阅读说明：本技术 一种同声传译的设备及方法 (Simultaneous interpretation equipment and method ) 是由 杨大胜 潘再生 来晓 郑慧娴 曹焱 何超 于 2020-03-30 设计创作，主要内容包括：本发明提供了一种同声传译设备及方法,所述设备包括：第一语言采集播放模块、第二语言采集播放模块、主机模块；所述主机模块进一步包括：用于采集第一语言或第二语言的音频数据的第三语音采集单元；用于播放第二语言或第一语言的音频数据的第三语音播放单元；用于将第一语言的音频数据翻译成第二语言的音频数据或将第二语言的音频数据翻译成第一语言的音频数据的语音翻译单元；其中,所述主机模块与所述第一语言采集播放模块之间建立有第一链路；所述主机模块与所述第二语言采集播放模块之间建立有第二链路；所述主机模块可选择打开或关闭上述第一链路和第二链路,所述主机模块可选择打开或关闭其各个单元的功能。(The invention provides simultaneous interpretation equipment and a simultaneous interpretation method, wherein the equipment comprises: the system comprises a first language acquisition and playing module, a second language acquisition and playing module and a host module; the host module further comprises: a third voice collecting unit for collecting audio data of the first language or the second language; a third voice playing unit for playing the audio data of the second language or the first language; a speech translation unit for translating audio data in a first language into audio data in a second language or vice versa; a first link is established between the host module and the first language acquisition and playing module; a second link is established between the host module and the second language acquisition and playing module; the host module can selectively open or close the first link and the second link, and the host module can selectively open or close the functions of each unit.)

1. A simultaneous interpretation apparatus, comprising:

the system comprises a first language acquisition and playing module, a second language acquisition and playing module and a host module;

the first language acquisition and playing module is used for acquiring or playing audio data of a first language;

the second language acquisition and playing module is used for acquiring or playing audio data of a second language;

the host module further comprises:

a third voice collecting unit for collecting audio data of the first language or the second language;

a third voice playing unit for playing the audio data of the second language or the first language;

a speech translation unit for translating audio data in a first language into audio data in a second language or vice versa;

a first link is established between the host module and the first language acquisition and playing module; the host module and the first language acquisition and playing module perform wireless transmission of audio data of a first language through the first link;

a second link is established between the host module and the second language acquisition and playing module; the host module and the second language acquisition and playing module perform wireless transmission of audio data of a second language through the second link;

the host module can selectively open or close the first link and the second link, and the host module can selectively open or close the functions of each unit thereof as follows:

when the host module opens the first link and opens the second link, the host module closes the functions of the third voice acquisition unit and the third voice playing unit and opens the function of the voice translation unit;

when the host module opens the first link and closes the second link, the host module opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit;

when the host module closes the first link and closes the second link, the host module opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit.

2. The device of claim 1, wherein the first language acquisition playing module is a wireless bluetooth headset or a smart phone.

3. The device of claim 1, wherein the second language acquisition playing module is a wireless bluetooth headset or a smart phone.

4. The device of claim 1, wherein the first language acquisition playing module and the second language acquisition playing module are provided with detection units for acquiring wearing state signals of the first language acquisition playing module and the second language acquisition playing module and sending the signals to the host module; the host module judges whether the first language acquisition playing module and the second language acquisition playing module are in a wearing state according to the signal, selectively opens or closes the first link and the second link according to different wearing states, and selectively opens or closes the functions of each unit as follows:

if the first language acquisition playing module and the second language acquisition playing module are both in a worn state, the host module opens the first link, opens the second link, closes the functions of the third voice acquisition unit and the third voice playing unit, and opens the function of the voice translation unit;

if the first language acquisition playing module is in a worn state and the second language acquisition playing module is in an unworn state, the host module opens the first link, closes the second link and opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit;

if the first language acquisition playing module and the second language acquisition playing module are both in an unworn state, the host module closes the first link, and opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit when closing the second link.

5. The device of claim 1, wherein the host module further comprises: and the display unit is used for displaying the audio data of the first language and the second language in real time in a subtitle form.

6. The device of claim 1, wherein the first language-capture rendering module and the second language-capture rendering module are internal to the host module.

7. The device of claim 1, wherein the host module is provided with a charging port for charging the first language acquisition playing module and the second language acquisition playing module.

