CN111930339B - Equipment control method and device, storage medium and electronic equipment - Google Patents

Abstract

The application discloses a device control method, a device, a storage medium and wearable equipment. The method may be applied to a wearable device comprising at least a first audio output device arranged to correspond to a left ear side and a second audio output device arranged to correspond to a right ear side, the method comprising: responding to the audio output instruction, acquiring information of the use environment of the wearable device, wherein the information of the use environment comprises whether other users appear on the left ear side and the right ear side; if the use environment of the wearable device comprises that other users only appear on one side of the right ear, controlling the first audio output device to output audio; and if the use environment of the wearable device comprises the presence of other users on only one side of the left ear, controlling the second audio output device to output audio. The method and the device can improve the protection capability of the wearable device on the privacy of the user when outputting the audio.

Description

Equipment control method and device, storage medium and electronic equipment

Technical Field

The application belongs to the technical field of electronic equipment, and particularly relates to equipment control method and device, a storage medium and electronic equipment.

Background

As technology evolves, smart wearable devices begin to emerge and mature gradually. One type of intelligent wearable devices that is currently common includes head-mounted intelligent devices, such as intelligent glasses, intelligent helmets, intelligent headbands, and the like. The intelligent wearable device is not only a hardware device, but also can realize powerful functions such as audio playing and the like through software support, data interaction and cloud interaction. However, in the related art, the wearable device has poor protection ability for user privacy when outputting audio.

Disclosure of Invention

The embodiment of the application provides a device control method, a device, a storage medium and electronic equipment, which can improve the protection capability of the wearable device on user privacy when outputting audio.

In a first aspect, an embodiment of the present application provides an apparatus control method, applied to a wearable apparatus, where the wearable apparatus includes at least a first audio output device and a second audio output device, the first audio output device is disposed on a side corresponding to a left ear, and the second audio output device is disposed on a side corresponding to a right ear, the method includes:

responding to an audio output instruction, and acquiring information of the use environment of the wearable device, wherein the information of the use environment comprises whether other users appear on the left ear side and the right ear side;

If the use environment of the wearable device comprises that other users only appear on one side of the right ear, controlling the first audio output device to output audio;

and if the use environment of the wearable equipment comprises the presence of other users on the left ear side only, controlling the second audio output device to output audio.

In a second aspect, an embodiment of the present application provides a device control apparatus, applied to a wearable device, where the wearable device includes at least a first audio output device and a second audio output device, the first audio output device is disposed on a side corresponding to a left ear, and the second audio output device is disposed on a side corresponding to a right ear, the apparatus includes:

the wearable device comprises an acquisition module, a display module and a display module, wherein the acquisition module is used for responding to an audio output instruction and acquiring information of a use environment of the wearable device, and the information of the use environment comprises whether other users appear on the left ear side and the right ear side;

the first control module is used for controlling the first audio output device to output audio if the use environment of the wearable device comprises that other users only appear on one side of the right ear;

and the second control module is used for controlling the second audio output device to output audio if the use environment of the wearable equipment comprises that other users only appear on one side of the left ear.

In a third aspect, embodiments of the present application provide a storage medium having stored thereon a computer program that, when executed on a computer, causes the computer to execute the flow in the device control method provided in the embodiments of the present application.

In a fourth aspect, an embodiment of the present application further provides a wearable device, including a memory, a processor, a first audio output device and a second audio output device, where the first audio output device is disposed on a side corresponding to a left ear, and the second audio output device is disposed on a side corresponding to a right ear, and the processor is configured to execute a flow in the device control method provided in the embodiment of the present application by calling a computer program stored in the memory.

In this embodiment, the wearable device may only control the first audio output device to output audio separately when the other user appears on only the right ear side, and only control the second audio output device to output audio separately when the other user appears on only the left ear side. Compared with the mode that all audio output devices of the wearable device can output audio when audio is played in the related art, the audio output device can be independently controlled to output audio according to the use environment of the wearable device or the second audio output device can be independently controlled to output audio, so that the output audio can be effectively prevented from being heard by other users, and the protection capability of the wearable device on user privacy when the audio is output is improved.

Drawings

The technical solution of the present application and the advantageous effects thereof will be made apparent from the following detailed description of the specific embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is a schematic flow chart of a device control method according to an embodiment of the present application.

Fig. 2 is another flow chart of the device control method provided in the embodiment of the present application.

Fig. 3 is a schematic flow chart of another method for controlling a device according to an embodiment of the present application.

Fig. 4 to 10 are schematic views of a scenario of an apparatus control method provided in an embodiment of the present application.

Fig. 11 is a schematic structural diagram of an apparatus control device according to an embodiment of the present application.

Fig. 12 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Fig. 13 is another schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

Referring to the drawings, wherein like reference numerals refer to like elements throughout, the principles of the present application are illustrated as embodied in a suitable computing environment. The following description is based on the illustrated embodiments of the present application and should not be taken as limiting other embodiments not described in detail herein.

It is understood that the execution subject of the embodiments of the present application may be an electronic device such as a smart phone or tablet computer.

