子步骤S1042中,多模设备在接收到第二通信方发送的语音。子步骤S1041与子步骤S1042执行没有时间先后关系。In the above sub-step S1041, the multi-mode device needs to transmit the voice to the second communication party, and in the sub-step S1042, the multi-mode device receives the voice transmitted by the second communication party. Sub-step S1041 and sub-step S1042 perform no chronological relationship.
本实施例中,可通过多模设备的软件部分来实现将文本信息转换为语音信号,即使用非音频系统来与第二通信方进行语音通信,对多模设备与第一通信方的语音通信没有影响,可以看出,多模设备可同时获取两个语音通信的信息,并且仅使用一个音频系统,且保障优先与第一通信方之间的语音通信使用音频系统。In this embodiment, the text information can be converted into a voice signal by using a software part of the multi-mode device, that is, a non-audio system is used to perform voice communication with the second communication party, and the voice communication between the multi-mode device and the first communication party is performed. Without effect, it can be seen that the multimode device can simultaneously acquire information of two voice communications and use only one audio system, and guarantees that the voice communication between the priority and the first party uses the audio system.
在另一个实施例中,第二模式表示多模设备混合使用音频系统和非音频系统以与第二通信方进行第二语音通信,第一语音通信使用音频系统与否,相应地,第二语音通信也随之不相同,下面对第一语音通信处于不同的状态时多模设备以第二模式与第二通信方进行第一语音通信进行说明。In another embodiment, the second mode indicates that the multimode device mixes the audio system and the non-audio system to perform second voice communication with the second communication party, the first voice communication uses the audio system or not, and accordingly, the second voice The communication is also different. The following describes the first voice communication between the multimode device and the second communication party in the second mode when the first voice communication is in a different state.
当第一语音通信处于接收状态时,即多模设备使用音频系统中的听筒/耳机以与第一通信方进行第一语音通信,若多模设备需要同时向第二通信方发送语音,此时,参考图2,多模设备同时以第二模式与第二通信方进行第二语音通信包括:When the first voice communication is in the receiving state, that is, the multimode device uses the earpiece/headphone in the audio system to perform the first voice communication with the first communication party, and if the multimode device needs to simultaneously send the voice to the second communication party, Referring to FIG. 2, the multi-mode device simultaneously performs the second voice communication with the second communication party in the second mode, including:
子步骤S1043:当第一语音通信处于接收状态时,多模设备利用音频系统获取语音信号,并将获取的语音信号发送至第二通信方。Sub-step S1043: When the first voice communication is in the receiving state, the multi-mode device acquires the voice signal using the audio system, and transmits the acquired voice signal to the second communication party.
本实施例中,第一语音通信处于接收状态时,多模设备在接收第一通信方发送的语音信号时,使用音频系统中的听筒/耳机播放第一通信方发送的语音信号。此时,多模设备与第二通信方进行第二语音通信,利用音频系统获取语音信号,即使用麦克风来获取语音信号,进而完成第二语音通信,有效利用音频系统,使得与第二语音通信多样化。进一步地,由于多模设备使用音频系统中的听筒播放第一通信方发送的语音信号时,播放的语音会进入麦克风,而多模设备与第二通信方进行第二语音通信时利用麦克风来获取语音信号,可以看出,对于麦克风而言,播放第一通信方发送的语音信号与第二语音通信时获取的语音信号出现语音混叠,进而第二语音通信时发送了无用的语音信号,从而影响第二语音通信的通信质量,则优选地,第一语音通信处于接收状态时,多模设备在接收第一通信方发送的语音信号时,使用音频系统中的耳机播放第一通信方发送的语音信号。In this embodiment, when the first voice communication is in the receiving state, the multimode device plays the voice signal sent by the first communication party by using the earpiece/earphone in the audio system when receiving the voice signal sent by the first communication party. At this time, the multi-mode device performs second voice communication with the second communication party, and uses the audio system to acquire the voice signal, that is, uses the microphone to acquire the voice signal, thereby completing the second voice communication, and effectively utilizing the audio system to enable communication with the second voice. diversification. Further, since the multimode device uses the earpiece in the audio system to play the voice signal sent by the first communication party, the played voice enters the microphone, and the multimode device uses the microphone to obtain the second voice communication. For the voice signal, it can be seen that, for the microphone, the voice signal sent by the first communication party and the voice signal acquired by the second voice communication are voice aliased, and then the useless voice signal is sent during the second voice communication, thereby Affecting the communication quality of the second voice communication, preferably, when the first voice communication is in the receiving state, the multimode device plays the voice signal sent by the first communication party, and uses the earphone in the audio system to play the first communication party to send voice signal.