8. A simultaneous interpretation method, applied to the simultaneous interpretation apparatuses as claimed in claims 1 to 7, comprising the steps of:

the host module opens a first link established between the host module and the first language acquisition and playing module, and the host module opens a second link established between the host module and the second language acquisition and playing module; the host module closes the functions of the third voice acquisition unit and the third voice playing unit and opens the function of the voice translation unit;

the first language acquisition and playing module acquires audio data of a first language and wirelessly transmits the audio data of the first language to the host module through the first link, the voice translation unit of the host module translates the audio data of the first language into audio data of a second language and wirelessly transmits the translated audio data of the second language to the second language acquisition and playing module through the second link, and the second language acquisition and playing module plays the audio data of the second language;

the voice translation unit of the host computer module translates the audio data of the second language into audio data of a first language and wirelessly transmits the translated audio data of the first language to the first language acquisition and playing module through the first link, and the first language acquisition and playing module plays the audio data of the first language.

9. A simultaneous interpretation method, applied to the simultaneous interpretation apparatuses as claimed in claims 1 to 7, comprising the steps of:

the host module opens a first link established between the host module and the first language acquisition and playing module, and closes a second link established between the host module and the second language acquisition and playing module; the host module opens the functions of a third voice acquisition unit, a third voice playing unit and a voice translation unit;

the first language acquisition and playing module acquires audio data of a first language and wirelessly transmits the audio data of the first language to the host module through the first link, and the host module translates the audio data of the first language into audio data of a second language and plays the translated audio data of the second language through a third voice playing unit of the host module;

the host module collects audio data of a second language through a third voice collecting unit, translates the audio data of the second language into audio data of a first language through a voice translating unit, wirelessly transmits the translated audio data of the first language to the first language collecting and playing module through the first link, and the first language collecting and playing module plays the audio data of the first language.

10. A simultaneous interpretation method, applied to the simultaneous interpretation apparatuses as claimed in claims 1 to 7, comprising the steps of:

the host module closes a first link established between the host module and the first language acquisition and playing module, and the host module closes a second link established between the host module and the second language acquisition and playing module; the host module opens the functions of a third voice acquisition unit, a third voice playing unit and a voice translation unit;

a third voice acquisition unit of the host module acquires audio data of a first language and sends the audio data to a voice translation unit, and the voice translation unit translates the audio data of the first language into audio data of a second language and sends the translated audio data of the second language to a third voice playing unit for playing;

the third voice acquisition unit of the host module acquires audio data of a second language and sends the audio data to the voice translation unit, and the voice translation unit translates the audio data of the second language into audio data of a first language and sends the translated audio data of the first language to the third voice playing unit for playing.

Technical Field

The invention relates to simultaneous interpretation technology, in particular to a simultaneous interpretation device and a simultaneous interpretation method.

Background

In the current society, the demand for intelligent hardware devices that can implement simultaneous interpretation is very strong. First, more and more people have a demand for foreign play. Although english has begun to spread, it is still a few that can be used for daily communication. A large percentage of people are expensive and dare not to move freely. Secondly, many countries such as China still have difficulty in moving to English only. Again, simultaneous interpretation is always a big requirement, but current simultaneous interpretation is mainly achieved in conference rooms by manual interpretation.

On the other hand, the realization of simultaneous interpretation equipment has great technical feasibility, high-speed mobile networks are covered in the world or are about to be covered, mobile phone instant interpretation software products are numerous, the voice acquisition and reduction processing capacity of intelligent hardware equipment is greatly enhanced, the N L P natural language processing technology is mature day by day, the voice recognition and translation platforms such as Google, news flight and hundredth are mature and open to use, and in addition, a rich AI technical framework can be borrowed.

The current translation devices include:

1. translation pen/rod

With keys, with a loudspeaker and with a microphone. The recording and translating functions are triggered by the key belt, and the translated content is displayed in the direction of voice or characters.

Therefore, the using effect is as follows: a user presses a key to say a sentence and waits for translation by a translation pen, then B says a sentence and waits for translation by the translation pen. The simultaneous interpretation can not be realized, the translation of a large speech can not be completed in time, and the speech of the loudspeaker can influence the speaking rhythm of the user. Finally, it can only be a question-answer, limited to street-wide queries.

The use experience is not sufficient.