Referring to fig. 1, fig. 1 is a flow chart of a device control method according to an embodiment of the present application. The device control method may be applied to a wearable device comprising at least a first audio output means and a second audio output means. The first audio output device is disposed on a side corresponding to the left ear, and the second audio output device is disposed on a side corresponding to the right ear. That is, when the wearable device is worn by a user, the first audio output device may be located on the left ear side of the user and the second audio output device may be located on the right ear side of the user.

In some implementations, the audio output device may include an electroacoustic transducer device such as a speaker (spaker).

The flow of the device control method provided by the embodiment of the application may include:

101. in response to the audio output instruction, information of a use environment of the wearable device is acquired, wherein the information of the use environment comprises whether other users are present on the left ear side and the right ear side.

As technology evolves, smart wearable devices begin to emerge and mature gradually. One type of intelligent wearable devices that is currently common includes head-mounted intelligent devices, such as intelligent glasses, intelligent helmets, intelligent headbands, and the like. The intelligent wearable device is not only a hardware device, but also can realize powerful functions such as audio playing and the like through software support, data interaction and cloud interaction. However, in the related art, the wearable device has poor protection ability for user privacy when outputting audio. For example, in the related art, when all speakers output audio, all speakers output audio simultaneously, and when all speakers output audio simultaneously, user privacy is easily revealed due to "sound leakage".

In the embodiment of the application, for example, in response to an audio output instruction, that is, when audio needs to be output, the wearable device may first acquire information of its current use environment, where the information of the use environment may include whether other users than the current user of the wearable device appear on the left ear side and the right ear side.

After acquiring the information of the usage environment, the electronic device may detect whether other users are present on only the right ear side or on only the left ear side.

If it is detected that the usage environment of the wearable device includes the presence of other users only on the right ear side, then flow may be entered into 102.

If it is detected that the usage environment of the wearable device includes the presence of other users only on the left ear side, the flow of 103 may be entered.

102. If the use environment of the wearable device comprises that other users are only present on the right ear side, the first audio output device is controlled to output audio.

For example, after acquiring the information of the use environment, the wearable device detects that other users are only present on the right ear side and no other users are present on the left ear side, so that the wearable device may only control the first audio output device to output audio separately, and the second audio output device may not output audio.

103. If the use environment of the wearable device comprises that other users are only present on one side of the left ear, the second audio output device is controlled to output audio.

For example, after acquiring the information of the use environment, the wearable device detects that other users are only present on the left ear side and no other users are present on the right ear side, so that the wearable device may only control the second audio output device to output audio, and the first audio output device does not output audio.

It can be appreciated that in the embodiment of the present application, the wearable device may only control the first audio output device to individually output audio when other users are present on only the right ear side, and only control the second audio output device to individually output audio when other users are present on only the left ear side. Compared with the mode that all audio output devices of the wearable device can output audio when audio is played in the related art, the audio output device can be independently controlled to output audio according to the use environment of the wearable device or the second audio output device can be independently controlled to output audio, so that the output audio can be effectively prevented from being heard by other users, and the protection capability of the wearable device on user privacy when the audio is output is improved.

Referring to fig. 2, fig. 2 is another flow chart of the device control method according to the embodiment of the present application. The device control method may be applied to a wearable device comprising at least a first audio output means and a second audio output means. The first audio output device is disposed on a side corresponding to the left ear, and the second audio output device is disposed on a side corresponding to the right ear. That is, when the wearable device is worn by a user, the first audio output device may be located on the left ear side of the user and the second audio output device may be located on the right ear side of the user.

In some implementations, the audio output device may include an electroacoustic transducer device such as a speaker (spaker).

The flow of the device control method provided by the embodiment of the application may include:

201. in response to the audio output instruction, information of a use environment of the wearable device is acquired, wherein the information of the use environment comprises whether other users are present on the left ear side and the right ear side.

For example, in response to an audio output instruction, i.e., when audio output is required, the wearable device may first acquire information of its current use environment.

In this embodiment, the information of the usage environment may include whether other users than the user (i.e., the current user) of the wearable device are present on the left ear side and the right ear side. Of course, the information of the usage environment may also include other information, which is not specifically limited in the embodiments of the present application.

After acquiring the information of the usage environment of the wearable device, the wearable device can detect whether the usage environment of the wearable device is that other users only appear on the right ear side or other users only appear on the left ear side. And the wearable device can also detect whether the wearable device performs the call service or not.

It should be noted that, if the wearable device can perform the call service alone, performing the call service by the wearable device may mean that the wearable device makes an incoming call or dials a call. If the wearable device cannot conduct the call service alone, the wearable device conducting the call service may refer to a smart phone connected with the wearable device connecting an incoming call or dialing an incoming call, the smart phone sending data of call voice to the wearable device, and playing the call voice to the current user or collecting the call voice of the current user through the wearable device. I.e. the wearable device now belongs to the role of headset in the talk service.

If it is detected that the wearable device is engaged in talk traffic and that other users are present only on the right ear side, then flow may be entered into 202.