进一步地,参考图2,若多模设备接收到第二通信方发送的语音信号,多模设备同时以第二模式与第二通信方进行第二语音通信包括:Further, referring to FIG. 2, if the multimode device receives the voice signal sent by the second communication party, the multimode device simultaneously performs the second voice communication with the second communication party in the second mode, including:
子步骤S1044:在接收到第二通信方发送的语音信号时,多模设备将第二通信方发送的语音信号转换为文本信息,并显示转换的文本信息。Sub-step S1044: Upon receiving the voice signal transmitted by the second communication party, the multi-mode device converts the voice signal transmitted by the second communication party into text information, and displays the converted text information.
可以看出,第一语音通信处于接收状态时,多模设备与第二通信方进行第二语音通信,第二语音通信处于发送状态时,多模设备利用音频系统,有效利用多模设备的音频系统;而第二语音通信处于接收状态时,多模设备利用非音频系统,有效保障多模设备优先使用音频系统中的麦克风来与第一通信方进行第一语音通信。It can be seen that when the first voice communication is in the receiving state, the multi-mode device performs the second voice communication with the second communication party, and when the second voice communication is in the transmitting state, the multi-mode device utilizes the audio system to effectively utilize the audio of the multi-mode device. When the second voice communication is in the receiving state, the multi-mode device utilizes the non-audio system to effectively ensure that the multi-mode device preferentially uses the microphone in the audio system to perform the first voice communication with the first communication party.
当第一语音通信处于发送状态时,即多模设备使用音频系统中的麦克风以与第一通信方进行第一语音通信,参考图2,若多模设备需要同时向第二通信方发送语音,此时,多模设备同时以第二模式与第二通信方进行第二语音通信包括:When the first voice communication is in the transmitting state, that is, the multimode device uses the microphone in the audio system to perform the first voice communication with the first communication party, referring to FIG. 2, if the multimode device needs to simultaneously send the voice to the second communication party, At this time, the multi-mode device simultaneously performs the second voice communication with the second communication party in the second mode, including:
子步骤S1045:当第一语音通信处于发送状态时,多模设备获取用户输入的文本信息,并将输入的文本信息转换为语音信号,将转换的语音信号发送至第二通信方。Sub-step S1045: When the first voice communication is in the transmitting state, the multi-mode device acquires the text information input by the user, converts the input text information into a voice signal, and transmits the converted voice signal to the second communication party.
进一步地,参考图2,若多模设备接收到第二通信方发送的语音信号,多模设备同时以第二模式与第二通信方进行第二语音通信包括:Further, referring to FIG. 2, if the multimode device receives the voice signal sent by the second communication party, the multimode device simultaneously performs the second voice communication with the second communication party in the second mode, including:
子步骤S1046:在接收到第二通信方发送的语音信号时,将第二通信方发送的语音信号转换为文本信息,并显示转换的文本信息。Sub-step S1046: When receiving the voice signal transmitted by the second communication party, the voice signal sent by the second communication party is converted into text information, and the converted text information is displayed.
可以看出,第一语音通信处于发送状态时,多模设备与第二通信方进行第二语音通信,第二语音通信处于发送状态时,多模设备利用非音频系统,有效保障多模设备优先使用音频系统中的麦克风来与第一通信方进行第一语音通信;而第二语音通信处于接收状态时,多模设备仍然利用非音频系统,避免第二语音通信对第一语音通信的干扰,从而保障第一语音通信的通信质量。It can be seen that when the first voice communication is in the transmitting state, the multi-mode device performs the second voice communication with the second communication party, and when the second voice communication is in the transmitting state, the multi-mode device utilizes the non-audio system to effectively ensure the priority of the multi-mode device. Using a microphone in the audio system to perform first voice communication with the first communication party; while the second voice communication is in a receiving state, the multimode device still utilizes the non-audio system to avoid interference of the second voice communication with the first voice communication, Thereby ensuring the communication quality of the first voice communication.
需要说明的是,上述子步骤S1041-S1046执行没有时间先后关系,S1041-S1046仅表示存在上述子步骤,并不表示上述子步骤按照其排列或者图中所示的顺序来依次执行。It should be noted that the foregoing sub-steps S1041-S1046 perform no chronological relationship, and S1041-S1046 only indicate that the above-mentioned sub-steps exist, and does not indicate that the above-mentioned sub-steps are sequentially executed in the order of the arrangement or the sequence shown in the figure.