2. Interpretation APP

The APP on the mobile phone has a function similar to the translation pen. The smart phone system is more convenient without special hardware, but is limited by the open authority of the smart phone system (like only one voice input channel), and the realizable functions are not much. The use experience is also inferior to that of a translation pen.

3. Simultaneous interpretation equipment

When the method is used in meeting occasions, simultaneous interpretation of people is mainly relied on, and users only take earphones to listen to manual interpretation. The earphone is used instead of the loudspeaker, so that the translation does not interfere with normal conversation, and the simultaneous interpretation speed is high enough, so that the simultaneous interpretation speed is not influenced by common conversation. The user experience is good, but the cost is too high, and the method is not suitable for personal outgoing scenes.

Disclosure of Invention

In view of the defects in the prior art, the invention aims to provide a simultaneous interpretation device and a simultaneous interpretation method. The technical scheme of the invention is as follows:

a simultaneous interpretation apparatus comprising:

the system comprises a first language acquisition and playing module, a second language acquisition and playing module and a host module;

the first language acquisition and playing module is used for acquiring or playing audio data of a first language;

the second language acquisition and playing module is used for acquiring or playing audio data of a second language;

the host module further comprises:

a third voice collecting unit for collecting audio data of the first language or the second language;

a third voice playing unit for playing the audio data of the second language or the first language;

a speech translation unit for translating audio data in a first language into audio data in a second language or vice versa;

a first link is established between the host module and the first language acquisition and playing module; the host module and the first language acquisition and playing module perform wireless transmission of audio data of a first language through the first link;

a second link is established between the host module and the second language acquisition and playing module; the host module and the second language acquisition and playing module perform wireless transmission of audio data of a second language through the second link;

the host module can selectively open or close the first link and the second link, and the host module can selectively open or close the functions of each unit thereof as follows:

when the host module opens the first link and opens the second link, the host module closes the functions of the third voice acquisition unit and the third voice playing unit and opens the function of the voice translation unit;

when the host module opens the first link and closes the second link, the host module opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit;

when the host module closes the first link and closes the second link, the host module opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit.

Optionally, the first language collecting and playing module is a wireless bluetooth headset or a smart phone.

Optionally, the second language collecting and playing module is a wireless bluetooth headset or a smart phone.

Optionally, the first language acquisition playing module and the second language acquisition playing module are both provided with a detection unit for acquiring wearing state signals of the first language acquisition playing module and the second language acquisition playing module and sending the signals to the host module; the host module judges whether the first language acquisition playing module and the second language acquisition playing module are in a wearing state according to the signal, selectively opens or closes the first link and the second link according to different wearing states, and selectively opens or closes the functions of each unit as follows:

if the first language acquisition playing module and the second language acquisition playing module are both in a worn state, the host module opens the first link, opens the second link, closes the functions of the third voice acquisition unit and the third voice playing unit, and opens the function of the voice translation unit;

if the first language acquisition playing module is in a worn state and the second language acquisition playing module is in an unworn state, the host module opens the first link, closes the second link and opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit;

if the first language acquisition playing module and the second language acquisition playing module are both in an unworn state, the host module closes the first link, and opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit when closing the second link.

Optionally, the host module further comprises: and the display unit is used for displaying the audio data of the first language and the second language in real time in a subtitle form.

Optionally, the first language acquisition playing module and the second language acquisition playing module may be arranged in the host module.

Optionally, the host module is provided with a charging port for charging the first language acquisition playing module and the second language acquisition playing module.

A simultaneous interpretation method is applied to the simultaneous interpretation equipment and comprises the following steps:

the host module opens a first link established between the host module and the first language acquisition and playing module, and the host module opens a second link established between the host module and the second language acquisition and playing module; the host module closes the functions of the third voice acquisition unit and the third voice playing unit and opens the function of the voice translation unit;

the first language acquisition and playing module acquires audio data of a first language and wirelessly transmits the audio data of the first language to the host module through the first link, the voice translation unit of the host module translates the audio data of the first language into audio data of a second language and wirelessly transmits the translated audio data of the second language to the second language acquisition and playing module through the second link, and the second language acquisition and playing module plays the audio data of the second language;

the voice translation unit of the host computer module translates the audio data of the second language into audio data of a first language and wirelessly transmits the translated audio data of the first language to the first language acquisition and playing module through the first link, and the first language acquisition and playing module plays the audio data of the first language.