If it is detected that the wearable device is engaged in a talk service and that other users are present only on the left ear side, then flow may be entered into 203.

202. If the wearable device performs a call service and the use environment of the wearable device includes that other users appear only on one side of the right ear, the first audio output device is controlled to output audio.

For example, the wearable device detects that the user is currently engaged in a call service, and that other users are only present on the right ear side of the current user, and no other users are present on the left ear side of the current user, then the electronic device may only control the first audio output device disposed on the left ear side of the user to individually output audio.

In one embodiment, the process of 202 may further include: if the usage environment of the wearable device is that other users only appear in the preset range of the right ear side of the user, and no other users appear in the preset range of the left ear side of the user, and the call service is performed, the wearable device may only control the first audio output device disposed on the left ear side of the user to output audio separately, and the second audio output device disposed on the right ear side of the user may not output audio.

It can be understood that, when other users are only present on the right ear side of the user and no other users are present on the left ear side of the user, the embodiment of the present application may only control the first audio output device disposed on the left ear side of the user to output audio separately, while the second audio output device disposed on the right ear side of the user does not output audio. By the method, the sounding sound source can be effectively far away from other users on the right ear side, so that on one hand, the sounding sound source can be far away from the other users, and the other users can be effectively prevented from hearing talking voices under the condition of more sound attenuation, and on the other hand, the shielding effect of the head of the current user can be utilized to block sound propagation, and therefore the other users can be effectively prevented from hearing talking voices. Therefore, the embodiment of the application can also play a role in strengthening call privacy protection.

In some embodiments, the preset range may be a number such as 1 meter or 1.5 meters or 0.8 meters. Then, for example, if the usage environment of the wearable device is that other users only appear within 1 meter of the right ear side of the user, and no other users appear within 1 meter of the left ear side of the user, and a call service is performed, the wearable device may only control the first audio output device disposed on the left ear side of the user to output audio separately, and the second audio output device disposed on the right ear side of the user may not output audio.

203. If the wearable device performs a call service and the use environment of the wearable device includes that other users only appear on one side of the left ear, the second audio output device is controlled to output audio.

For example, the wearable device detects that the user is currently engaged in a call service, and that other users are only present on the left ear side of the current user, and no other users are present on the right ear side of the current user, then the electronic device may only control the second audio output device disposed on the right ear side of the user to individually output audio.

In one embodiment, the process of 203 may further include: if the usage environment of the wearable device is that other users only appear in the preset range of the left ear side of the user, and no other users appear in the preset range of the right ear side of the user, and the call service is performed, the wearable device may only control the second audio output device disposed on the right ear side of the user to output audio separately, and the first audio output device disposed on the left ear side of the user may not output audio.

It can be understood that, when other users are only present on the left ear side of the user and no other users are present on the right ear side of the user, the embodiment of the present application may only control the second audio output device disposed on the right ear side of the user to output audio separately, while the first audio output device disposed on the left ear side of the user does not output audio. By the method, the sounding sound source can be effectively far away from other users on the left ear side, so that on one hand, the sounding sound source can be far away from the other users, and the other users can be effectively prevented from hearing talking voices under the condition of more sound attenuation, and on the other hand, the shielding effect of the head of the current user can be utilized to block sound propagation, and therefore the other users can be effectively prevented from hearing talking voices. Therefore, the embodiment of the application can also enhance the effect of protecting the call privacy.

In some embodiments, the preset range may be a number such as 1 meter or 1.5 meters or 0.8 meters. Then, for example, if the usage environment of the wearable device is that other users only appear in a range of 1 meter on the left ear side of the user, and no other users appear in a range of 1 meter on the right ear side of the user, and a call service is performed, the wearable device may only control the second audio output device disposed on the right ear side of the user to output audio separately, and the first audio output device disposed on the left ear side of the user may not output audio.

Referring to fig. 3, fig. 3 is a schematic flow chart of a device control method according to an embodiment of the present application. The device control method may be applied to a wearable device comprising at least a first audio output means and a second audio output means. The first audio output device is disposed on a side corresponding to the left ear, and the second audio output device is disposed on a side corresponding to the right ear. That is, when the wearable device is worn by a user, the first audio output device may be located on the left ear side of the user and the second audio output device may be located on the right ear side of the user.

In some implementations, the audio output device may include an electroacoustic transducer device such as a speaker (spaker).

The flow of the device control method provided by the embodiment of the application may include:

301. in response to the audio output instruction, information of a use environment of the wearable device is acquired, wherein the information of the use environment comprises whether other users are present on the left ear side and the right ear side.

For example, in response to an audio output instruction, i.e., when audio output is required, the wearable device may first acquire information of its current use environment.

In this embodiment, the information of the usage environment may include whether other users than the user (i.e., the current user) of the wearable device are present on the left ear side and the right ear side. Of course, the information of the usage environment may also include other information, which is not specifically limited in the embodiments of the present application.

302. If the output audio is a music file, mixing left channel audio and right channel audio of the music file into mono audio.

For example, the electronic device may also detect whether the audio to be output is a music file.