进一步地,上述实施例中,第一语音通信在第一频段上,第二语音通信在第二频段上,其中,第一频段小于第二频段。第一语音通信和第二语音通信采样不同的带宽来传输通信的信息,如语音信号,例如,第一语音通信以窄带来传输语音信号,第二语音通信以宽带来传输语音信号。Further, in the above embodiment, the first voice communication is on the first frequency band, and the second voice communication is on the second frequency band, wherein the first frequency band is smaller than the second frequency band. The first voice communication and the second voice communication sample different bandwidths to transmit communication information, such as voice signals, for example, the first voice communication transmits the voice signal in a narrow band, and the second voice communication transmits the voice signal in a wide band.
如图3所示,是本发明的多模设备的通信方法第二实施例的流程图,本实施例与上述实施例的区别在于,该多模设备的通信方法还包括:As shown in FIG. 3, it is a flowchart of the second embodiment of the communication method of the multi-mode device of the present invention. The difference between the embodiment and the foregoing embodiment is that the communication method of the multi-mode device further includes:
步骤S306:检测第一语音通信是否结束;Step S306: detecting whether the first voice communication ends;
步骤S308:若第一语音通信结束,则多模设备以第一模式与第二通信方进行第二语音通信。Step S308: If the first voice communication ends, the multimode device performs the second voice communication with the second communication party in the first mode.
在步骤S306中,若第一语音通信结束,则执行步骤S308,若否,则执行步骤S302。In step S306, if the first voice communication ends, step S308 is performed, and if no, step S302 is performed.
在步骤S308中,第一语音通信结束时,多模设备以第一模式与第二通信方进行第二语音通信,即多模设备使用音频系统来实现第二语音通信,进一步有效保障多模设备优先使用音频系统与第一通信方进行第一语音通信,并且进一步有效利用音频系统。In step S308, when the first voice communication ends, the multimode device performs the second voice communication with the second communication party in the first mode, that is, the multimode device uses the audio system to implement the second voice communication, thereby further effectively securing the multimode device. The first voice communication is preferentially performed with the first communication party using the audio system, and the audio system is further effectively utilized.
步骤S302和步骤S304与上述实施例中的步骤S102和步骤S104相同,相关内容详见上述实施例。Step S302 and step S304 are the same as steps S102 and S104 in the above embodiment, and the related content is described in detail in the above embodiment.
如图4所示,是本发明的多模装置实施例的结构示意图,该多模装置400可实现与不同的通信终端进行通信,可以是一个通信终端,或者一个通信中间设备等。该多模装置400包括第一通信电路410和第二通信电路420,其中:As shown in FIG. 4, it is a schematic structural diagram of an embodiment of a multimode device of the present invention. The multimode device 400 can implement communication with different communication terminals, and can be a communication terminal, or a communication intermediate device or the like. The multimode device 400 includes a first communication circuit 410 and a second communication circuit 420, wherein:
第一通信电路410用于以第一模式与第一通信方进行第一语音通信;The first communication circuit 410 is configured to perform first voice communication with the first communication party in the first mode;
第二通信电路420用于在第一通信电路410以第一模式与第一通信方进行第一语音通信的同时,以第二模式与第二通信方进行第二语音通信;The second communication circuit 420 is configured to perform second voice communication with the second communication party in the second mode while the first communication circuit 410 performs the first voice communication with the first communication party in the first mode;
其中,第一模式表示第一通信电路410使用音频系统以与第一通信方进行第一语音通信;第二模式表示第二通信电路420使用非音频系统以与第二通信方进行第二语音通信,或者第二通信电路420混合使用音频系统和非音频系统以与第二通信方进行第二语音通信。Wherein the first mode indicates that the first communication circuit 410 uses the audio system to perform first voice communication with the first communication party; the second mode indicates that the second communication circuit 420 uses the non-audio system to perform second voice communication with the second communication party Or the second communication circuit 420 mixes the audio system and the non-audio system to perform second voice communication with the second communication party.
本实施例中,第一通信电路410和第二通信电路420分别采用不同的接入技术,例如,第一通信电路410采用窄带接入,第二通信电路320采用宽带接入,进而第一通信电路410以窄带来传输通信的信息,第二通信电路420以宽带来传输通信的信息。第一通信方和第二通信方是指不同的通信终端,例如第一通信方可以是对讲机,第二通信方可以是智能手机。In this embodiment, the first communication circuit 410 and the second communication circuit 420 respectively adopt different access technologies, for example, the first communication circuit 410 adopts narrowband access, the second communication circuit 320 adopts broadband access, and then the first communication The circuit 410 transmits the communication information in a narrow band, and the second communication circuit 420 transmits the communication information in a wide band. The first communication party and the second communication party refer to different communication terminals, for example, the first communication party may be a walkie-talkie, and the second communication party may be a smart phone.