A simultaneous interpretation method, which applies the simultaneous interpretation device, comprises the following steps:

the host module opens a first link established between the host module and the first language acquisition and playing module, and closes a second link established between the host module and the second language acquisition and playing module; the host module opens the functions of a third voice acquisition unit, a third voice playing unit and a voice translation unit;

the first language acquisition and playing module acquires audio data of a first language and wirelessly transmits the audio data of the first language to the host module through the first link, and the host module translates the audio data of the first language into audio data of a second language and plays the translated audio data of the second language through a third voice playing unit of the host module;

the host module collects audio data of a second language through a third voice collecting unit, translates the audio data of the second language into audio data of a first language through a voice translating unit, wirelessly transmits the translated audio data of the first language to the first language collecting and playing module through the first link, and the first language collecting and playing module plays the audio data of the first language.

A simultaneous interpretation method is applied to the simultaneous interpretation equipment and comprises the following steps:

the host module closes a first link established between the host module and the first language acquisition and playing module, and the host module closes a second link established between the host module and the second language acquisition and playing module; the host module opens the functions of a third voice acquisition unit, a third voice playing unit and a voice translation unit;

a third voice acquisition unit of the host module acquires audio data of a first language and sends the audio data to a voice translation unit, and the voice translation unit translates the audio data of the first language into audio data of a second language and sends the translated audio data of the second language to a third voice playing unit for playing;

the third voice acquisition unit of the host module acquires audio data of a second language and sends the audio data to the voice translation unit, and the voice translation unit translates the audio data of the second language into audio data of a first language and sends the translated audio data of the first language to the third voice playing unit for playing.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention realizes a simultaneous interpretation device based on intelligent hardware, which gives consideration to the portability of a translation pen and a translation APP and has good experience of simultaneous interpretation.

The system can be used for normal conversation between two persons in different languages (business conversation and overseas travel conversation), answering on-site foreign language programs (such as conversation discussion, talk show and performance of other persons), adding into conversation among foreign languages of multiple persons, telephone conversation and other various communication occasions.

2. The invention has three voice receiving and sending channels and two wireless data transmission channels, can be automatically or configured into various different interpretation modes, is suitable for various application occasions, and has high user experience.

3. The invention can adopt the earphone mode to carry out interpretation, can avoid the interference of two parties in conversation and a plurality of sound sources of the translation result, and can obtain the translation result in real time.

4. The two independent data wireless transmission channels (such as two independent Bluetooth channels) can support two language acquisition and playing modules (such as two earphones) to simultaneously interpret in real time, and the idle of the channel is not needed to wait for one party to finish talking. The transliteration effect and the user experience can be greatly improved, and real-time transliteration is realized.

5. The two language acquisition and playing modules can be both smart phones and connected with the smart phones, so that the phones can be conveniently translated in real time.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a simultaneous interpretation apparatus according to a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a simultaneous interpretation apparatus according to a second embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a simultaneous interpretation apparatus according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a simultaneous interpretation apparatus according to a fourth embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

First embodiment

As shown in fig. 1, the present embodiment discloses a simultaneous interpretation device, which includes:

the system comprises a first language acquisition and playing module, a second language acquisition and playing module and a host module;

the first language acquisition and playing module and the second language acquisition and playing module are both in wireless connection with the host module;

the first language acquisition and playing module is used for acquiring or playing audio data of a first language;

the second language acquisition and playing module is used for acquiring or playing audio data of a second language;

the host module further comprises:

a third voice collecting unit for collecting audio data of the first language or the second language;

a third voice playing unit for playing the audio data of the second language or the first language;

a speech translation unit for translating audio data in a first language into audio data in a second language or vice versa;

a display unit for displaying audio data of a first language and a second language in real time in a subtitle form;

a first link is established between the host module and the first language acquisition and playing module; the host module and the first language acquisition and playing module perform wireless transmission of audio data of a first language through the first link;

a second link is established between the host module and the second language acquisition and playing module; the host module and the second language acquisition and playing module perform wireless transmission of audio data of a second language through the second link;

the host module can selectively open or close the first link and the second link, and the host module can selectively open or close the functions of each unit thereof as follows:

when the host module opens the first link and opens the second link, the host module closes the functions of the third voice acquisition unit and the third voice playing unit and opens the functions of the voice translation unit and the display unit;

when the host module opens the first link and closes the second link, the host module opens the functions of the third voice acquisition unit, the third voice playing unit, the voice translation unit and the display unit;

when the host module closes the first link and closes the second link, the host module opens the functions of the third voice acquisition unit, the third voice playing unit, the voice translation unit and the display unit.