If it is detected that the audio to be output is a music file, the wearable device may Mix (Mix) left and right channel audio of the music file into mono audio.

If it is detected that the audio to be spoken is not a music file, the wearable device may perform other operations.

After acquiring the information of the usage environment of the wearable device, the wearable device can detect whether the usage environment of the wearable device is that other users only appear on the right ear side or other users only appear on the left ear side.

If it is detected that other users are present only on the right ear side, the flow of 303 may be entered.

If it is detected that other users are present only on the left ear side, the flow of 304 may be entered.

303. If the use environment of the wearable device comprises that other users are only arranged on the right ear side, the first audio output device is controlled to output the mixed mono audio.

For example, the wearable device detects that other users are only present on the right ear side of the current user, and no other users are present on the left ear side of the current user, and then the electronic device may only control the first audio output device disposed on the left ear side of the user to individually output the mixed mono audio.

In one embodiment, the process of 303 may include: if the usage environment of the wearable device is that other users only appear in the preset range of the right ear side of the user, and no other users appear in the preset range of the left ear side of the user, the wearable device can only control the first audio output device arranged on the left ear side of the user to independently output the mixed mono audio, and the second audio output device arranged on the right ear side of the user can not output the audio.

It can be understood that, when other users are only present on the right ear side of the user and no other users are present on the left ear side of the user, the embodiment of the present application may only control the first audio output device disposed on the left ear side of the user to output audio separately, while the second audio output device disposed on the right ear side of the user does not output audio. By the method, the sounding sound source can be effectively far away from other users on the right ear side, so that on one hand, the sounding sound source can be far away from the other users, and therefore the other users can be effectively prevented from hearing music under the condition of more sound attenuation, and on the other hand, the shielding effect of the head of the current user can be utilized to block sound propagation, and therefore the other users can be effectively prevented from hearing music. Therefore, the embodiment of the application can also effectively avoid disturbing other users when playing music.

304. If the use environment of the wearable device comprises that other users are only arranged on one side of the left ear, the second audio output device is controlled to output the mixed mono audio.

For example, the wearable device detects that other users are only present on the left ear side of the current user, and no other users are present on the right ear side of the current user, and then the electronic device may only control the second audio output device disposed on the right ear side of the user to individually output the mixed mono audio.

In one embodiment, the process of 304 may further include: if the usage environment of the wearable device is that other users only appear in the preset range of the left ear side of the user, and no other users appear in the preset range of the right ear side of the user, the wearable device can only control the second audio output device arranged on the right ear side of the user to independently output the mixed mono audio, and the first audio output device arranged on the left ear side of the user can not output the audio.

It can be understood that, when other users are only present on the left ear side of the user and no other users are present on the right ear side of the user, the embodiment of the present application may only control the second audio output device disposed on the right ear side of the user to individually output the mixed mono audio, while the first audio output device disposed on the left ear side of the user does not output the audio. By the method, the sounding sound source can be effectively far away from other users on the left ear side, so that on one hand, the sounding sound source can be far away from the other users, and therefore the other users can be effectively prevented from hearing music under the condition of more sound attenuation, and on the other hand, the shielding effect of the head of the current user can be utilized to block sound propagation, and therefore the other users can be effectively prevented from hearing music. Therefore, the embodiment of the application can also effectively avoid disturbing other users when playing music.

In one embodiment, the wearable device may further include a microphone, and the information of the usage environment acquired by the wearable device may include: the noise value of the surrounding environment acquired by the microphone.

If the output audio in the process of 302 is a music file, mixing the left channel audio and the right channel audio of the music file into mono audio, including: if the noise value is smaller than the preset threshold value and the output audio is a music file, mixing left channel audio and right channel audio of the music file into mono audio.

For example, if the wearable device detects that the noise value of the surrounding environment is smaller than the preset threshold, the environment in which the wearable device is located may be regarded as a quiet environment. In this case, the wearable device may mix left channel audio and right channel audio of a music file to be output into mono audio. Then, if the usage environment of the wearable device is that other users only appear on the right ear side, the wearable device can control the first audio output device arranged on the left ear side of the user to independently output the mixed mono audio, and the second audio output device arranged on the right ear side of the user does not output any audio. If the usage environment of the wearable device is that other users only appear on the left ear side, the wearable device can control the second audio output device arranged on the right ear side of the user to output the mixed mono audio, and the first audio output device arranged on the left ear side of the user can not output any audio.

It can be appreciated that by the above manner, the current user of the wearable device can be effectively prevented from disturbing other users due to playing music in a quiet environment.

In one embodiment, the wearable device may further include a first camera module and a second camera module, the first camera module may be disposed at a side corresponding to the left ear, and the second camera module may be disposed at a side corresponding to the right ear. Then, the wearable device can detect whether other users appear on one side of the left ear through the image shot by the first shooting module, and detect whether other users appear on one side of the right ear through the image shot by the second shooting module.