通过上述实施例的实施,多模装置可实现同时通信,同一时刻能获取两个模式的语音通信,并且仅采用一个音频系统,无需额外增加硬件成本。进一步地,在多模装置与不同的通信终端同时进行通信时,优先使用音频系统与第一通信方进行语音通信,保障与第一通信方的语音通信正常,同时保持于第二通信方的语音通信畅通。Through the implementation of the above embodiment, the multi-mode device can realize simultaneous communication, and can acquire two modes of voice communication at the same time, and adopt only one audio system without additional hardware cost. Further, when the multi-mode device communicates with different communication terminals at the same time, the audio system is preferentially used to perform voice communication with the first communication party to ensure normal voice communication with the first communication party while maintaining the voice of the second communication party. Communication is smooth.
进一步地,本实施例中,音频系统包括多模设备自身配置的听筒/麦克风,当然,音频系统也包括与多模设备搭配的且与多模设备自身配置的麦克风相互隔离以及相互不影响的音频播放装置,例如耳机。Further, in this embodiment, the audio system includes an earpiece/microphone configured by the multi-mode device itself. Of course, the audio system also includes audio that is paired with the multi-mode device and is isolated from the microphone configured by the multi-mode device and does not affect each other. A playback device, such as a headset.
第一通信电路410包括第一发射器411和第一接收器412,若用户使用的音频系统包括耳机和麦克风,具体地:The first communication circuit 410 includes a first transmitter 411 and a first receiver 412. If the audio system used by the user includes an earphone and a microphone, specifically:
第一发射器411用于当第一语音通信处于发送状态时,使用音频系统中的麦克风获取语音信号,并将麦克风获取的语音信号发送至第一通信方。The first transmitter 411 is configured to acquire a voice signal using a microphone in the audio system when the first voice communication is in a transmitting state, and send the voice signal acquired by the microphone to the first communication party.
第一接收器412用于当第一语音通信处于接收状态时,接收第一通信方发送的语音信号,并使用音频系统中的耳机播放第一通信方发送的语音信号。The first receiver 412 is configured to receive a voice signal sent by the first communication party when the first voice communication is in the receiving state, and play the voice signal sent by the first communication party using the earphone in the audio system.
若用户使用的音频系统包括听筒和麦克风,第一发射器411使用音频系统中的麦克风获取语音,第一接收器412在接收到第一通信方发送的语音信号时,使用听筒播放第一通信方发送的语音信号。If the audio system used by the user includes an earpiece and a microphone, the first transmitter 411 acquires voice using a microphone in the audio system, and the first receiver 412 plays the first communication party using the earpiece when receiving the voice signal sent by the first communication party. The voice signal sent.
进一步地,第一语音通信处于接收状态时,第一接收器411用于在接收第一通信方发送的语音信号时,使用音频系统中的耳机播放第一通信方发送的语音信号。Further, when the first voice communication is in the receiving state, the first receiver 411 is configured to play the voice signal sent by the first communication party by using the earphone in the audio system when receiving the voice signal sent by the first communication party.
具体地,第二通信电路420包括第二发射器421和第二接收器422。Specifically, the second communication circuit 420 includes a second transmitter 421 and a second receiver 422.
在一个实施例中,第二模式表示多模装置使用非音频系统以与第二通信方进行第二语音通信,无论多模装置与第一通信方的第一语音通信处于发送状态还是接收状态,第二发射器421用于获取用户输入的文本信息,并将输入的文本信息转换为语音信号,将转换的语音信号发送至第二通信方。第二接收器422用于在接收到第二通信方发送的语音信号时,将第二通信方发送的语音信号转换为文本信息,并显示转换的文本信息。In one embodiment, the second mode indicates that the multimode device uses the non-audio system to perform second voice communication with the second correspondent party, regardless of whether the first voice communication of the multimode device with the first correspondent party is in a transmitting state or a receiving state, The second transmitter 421 is configured to acquire text information input by the user, convert the input text information into a voice signal, and send the converted voice signal to the second communication party. The second receiver 422 is configured to convert the voice signal sent by the second communication party into text information when the voice signal sent by the second communication party is received, and display the converted text information.
在另一个实施例中,第二模式表示多模装置400混合使用音频系统和非音频系统以与第二通信方进行第二语音通信。当第一语音通信处于接收状态时,即多模设备使用音频系统中的听筒/耳机以与第一通信方进行第一语音通信,若多模设备需要同时向第二通信方发送语音,此时,第二发射器421用于当第一语音通信处于接收状态时,利用音频系统获取语音信号,并将获取的语音信号发送至第二通信方。若多模设备接收到第二通信方发送的语音信号,此时,第二接收器422用于在接收到第二通信方发送的语音信号时,将第二通信方发送的语音信号转换为文本信息,并显示转换的文本信息。In another embodiment, the second mode indicates that the multimode device 400 mixes the audio system and the non-audio system for second voice communication with the second party. When the first voice communication is in the receiving state, that is, the multimode device uses the earpiece/headphone in the audio system to perform the first voice communication with the first communication party, and if the multimode device needs to simultaneously send the voice to the second communication party, The second transmitter 421 is configured to acquire a voice signal by using an audio system when the first voice communication is in a receiving state, and send the acquired voice signal to the second communication party. If the multi-mode device receives the voice signal sent by the second communication party, the second receiver 422 is configured to convert the voice signal sent by the second communication party into text when receiving the voice signal sent by the second communication party. Information and display the converted text information.