It should be noted that the languages of the first language and the second language may be preset in the speech translation unit in advance, or the speech translation unit itself may have a function of automatically recognizing the languages of the first language and the second language.

In this embodiment, the first language collecting and playing module and the second language collecting and playing module are both wireless bluetooth headsets, namely headset a and headset B respectively. Each earphone is provided with an independent microphone to provide the voice input and playing functions of the earphone. It should be noted that: in specific implementation, the first language acquisition playing module and the second language acquisition playing module can be both smart phones, or one can be a bluetooth wireless earphone and the other can be smart phones; or other devices capable of realizing the functions thereof, and the invention does not limit the specific devices of the first language acquisition playing module and the second language acquisition playing module.

In this example, the host module is a box-shaped structure, which can be embedded with two wireless bluetooth headsets. The host module is provided with a microphone (corresponding to the third voice acquisition unit) and a loudspeaker (corresponding to the third voice playing unit) and provides voice input and playing functions of the module body. The display unit of the host module comprises a display screen (which can be a liquid crystal touch screen interface) and provides display and setting functions, and the specific setting functions comprise: transliteration language selection, volume setting, transliteration mode selection, scene automatic mode, manual mode (speed first, accuracy first), and the like.

In this embodiment, the hardware of the host module adopts an intelligent hardware platform based on an ARM processor, and a charging scheme of a built-in battery and a USB is adopted. Two independent bluetooth channels are included: the Bluetooth channel 1 and the Bluetooth channel 2 (respectively corresponding to the first link and the second link) support connection of two wireless Bluetooth headsets and provide a headset charging scheme.

The present embodiment can provide three voice channels, namely: earphone a provides voice channel 1, earphone B provides voice channel 2, and the master control device provides voice channel 3.

In this embodiment, the first language acquisition playing module and the second language acquisition playing module are both provided with a detection unit for acquiring wearing state signals of the first language acquisition playing module and the second language acquisition playing module and sending the wearing state signals to the host module; the host module judges whether the first language acquisition playing module and the second language acquisition playing module are in a wearing state according to the signal, selectively opens or closes the first link and the second link according to different wearing states, and selectively opens or closes the functions of each unit as follows:

if the first language acquisition playing module and the second language acquisition playing module are both in a worn state, the host module opens the first link, opens the second link, closes the functions of the third voice acquisition unit and the third voice playing unit, and opens the function of the voice translation unit;

if the first language acquisition playing module is in a worn state and the second language acquisition playing module is in an unworn state, the host module opens the first link, closes the second link and opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit;

if the first language acquisition playing module and the second language acquisition playing module are both in an unworn state, the host module closes the first link, and opens the functions of the third voice acquisition unit, the third voice playing unit and the voice translation unit when closing the second link.

It should be noted that the host module may also automatically select to open or close the first link and the second link according to the setting or the specific requirements of the scene, and select to open or close the functions of each unit. The above-described operation performed according to the wearing state signal is only an alternative to the present embodiment, and is not intended to limit the present invention.

In this embodiment, two wireless bluetooth headset all embed has infrared sensor (correspond the detecting element), support to go into ear discernment (correspond wearing status signal). The headset supports both microphone beamforming and active drop-drying functions. The earphone is provided with a built-in battery, and the battery can be charged by the host module through the contact.

The above simultaneous interpretation device can correspond to the following application scenarios:

referring to fig. 1, scenario one: interpreting by the double earphones: the earphone A and the earphone B are completely independent and are provided for a user a and a user B of the two parties of the conversation to carry respectively, and the functions of voice acquisition and interpretation and listening are finished; the earphone can automatically recognize whether the earphone is successfully inserted into the ear through the infrared sensor, and the interpretation can be opened after the earphone is detected A, B to be inserted into the ear. (it should be noted that the main control device may also adopt the following method according to the setting or actual requirement, and the operation by judging the wearing state is only an example, and the invention is not limited thereto)

The infrared sensor is only an example, and in the implementation, the detection unit may also be one or more of an optical proximity sensor, a pressure sensor, a heat sensor, and a moisture sensor, which is not limited in the present invention.