For example, the wearable device may detect whether other users appear on the left ear side of the user through an image captured by the first camera module disposed on the side corresponding to the left ear of the user, and detect whether other users appear on the right ear side of the user through an image captured by the second camera module disposed on the side corresponding to the right ear of the user. For example, if a portrait appears in an image captured by the first camera module, it may be determined that other users appear on the left ear side. If the image shot by the second camera module shows a portrait, then other users can be determined to appear on one side of the right ear.

In an embodiment, the first camera module and the second camera module may be depth camera modules, that is, the i.e. the device may calculate depth information of the portrait in the image captured by the first camera module and the second camera module, and calculate the distance between other users and the wearable device according to the depth information. Depending on the distance of the other users from the wearable device, the wearable device can detect whether the other users are present within a preset range on the left ear side of the user or whether the other users are present within a preset range on the right ear side of the user.

In another embodiment, the information of the usage environment of the wearable device may also be obtained by:

for example, the wearable device may also include a sensor that may be used to receive gesture information entered by the user.

Then, acquiring information of the usage environment of the wearable device may include: and receiving gesture information input by a user through a sensor, wherein when the sensor receives a preset first gesture, determining the use environment of the wearable device comprises the presence of other users only on the right ear side, and when the sensor receives a preset second gesture, determining the use environment of the wearable device comprises the presence of other users only on the left ear side.

For example, a sensor may be disposed on the wearable device, where the sensor may be configured to receive gesture information from a user, such as the sensor may receive a gesture operation from a user such as a tap, touch (e.g., press or slide), or the like. Then, the current user of the wearable device may input information of the corresponding usage environment to the wearable device by issuing a respective gesture to the sensor. For example, when a current user of the wearable device determines that other users are only present on the right side, the current user may issue a preset first gesture to the sensor, thereby inputting environmental information of other users only on the right side to the wearable device. For another example, when the current user of the wearable device determines that other users are only present on the left side, the current user may send a preset second gesture to the sensor, thereby inputting environmental information of other users only on the left side to the wearable device.

For example, the preset first gesture may be tapping one sensor, the preset second gesture may be tapping two sensors, and so on. Alternatively, the preset first gesture may be a short-press touch sensor, the preset second gesture may be a long-press touch sensor, and so on.

In yet another embodiment, the information of the usage environment of the wearable device may also be obtained by:

for example, the wearable device may include a first sensor disposed on a side corresponding to the left ear and a second sensor disposed on a side corresponding to the right ear, each of which may be used to receive gesture information input by a user.

Then, acquiring information of the usage environment of the wearable device may include: if the gesture input by the user and received by the first sensor are matched with a preset trigger gesture, determining that the use environment of the wearable device comprises that other users appear on one side of the right ear only; if the gesture input by the user and received by the second sensor are matched with the preset trigger gesture, determining that the use environment of the wearable device comprises that other users are only present on one side of the left ear.

For example, two sensors, a first sensor and a second sensor, respectively, may be provided on the wearable device. The first sensor may be disposed at a side corresponding to the left ear, and the second sensor may be disposed at a side corresponding to the right ear. The first sensor and the second sensor may be configured to receive gesture information of a user, e.g., the first sensor and the second sensor may each receive a gesture operation such as a tap, a touch (e.g., a press or a slide), or the like of the user.

Then, the current user of the wearable device may input information of the corresponding usage environment to the wearable device by issuing a respective gesture to the first sensor or the second sensor. For example, when the current user of the wearable device determines that other users are only present on the right side, the current user may send a preset trigger gesture to the first sensor, so as to input environmental information of other users only on the right side to the wearable device. For another example, when the current user of the wearable device determines that other users are only present on the left side, the current user may send a preset trigger gesture to the second sensor, so that environmental information of other users only on the left side is input to the wearable device.

In some implementations, the preset trigger gesture may be one tap of the sensor or the preset trigger gesture may be a swipe operation, or the like.

Referring to fig. 4 to 10, fig. 4 to 10 are schematic views of a device control method according to an embodiment of the present application.

In this embodiment, the wearable device may be, for example, smart glasses. A schematic diagram of the smart glasses may be as shown in fig. 4. Referring to fig. 4, a first speaker 1 and a second speaker 2 are respectively disposed on the left and right legs of the smart glasses 10. Wherein the first speaker and the second speaker are mounted inside the temple. A first sound outlet 3 is also provided at a position corresponding to the first speaker 1. A second sound outlet (not shown) is also provided at a position corresponding to the second speaker 2. A first microphone 4 may be provided on the upper side of the right side temple of the smart glasses 10, and a second microphone (not shown) may be provided on the lower side of the temple.

The smart glasses 10 may be used to play audio, for example, the smart glasses 10 may receive an audio file from the smart phone 20 and play the audio file. For example, when the current user wears the smart glasses, the current user uses the smart phone to make an incoming call, and then the smart phone can transmit audio data corresponding to the call voice of the incoming party to the smart glasses, and the smart glasses play the audio data to the current user through the first speaker and the first sound outlet. In addition, the intelligent glasses can collect the conversation voice of the current user through the first microphone and the second microphone, send the conversation voice data of the current user to the intelligent mobile phone, and then transmit the conversation voice data to the conversation counterpart through the communication network by the intelligent mobile phone.