当第一语音通信处于发送状态时,即多模设备使用音频系统中的麦克风以与第一通信方进行第一语音通信,若多模设备需要同时向第二通信方发送语音,此时,第二发射器421用于当第一语音通信处于发送状态时,获取用户输入的文本信息,并将输入的文本信息转换为语音信号,将转换的语音信号发送至第二通信方。当第一语音通信处于发送状态时,若多模设备接收到第二通信方发送的语音信号,此时,第二接收器422用于在接收到第二通信方发送的语音信号时,将第二通信方发送的语音信号转换为文本信息,并显示转换的文本信息。When the first voice communication is in a transmitting state, that is, the multimode device uses a microphone in the audio system to perform first voice communication with the first communication party, and if the multimode device needs to simultaneously send voice to the second communication party, at this time, The second transmitter 421 is configured to acquire text information input by the user when the first voice communication is in a transmitting state, and convert the input text information into a voice signal, and send the converted voice signal to the second communication party. When the first voice communication is in the transmitting state, if the multimode device receives the voice signal sent by the second communication party, the second receiver 422 is configured to receive the voice signal sent by the second communication party. The voice signal sent by the second party is converted into text information, and the converted text information is displayed.
进一步地,本实施例中,多模装置400还包括控制器430,该控制器430用于检测第一通信电路410是否停止工作,并在第一通信电路410停止工作时,控制第二通信电路420以第一模式与第二通信方进行第二语音通信。Further, in the embodiment, the multimode device 400 further includes a controller 430, configured to detect whether the first communication circuit 410 stops working, and control the second communication circuit when the first communication circuit 410 stops working. 420 performs a second voice communication with the second party in the first mode.
上述多模装置的对应器件可对应用于执行上述方法实施例中的步骤,具体说明请参阅上述方法实施例的描述。Corresponding devices of the foregoing multi-mode device may be correspondingly used to perform the steps in the foregoing method embodiments. For specific description, refer to the description of the foregoing method embodiments.
如图5所示,是本发明的通信终端实施例的结构示意图,该通信终端500用于与第一通信方和第二通信方同时进行通信,第一通信方和第二通信方是指不同的通信设备,例如第一通信方可以是对讲机,第二通信方可以是智能手机,第一通信方和第二通信方可以与通信终端相同,也可以不同。该通信终端500包括第一收发装置510、第二收发装置520、处理器530、存储器540和总线550,其中,第一收发装置510、第二收发装置520和存储器540通过总线550相互连接。FIG. 5 is a schematic structural diagram of an embodiment of a communication terminal according to the present invention. The communication terminal 500 is configured to simultaneously communicate with a first communication party and a second communication party, where the first communication party and the second communication party refer to different The communication device, for example, the first communication party may be a walkie-talkie, the second communication party may be a smart phone, and the first communication party and the second communication party may be the same as or different from the communication terminal. The communication terminal 500 includes a first transceiver 510, a second transceiver 520, a processor 530, a memory 540, and a bus 550, wherein the first transceiver 510, the second transceiver 520, and the memory 540 are connected to one another via a bus 550.
总线550可以是外设部件互连标准(英文:Peripheral Component Interconnect,缩写:PCI)总线或扩展工业标准结构(英文:Extended Industry Standard Architecture,缩写:EISA)总线等。所述总线可以分为地址总线、数据总线、控制总线等。为便于表示,图5中仅用一条粗线表示,但并不表示仅有一根总线或一种类型的总线。Bus 550 can be a peripheral component interconnect standard (English: Peripheral Component Interconnect, abbreviation: PCI) bus or extended industry standard structure (English: Extended Industry Standard Architecture, abbreviation: EISA) bus, etc. The bus can be divided into an address bus, a data bus, a control bus, and the like. For ease of representation, only one thick line is shown in Figure 5, but it does not mean that there is only one bus or one type of bus.
存储器540用于存放程序。具体地,程序可以包括程序代码,所述程序代码包括计算机操作指令。存储器540可能包含高速随机存取存储器存储器,也可能还包括非易失性存储器,例如至少一个磁盘存储器。The memory 540 is used to store programs. In particular, the program can include program code, the program code including computer operating instructions. Memory 540 may include high speed random access memory memory and may also include non-volatile memory, such as at least one disk storage.