When the earphone A and the earphone B are both in the worn state, the simultaneous interpretation equipment adopts the following simultaneous interpretation method:

the host module opens a first link established between the host module and the earphone A, and the host module opens a second link established between the host module and the earphone B (namely, the host module is respectively connected with two Bluetooth earphones through two Bluetooth channels); the host module closes the functions of the third voice acquisition unit and the third voice playing unit and opens the function of the voice translation unit.

After finishing setting operations such as language, mode and the like on a host module, an earphone A collects audio data of a first language of a user a and wirelessly transmits the audio data of the first language to the host module through a first link, a voice translation unit of the host module translates the audio data of the first language into audio data of a second language and wirelessly transmits the translated audio data of the second language to an earphone B through a second link, and the earphone B plays the audio data of the second language to a user B; the machine-readable analog natural voice, and the tone and timbre can be automatically adapted according to the tone and timbre of the other party.

The earphone B collects audio data of a second language of a user B, wirelessly transmits the audio data of the second language to the host module through the second link, the voice translation unit of the host module translates the audio data of the second language into audio data of a first language, wirelessly transmits the translated audio data of the first language to the earphone A through the first link, and the earphone A plays the audio data of the first language to the user a.

After the earphone A and the earphone B are both brought into the ear, the host module is muted, and the communication between the two parties is not influenced. And the display unit of the host module can display the bilingual content communicated between the two parties in real time through the interface.

In this embodiment, the Android system based on cutting is implemented, the speech recognition adopts an artificial intelligence system based on the express and google open platforms, and the language translation adopts a deep learning system based on the Baidu and google open platforms and performing customization and optimization.

It should be noted that the host module may be a box module device physically capable of connecting to a smart phone via bluetooth. In the specific implementation, the smart phone device itself with the two-way bluetooth channel (at this time, the screen, the speaker, and the microphone of the smart phone are directly used to complete the function of the host module), and as long as the function of the translation function of the host module is assumed, the smart phone device can be regarded as the host module.

Second embodiment

The present embodiment is different from the first embodiment in that, referring to fig. 2, it is as follows:

scene two: single earphone + host module translation: the earphone A only provided for a user works and is matched with the host module to complete the functions of voice acquisition and interpretation and listening; when the earphone A is in the worn state and the earphone B is in the unworn state, the simultaneous interpretation equipment adopts the following simultaneous interpretation method: (it should be noted that the main control device may also adopt the following method according to the setting or actual requirement, and the operation by judging the wearing state is only an example, and the invention is not limited thereto)

The host module opens a first link established between the host module and the first language acquisition and playing module, and closes a second link established between the host module and the second language acquisition and playing module; the host module opens the functions of a third voice acquisition unit, a third voice playing unit and a voice translation unit;

the method is suitable for scenes (such as passerby, unfamiliar people, performance and the like) without earphones of the user b, and the user b can use more than one person at the moment. At the moment, only one Bluetooth channel is opened to connect the host module and the Bluetooth headset.

It should be noted that: at this time, the sound source of the audio data in the second language may be the sound of the b-user directly, or the sound data of the b-user played or transmitted by the mobile phone or multimedia or other broadcasting devices. The present invention is not limited thereto.

After finishing the setting operations of language, mode and the like on the host module, a user only needs to carry an earphone A by himself, the earphone A collects the audio data of a first language of the user a and wirelessly transmits the audio data of the first language to the host module through the first link, the host module translates the audio data of the first language into the audio data of a second language and plays the translated audio data of the second language through a third voice playing unit of the host module;

the host computer module collects audio data of a second language of a user b through a third voice collecting unit, translates the audio data of the second language into audio data of a first language through a voice translating unit, wirelessly transmits the translated audio data of the first language to the first language collecting and playing module through the first link, and the first language collecting and playing module plays the audio data of the first language to the user a.

The microphone of the host module intelligently recognizes the effective voice of the user b, and automatically reduces noise of the user a, the loudspeaker and the environmental sound. And b, when the users are multiple persons, distinguishing and respectively interpreting according to the tone colors so as to broadcast different tone colors close to the original speaker by the earphone A. Meanwhile, the display unit of the host module can display the bilingual content of the two parties in real time through the interface.