For example, a schematic structural diagram of an audio playing system of the smart glasses may be shown in fig. 5. The main control chip (SOC) of the intelligent glasses can receive audio data corresponding to the call voice of the caller from the intelligent mobile phone, and transmit the audio data to the audio power amplifier, and audio signals corresponding to the call voice are amplified by the audio power amplifier and then transmitted to the loudspeaker for playing. Wherein the audio power amplifier may comprise a first audio power amplifier corresponding to a left ear side and a second audio power amplifier corresponding to a right ear side, the speaker also comprising a first speaker corresponding to the left ear side and a second speaker corresponding to the right ear side.

For example, the current user wears smart glasses, and the smart glasses establish a data transmission connection with a smart phone of the current user. For example, at this point the smartphone receives an incoming call from the current user's friend, which the current user has completed. During the course of a call, the current user 5 finds that there is another person 6 on his right side and that this other person 6 is relatively close to the current user 5, which scenario may be as shown in fig. 6. In this case, in order to avoid the talk voice from leaking out, the current user may tap the first sensor once. After the intelligent glasses receive the knocking gesture from the user through the first sensor, the knocking gesture can be matched with a preset triggering gesture. For example, the preset trigger gesture is a tap gesture. Then, the smart glasses may control only the first speaker disposed at the left ear side to output the talking voice, and the second speaker disposed at the right ear side to not output the talking voice. At this time, the state diagram of the audio playing system of the smart glasses may be as shown in fig. 7, that is, the playing paths corresponding to the second audio power amplifier and the second speaker are disconnected.

As another example, during a call, the current user 5 finds that there is another person 7 on the left side and that the other person 7 is relatively close to the current user 5, which scenario may be as shown in fig. 8. In this case, the current user may tap the second sensor once in order to avoid the talk voice from leaking out. After the intelligent glasses receive the knocking gesture from the user through the second sensor, the knocking gesture can be matched with a preset triggering gesture. For example, the preset trigger gesture is a tap gesture. Then, the smart glasses may control only the second speaker disposed at the right ear side to output the talking voice at this time, and the first speaker disposed at the left ear side to not output the talking voice. At this time, the state diagram of the audio playing system of the smart glasses may be as shown in fig. 9, that is, the playing paths corresponding to the first audio power amplifier and the first speaker are disconnected.

For another example, after ending the call, the current user enters a quiet office area, and the current user opens a music application using a smartphone and requests a plurality of songs. At this time, the current user finds that his left position is sitting on another colleague. In this case, in order to avoid disturbing the played singing voice to other colleagues, the current user taps the second sensor once. After the intelligent glasses receive the knocking gesture from the user through the second sensor, the knocking gesture can be matched with a preset triggering gesture. For example, the preset trigger gesture is a tap gesture. Then, the smart glasses can mix the left channel audio and the right channel audio of the song into mono audio at this time, and control only the second speaker disposed at the right ear side to output the mixed singing voice, while the first speaker disposed at the left ear side does not output the singing voice. At this time, the state diagram of the audio playing system of the smart glasses may be as shown in fig. 10, that is, the playing paths corresponding to the first audio power amplifier and the first speaker are disconnected.

Referring to fig. 11, fig. 11 is a schematic structural diagram of an apparatus control device according to an embodiment of the present application. The device control apparatus may be applied to a wearable device including at least a first audio output device and a second audio output device, the first audio output device being disposed on a side corresponding to a left ear, the second audio output device being disposed on a side corresponding to a right ear. The device control apparatus 300 may include: the system comprises an acquisition module 301, a first control module 302 and a second control module 303.

An obtaining module 301, configured to obtain, in response to an audio output instruction, information of a use environment of the wearable device, where the information of the use environment includes whether other users appear on a left ear side and a right ear side;

a first control module 302, configured to control the first audio output device to output audio if the usage environment of the wearable device includes that other users are present only on the right ear side;

and a second control module 303, configured to control the second audio output device to output audio if the usage environment of the wearable device includes that other users are only present on one side of the left ear.

In one embodiment, the first control module 302 is configured to: if the wearable device performs a call service and the use environment of the wearable device comprises that other users only appear on one side of the right ear, controlling the first audio output device to output audio;

the second control module 303 is configured to: and if the wearable equipment performs the call service and the use environment of the wearable equipment comprises that other users only appear on one side of the left ear, controlling the second audio output device to output audio.

In one embodiment, the obtaining module 301 is further configured to: if the output audio is a music file, mixing left channel audio and right channel audio of the music file into mono audio.

Then, the first control module 302 is configured to: and if the use environment of the wearable equipment comprises that other users only appear on one side of the right ear, controlling the first audio output device to output the mixed mono audio.

The second control module 303 is configured to: and if the use environment of the wearable equipment comprises that other users only appear on one side of the left ear, controlling the second audio output device to output the mixed mono audio.

In one embodiment, the wearable device further comprises a microphone, and the information of the usage environment further comprises: and the noise value of the surrounding environment acquired by the microphone.