第一收发装置510用于以第一模式与第一通信方进行第一语音通信;The first transceiver device 510 is configured to perform first voice communication with the first communication party in the first mode;
第二收发装置520用于在第一收发装置以第一模式与第一通信方进行第一语音通信的同时,以第二模式与第二通信方进行第二语音通信;The second transceiver device 520 is configured to perform second voice communication with the second communication party in the second mode while the first transceiver device performs the first voice communication with the first communication party in the first mode;
其中,第一模式表示第一收发装置510使用音频系统以与第一通信方进行第一语音通信;第二模式表示第二收发装置520使用非音频系统以与第二通信方进行第二语音通信,或者第二收发装置520混合使用音频系统和非音频系统以与第二通信方进行第二语音通信。The first mode indicates that the first transceiver device 510 uses the audio system to perform first voice communication with the first communication party; the second mode indicates that the second transceiver device 520 uses the non-audio system to perform second voice communication with the second communication party. Or the second transceiver 520 mixes the audio system and the non-audio system to perform second voice communication with the second party.
本实施例中,第一收发装置510和第二收发装置520分别采用不同的接入技术,例如,第一收发装置510采用窄带接入,第二收发装置520采用宽带接入,进而第一收发装置510以窄带来传输通信的信息,第二收发装置520以宽带来传输通信的信息。第一收发装置510包括第一发射器511和第一接收器512,第二收发装置520包括第二发射器521和第二接收器522,其可分别对应用于执行上述方法实施例中的步骤,具体说明请参阅上述方法实施例的描述。In this embodiment, the first transceiver 510 and the second transceiver 520 respectively use different access technologies. For example, the first transceiver 510 uses narrowband access, and the second transceiver 520 uses broadband access, and then the first transceiver. The device 510 transmits the communication information in a narrow band, and the second transceiver device 520 transmits the communication information in a wide band. The first transceiver 510 includes a first transmitter 511 and a first receiver 512, and the second transceiver 520 includes a second transmitter 521 and a second receiver 522, which are respectively operative to perform the steps in the foregoing method embodiments. For specific description, please refer to the description of the above method embodiment.
处理器530可能是一个中央处理器,执行存储器540所存放的程序,用于检测第一收发装置510是否停止工作,并在第一收发装置510停止工作时,控制第二收发装置520以第一模式与第二通信方进行第二语音通信。The processor 530 may be a central processing unit executing a program stored in the memory 540 for detecting whether the first transceiver device 510 stops working, and controlling the second transceiver device 520 to be the first when the first transceiver device 510 stops working. The mode performs a second voice communication with the second communicating party.
上述通信终端的第一收发装置和第二收发装置可对应用于执行上述方法实施例中的步骤,具体说明请参阅上述方法实施例的描述。The first transceiver device and the second transceiver device of the foregoing communication terminal may be corresponding to the steps in the foregoing method embodiment. For specific description, refer to the description of the foregoing method embodiment.
以上仅为本发明的实施方式,并非因此限制本发明的专利范围,凡是利用本发明说明书及附图内容所作的等效结构或等效流程变换,或直接或间接运用在其他相关的技术领域,均同理包括在本发明的专利保护范围。The above is only the embodiment of the present invention, and is not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformation made by the specification and the drawings of the present invention may be directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims (16)

  1. 一种多模设备的通信方法,其中,包括:A communication method for a multimode device, comprising:
    所述多模设备以第一模式与所述第一通信方进行第一语音通信;以及The multimode device performs a first voice communication with the first correspondent party in a first mode;
    所述多模设备同时以第二模式与所述第二通信方进行第二语音通信;The multimode device simultaneously performs a second voice communication with the second communication party in a second mode;
    其中,所述第一模式表示所述多模设备使用音频系统以与所述第一通信方进行第一语音通信;所述第二模式表示所述多模设备使用非音频系统以与所述第二通信方进行第二语音通信,或者所述多模设备混合使用音频系统和非音频系统以与所述第二通信方进行第二语音通信。Wherein the first mode indicates that the multimode device uses an audio system to perform first voice communication with the first communication party; the second mode indicates that the multimode device uses a non-audio system to The second communication party performs the second voice communication, or the multimode device mixes the audio system and the non-audio system to perform the second voice communication with the second communication party.