Third embodiment

The present embodiment is different from the first and second embodiments in that, for different application scenarios, see fig. 3, as follows:

scene three: the single host module works: when the earphone A and the earphone B are not in the ear, the two links are closed, and the host module can start the bidirectional translation function. When the earphone A is in an unworn state and the earphone B is in an unworn state, the simultaneous interpretation equipment adopts the following simultaneous interpretation method: (it should be noted that the main control device may also adopt the following method according to the setting or actual requirement, and the operation by judging the wearing state is only an example, and the invention is not limited thereto)

The host module closes a first link established between the host module and the first language acquisition and playing module, and the host module closes a second link established between the host module and the second language acquisition and playing module; the host module opens the functions of a third voice acquisition unit, a third voice playing unit and a voice translation unit;

a third voice acquisition unit of the host module acquires audio data of a first language of a user and sends the audio data to a voice translation unit, and the voice translation unit translates the audio data of the first language into audio data of a second language and sends the translated audio data of the second language to a third voice playing unit for playing;

and a third voice acquisition unit of the host module acquires audio data of a second language of the user b and sends the audio data to a voice translation unit, and the voice translation unit translates the audio data of the second language into audio data of a first language and sends the translated audio data of the first language to a third voice playing unit for playing.

The display unit of the host module can display the bilingual content of the two parties in real time through the interface.

It should be noted that: in this case, the sound source of the audio data in the first language or the second language may be the sound of the user a or the user b directly, or the sound data of the user a or the user b played or transmitted by the mobile phone or the multimedia or other broadcasting device. The present invention is not limited thereto. In this mode, the host module only processes and translates one party's voice at the same time. The other party needs to speak again after the speaker finishes playing.

Fourth embodiment

The difference from the first three embodiments is that, in the fourth embodiment of the present invention, the first language acquisition playing module is a bluetooth wireless earphone: earphone A, the second language gathers the broadcast module and is the smart mobile phone: and a mobile phone B. The host module establishes a bluetooth channel 1 and a bluetooth channel 2 (corresponding to the first link and the second link respectively) with the earphone A and the mobile phone B respectively.

All be provided with infrared sensor on first language acquisition module and the smart mobile phone, detect whether it is in the state of wearing.

The simultaneous interpretation device of the present embodiment, referring to fig. 4, can correspond to the following application scenarios:

and a scene four: remote interpretation of the earphone and the smart phone: a user carries an earphone A and a mobile phone B, and B user uses a mobile phone C to communicate with the mobile phone B of the user a; the earphone A and the mobile phone B can both automatically recognize whether the wearing is successful or not through the infrared sensor. The mobile phone B and the mobile phone C have all functions of a common smart phone and are provided with a loudspeaker and a microphone. The communication between the two is also in accordance with the communication situation between the common smart phones.

When the earphone A and the mobile phone B are both in a worn state, the simultaneous interpretation equipment adopts the following simultaneous interpretation method: (it should be noted that the main control device may also adopt the following method according to the setting or actual requirement, and the operation by judging the wearing state is only an example, and the invention is not limited thereto)

The host module opens a first link established between the host module and the earphone A, and the host module opens a second link established between the host module and the mobile phone B; the host module closes the functions of the third voice acquisition unit and the third voice playing unit and opens the function of the voice translation unit.

After finishing setting operations such as language, mode and the like on a host module, an earphone A collects audio data of a first language of a user a and wirelessly transmits the audio data of the first language to the host module through a first link, a voice translation unit of the host module translates the audio data of the first language into audio data of a second language and wirelessly transmits the translated audio data of the second language to a mobile phone B through a second link, and the mobile phone B plays the audio data of the second language to a user B through a mobile phone C;

the mobile phone B collects audio data of a second language of a user B through the mobile phone C, the audio data of the second language is wirelessly transmitted to the host module through the second link, the voice translation unit of the host module translates the audio data of the second language into audio data of a first language, the translated audio data of the first language is wirelessly transmitted to the earphone A through the first link, and the earphone A plays the audio data of the first language to the user a, so that remote simultaneous interpretation and instant translation of telephone voice are realized.

The display unit of the host module can display the bilingual content of the two parties in real time through the interface.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.