The acquisition module 301 is further configured to: and if the noise value is smaller than a preset threshold value and the output audio is a music file, mixing left channel audio and right channel audio of the music file into mono audio.

In one embodiment, the wearable device further comprises a first camera module and a second camera module, wherein the first camera module is arranged on one side corresponding to the left ear, and the second camera module is arranged on one side corresponding to the right ear.

Then, the obtaining module 301 is further configured to: and detecting whether other users appear on one side of the left ear through the image shot by the first shooting module, and detecting whether other users appear on one side of the right ear through the image shot by the second shooting module.

In one embodiment, the wearable device further comprises a sensor for receiving gesture information input by a user.

Then, the obtaining module 301 is configured to: and receiving gesture information input by a user through the sensor, wherein when the sensor receives a preset first gesture, determining the use environment of the wearable device comprises that other users only appear on one side of a right ear, and when the sensor receives a preset second gesture, determining the use environment of the wearable device comprises that other users only appear on one side of a left ear.

In one embodiment, the wearable device further comprises a first sensor disposed on a side corresponding to the left ear and a second sensor disposed on a side corresponding to the right ear, the first sensor and the second sensor being for receiving gesture information input by a user.

Then, the obtaining module 301 is further configured to: if the gesture input by the user and received by the first sensor are matched with a preset trigger gesture, determining that the use environment of the wearable device comprises that other users only appear on one side of the right ear; if the gesture input by the user and received by the second sensor are matched with a preset trigger gesture, determining that the use environment of the wearable device comprises that other users are only present on one side of the left ear.

In one embodiment, the first control module 302 is configured to: and if the use environment of the wearable equipment comprises the presence of other users in a preset range on one side of the right ear, controlling the first audio output device to output audio.

The second obtaining module 303 is configured to: and if the use environment of the wearable equipment comprises the presence of other users in a preset range on one side of the left ear, controlling the second audio output device to output audio.

The present embodiment provides a computer-readable storage medium having stored thereon a computer program which, when executed on a computer, causes the computer to execute a flow in an apparatus control method as provided in the present embodiment.

The embodiment of the application also provides a wearable device, which comprises a memory, a processor, a first audio output device and a second audio output device, wherein the first audio output device is arranged on one side corresponding to the left ear, the second audio output device is arranged on one side corresponding to the right ear, and the processor is used for executing the flow in the device control method provided by the embodiment by calling the computer program stored in the memory.

For example, the wearable device may be a mobile terminal such as a tablet computer or a smart phone. Referring to fig. 12, fig. 12 is a schematic structural diagram of a wearable device according to an embodiment of the present application.

The wearable device 400 may include an audio output module 401, a memory 402, a processor 403, and the like. Those skilled in the art will appreciate that the wearable device structure shown in fig. 12 is not limiting of the wearable device and may include more or fewer components than shown, or certain components in combination, or a different arrangement of components.

The audio output module 401 may include a first audio output device and a second audio output device. The first audio output device is disposed on a side corresponding to the left ear, and the second audio output device is disposed on a side corresponding to the right ear. The first audio output device and the second audio output device may both be speakers or the like.

Memory 402 may be used to store applications and data. The memory 402 stores application programs including executable code. Applications may constitute various functional modules. Processor 403 executes various functional applications and data processing by running application programs stored in memory 402.

Processor 403 is the control center of the wearable device, connecting the various parts of the entire wearable device with various interfaces and lines, performing various functions and processing data of the wearable device by running or executing applications stored in memory 402, and invoking data stored in memory 402, thereby performing overall monitoring of the wearable device.

In this embodiment, the processor 403 in the wearable device loads executable codes corresponding to the processes of one or more application programs into the memory 402 according to the following instructions, and the processor 403 executes the application programs stored in the memory 402, so as to execute:

responding to an audio output instruction, and acquiring information of the use environment of the wearable device, wherein the information of the use environment comprises whether other users appear on the left ear side and the right ear side;

if the use environment of the wearable device comprises that other users only appear on one side of the right ear, controlling the first audio output device to output audio;

and if the use environment of the wearable equipment comprises the presence of other users on the left ear side only, controlling the second audio output device to output audio.

Referring to fig. 13, the wearable device 400 may include an audio output module 401, a memory 402, a processor 403, a battery 404, a power amplifier 405, a microphone 406, and the like.

The audio output module 401 may include a first audio output device and a second audio output device. The first audio output device is disposed on a side corresponding to the left ear, and the second audio output device is disposed on a side corresponding to the right ear. The first audio output device and the second audio output device may both be speakers or the like.

Memory 402 may be used to store applications and data. The memory 402 stores application programs including executable code. Applications may constitute various functional modules. Processor 403 executes various functional applications and data processing by running application programs stored in memory 402.

Processor 403 is the control center of the wearable device, connecting the various parts of the entire wearable device with various interfaces and lines, performing various functions and processing data of the wearable device by running or executing applications stored in memory 402, and invoking data stored in memory 402, thereby performing overall monitoring of the wearable device.

The battery 404 may provide power support for the various devices and modules of the wearable device, thereby ensuring proper operation of the various devices and modules.