  2. 根据权利要求1中所述的方法,其中,所述多模设备同时以第二模式与所述第二通信方进行第二语音通信包括:The method of claim 1 wherein said multimode device simultaneously performs a second voice communication with said second party in a second mode comprises:
    当所述第一语音通信处于发送状态时,所述多模设备获取用户输入的文本信息,并将所述输入的文本信息转换为语音信号,将所述转换的语音信号发送至所述第二通信方。When the first voice communication is in a transmitting state, the multimode device acquires text information input by the user, and converts the input text information into a voice signal, and sends the converted voice signal to the second Communication party.
  3. 根据权利要求1中所述的方法,其中,所述多模设备同时以第二模式与所述第二通信方进行第二语音通信包括:The method of claim 1 wherein said multimode device simultaneously performs a second voice communication with said second party in a second mode comprises:
    当所述第一语音通信处于接收状态时,所述多模设备利用音频系统获取语音信号,并将所述获取的语音信号发送至所述第二通信方。When the first voice communication is in a receiving state, the multimode device acquires a voice signal using an audio system, and transmits the acquired voice signal to the second communication party.
  4. 根据权利要求3中所述的方法,其中,所述音频系统包括耳机和麦克风。The method of claim 3 wherein said audio system comprises an earphone and a microphone.
  5. 根据权利要求4中所述的方法,其中,所述多模设备以第一模式与所述第一通信方进行第一语音通信包括:The method according to claim 4, wherein said multi-mode device performs first voice communication with said first correspondent party in a first mode comprises:
    当所述第一语音通信处于发送状态时,所述多模设备使用音频系统中的所述麦克风获取语音信号,并将所述麦克风获取的语音信号发送至所述第一通信方;When the first voice communication is in a transmitting state, the multimode device acquires a voice signal using the microphone in the audio system, and transmits the voice signal acquired by the microphone to the first communication party;
    当所述第一语音通信处于接收状态时,所述多模设备接收所述第一通信方发送的语音信号,并使用音频系统中的所述耳机播放所述第一通信方发送的语音信号。When the first voice communication is in a receiving state, the multimode device receives a voice signal sent by the first communication party, and plays the voice signal sent by the first communication party using the earphone in the audio system.
  6. 根据权利要求1中所述的方法,其中,所述多模设备同时以第二模式与所述第二通信方进行第二语音通信包括:The method of claim 1 wherein said multimode device simultaneously performs a second voice communication with said second party in a second mode comprises:
    所述多模设备获取用户输入的文本信息,并将所述输入的文本信息转换为语音信号,将所述转换的语音信号发送至所述第二通信方。The multimode device acquires text information input by the user, and converts the input text information into a voice signal, and sends the converted voice signal to the second communication party.
  7. 根据权利要求1中所述的方法,其中,所述多模设备同时以第二模式与所述第二通信方进行第二语音通信包括:The method of claim 1 wherein said multimode device simultaneously performs a second voice communication with said second party in a second mode comprises:
    在接收到所述第二通信方发送的语音信号时,将所述第二通信方发送的语音信号转换为文本信息,并显示所述转换的文本信息。And receiving the voice signal sent by the second communication party, converting the voice signal sent by the second communication party into text information, and displaying the converted text information.
  8. 根据权利要求1中所述的方法,其中,还包括:The method of claim 1 further comprising:
    检测所述第一语音通信是否结束;Detecting whether the first voice communication ends;
    若所述第一语音通信结束,则所述多模设备以所述第一模式与所述第二通信方进行第二语音通信。And if the first voice communication ends, the multimode device performs second voice communication with the second communication party in the first mode.
  9. 根据权利要求1-8中任一项所述的方法,其中,所述第一语音通信在第一频段上,所述第二语音通信在第二频段上,其中,所述第一频段小于所述第二频段。The method according to any one of claims 1-8, wherein the first voice communication is on a first frequency band and the second voice communication is on a second frequency band, wherein the first frequency band is smaller than The second frequency band is described.
  10. 一种多模装置,其中,所述多模装置用于与第一通信方和第二通信方同时进行通信,包括:A multi-mode device, wherein the multi-mode device is configured to simultaneously communicate with a first communication party and a second communication party, including:
    第一通信电路,用于以第一模式与所述第一通信方进行第一语音通信;a first communication circuit, configured to perform first voice communication with the first communication party in a first mode;
    第二通信电路,用于在所述第一通信电路以所述第一模式与所述第一通信方进行第一语音通信的同时,以第二模式与所述第二通信方进行第二语音通信;a second communication circuit, configured to perform a second voice with the second communication party in the second mode while the first communication circuit performs the first voice communication with the first communication party in the first mode Communication
    其中,所述第一模式表示所述第一通信电路使用音频系统以与所述第一通信方进行第一语音通信;所述第二模式表示所述第二通信电路使用非音频系统以与所述第二通信方进行第二语音通信,或者所述第二通信电路混合使用音频系统和非音频系统以与所述第二通信方进行第二语音通信。Wherein the first mode indicates that the first communication circuit uses an audio system to perform first voice communication with the first communication party; and the second mode indicates that the second communication circuit uses a non-audio system to The second communication party performs the second voice communication, or the second communication circuit mixes the audio system and the non-audio system to perform the second voice communication with the second communication party.
  11. 根据权利要求10中所述的多模装置,其中,所述第二通信电路包括第二发射器,所述第二发射器用于当所述第一语音通信处于发送状态时,获取用户输入的文本信息,并将所述输入的文本信息转换为语音信号,将所述转换的语音信号发送至所述第二通信方。A multimode apparatus according to claim 10, wherein said second communication circuit comprises a second transmitter for acquiring text input by a user when said first voice communication is in a transmitting state And converting the input text information into a voice signal, and transmitting the converted voice signal to the second communication party.
  12. 根据权利要求10中所述的多模装置,其中,所述第二通信电路包括第二发射器,所述发送单元用于当所述第一语音通信处于接收状态时,所述多模设备利用音频系统获取语音信号,并将所述获取的语音信号发送至所述第二通信方。A multimode apparatus according to claim 10, wherein said second communication circuit includes a second transmitter, said transmitting unit is operative to utilize said multimode device when said first voice communication is in a receiving state The audio system acquires a voice signal and transmits the acquired voice signal to the second party.
  13. 根据权利要求12中所述的多模装置,其中,所述音频系统包括耳机和麦克风;A multimode apparatus according to claim 12, wherein said audio system comprises an earphone and a microphone;
    所述第一通信电路包括:The first communication circuit includes:
    第一发射器,用于当所述第一语音通信处于发送状态时,使用音频系统中的麦克风获取语音信号,并将所述麦克风获取的语音信号发送至所述第一通信方;a first transmitter, configured to: when the first voice communication is in a transmitting state, acquire a voice signal by using a microphone in the audio system, and send the voice signal acquired by the microphone to the first communication party;
    第一接收器,用于当所述第一语音通信处于接收状态时,接收所述第一通信方发送的语音信号,并使用音频系统中的耳机播放所述第一通信方发送的语音信号。The first receiver is configured to receive a voice signal sent by the first communication party when the first voice communication is in a receiving state, and play the voice signal sent by the first communication party by using an earphone in the audio system.
  14. 根据权利要求10中所述的多模装置,其中,所述第二通信电路包括第二发射器,所述第二发射器用于获取用户输入的文本信息,并将所述输入的文本信息转换为语音信号,将所述转换的语音信号发送至所述第二通信方。A multimode apparatus according to claim 10, wherein said second communication circuit comprises a second transmitter for acquiring text information input by a user and converting said input text information into And a voice signal, the converted voice signal is sent to the second communication party.
  15. 根据权利要求10中所述的多模装置,其中,所述第二通信电路包括第二接收器,所述第二接收器用于在接收到所述第二通信方发送的语音信号时,将所述第二通信方发送的语音信号转换为文本信息,并显示所述转换的文本信息。The multimode apparatus according to claim 10, wherein said second communication circuit comprises a second receiver for transmitting a voice signal transmitted by said second communication party The voice signal transmitted by the second communication party is converted into text information, and the converted text information is displayed.
  16. 一种通信终端,其中,所述通信终端用于与第一通信方和第二通信方同时进行通信,包括:A communication terminal, wherein the communication terminal is configured to simultaneously communicate with a first communication party and a second communication party, including:
    第一收发装置,用于以第一模式与所述第一通信方进行第一语音通信;a first transceiver, configured to perform first voice communication with the first communication party in a first mode;
    第二收发装置,用于在所述第一收发装置以所述第一模式与所述第一通信方进行第一语音通信的同时,以第二模式与所述第二通信方进行第二语音通信;a second transceiver, configured to perform a second voice with the second communication party in the second mode while the first transceiver device performs the first voice communication with the first communication party in the first mode Communication
    其中,所述第一模式表示所述第一收发装置使用音频系统以与所述第一通信方进行第一语音通信;所述第二模式表示所述第二收发装置使用非音频系统以与所述第二通信方进行第二语音通信,或者所述第二收发装置混合使用音频系统和非音频系统以与所述第二通信方进行第二语音通信。Wherein the first mode indicates that the first transceiver uses an audio system to perform first voice communication with the first party; the second mode indicates that the second transceiver uses a non-audio system to The second communication party performs the second voice communication, or the second transceiver device mixes the audio system and the non-audio system to perform the second voice communication with the second communication party.
PCT/CN2017/088066 2017-06-13 2017-06-13 Communication method for multimode device, multimode apparatus and communication terminal WO2018227377A1 (en)

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