The power amplifier 405 may be used to boost the audio power on the output element that produces the sound, reconstructing the input audio signal.

The microphone 406 may be used to pick up sound signals in the surrounding environment, etc.

In this embodiment, the processor 403 in the wearable device loads executable codes corresponding to the processes of one or more application programs into the memory 402 according to the following instructions, and the processor 403 executes the application programs stored in the memory 402, so as to execute:

responding to an audio output instruction, and acquiring information of the use environment of the wearable device, wherein the information of the use environment comprises whether other users appear on the left ear side and the right ear side;

if the use environment of the wearable device comprises that other users only appear on one side of the right ear, controlling the first audio output device to output audio;

and if the use environment of the wearable equipment comprises the presence of other users on the left ear side only, controlling the second audio output device to output audio.

In one embodiment, the processor 403 may be configured to perform: if the wearable device performs a call service and the use environment of the wearable device comprises that other users only appear on one side of the right ear, controlling the first audio output device to output audio; and if the wearable equipment performs the call service and the use environment of the wearable equipment comprises that other users only appear on one side of the left ear, controlling the second audio output device to output audio.

In one embodiment, the processor 403 may be configured to perform: if the output audio is a music file, mixing left channel audio and right channel audio of the music file into mono audio; if the use environment of the wearable device comprises that other users only appear on one side of the right ear, controlling the first audio output device to output the mixed mono audio; and if the use environment of the wearable equipment comprises that other users only appear on one side of the left ear, controlling the second audio output device to output the mixed mono audio.

In one embodiment, the wearable device further comprises a microphone, and the information of the usage environment further comprises: and the noise value of the surrounding environment acquired by the microphone.

Then, when the processor 403 executes the process of mixing the left channel audio and the right channel audio of the music file into mono audio if the output audio is a music file, it may execute: and if the noise value is smaller than a preset threshold value and the output audio is a music file, mixing left channel audio and right channel audio of the music file into mono audio.

In one embodiment, the wearable device further comprises a first camera module and a second camera module, wherein the first camera module is arranged on one side corresponding to the left ear, and the second camera module is arranged on one side corresponding to the right ear.

Then, the processor 403 is configured to perform: and detecting whether other users appear on one side of the left ear through the image shot by the first shooting module, and detecting whether other users appear on one side of the right ear through the image shot by the second shooting module.

In one embodiment, the wearable device further comprises a sensor for receiving gesture information input by a user.

Then, when the processor 403 executes the acquiring information of the usage environment of the wearable device, it may execute: and receiving gesture information input by a user through the sensor, wherein when the sensor receives a preset first gesture, determining the use environment of the wearable device comprises that other users only appear on one side of a right ear, and when the sensor receives a preset second gesture, determining the use environment of the wearable device comprises that other users only appear on one side of a left ear.

In one embodiment, the wearable device further comprises a first sensor disposed on a side corresponding to the left ear and a second sensor disposed on a side corresponding to the right ear, the first sensor and the second sensor being for receiving gesture information input by a user.

Then, when the processor 403 executes the acquiring information of the usage environment of the wearable device, it may execute: if the gesture input by the user and received by the first sensor are matched with a preset trigger gesture, determining that the use environment of the wearable device comprises that other users only appear on one side of the right ear; if the gesture input by the user and received by the second sensor are matched with a preset trigger gesture, determining that the use environment of the wearable device comprises that other users are only present on one side of the left ear.

In one embodiment, the processor 403 may be configured to perform: if the use environment of the wearable device comprises that other users only appear in a preset range on one side of the right ear, controlling the first audio output device to output audio; and if the use environment of the wearable equipment comprises the presence of other users in a preset range on one side of the left ear, controlling the second audio output device to output audio.

In the foregoing embodiments, the descriptions of the embodiments are focused on, and the portions of a certain embodiment that are not described in detail may be referred to the above detailed description of the device control method, which is not repeated herein.

The device control apparatus provided in the embodiment of the present application belongs to the same concept as the device control method in the foregoing embodiment, and any method provided in the device control method embodiment may be run on the device control apparatus, and a specific implementation process of the device control apparatus is detailed in the device control method embodiment and will not be described herein.

It should be noted that, for the device control method according to the embodiment of the present application, it will be understood by those skilled in the art that all or part of the flow of implementing the device control method according to the embodiment of the present application may be implemented by controlling related hardware by using a computer program, where the computer program may be stored in a computer readable storage medium, such as a memory, and executed by at least one processor, and the execution may include the flow of the embodiment of the device control method as described herein. The storage medium may be a magnetic disk, an optical disk, a Read Only Memory (ROM), a random access Memory (RAM, random Access Memory), etc.

For the device control apparatus of the embodiments of the present application, each functional module may be integrated in one processing chip, or each module may exist separately and physically, or two or more modules may be integrated in one module. The integrated modules may be implemented in hardware or in software functional modules. The integrated module, if implemented as a software functional module and sold or used as a stand-alone product, may also be stored on a computer readable storage medium such as read-only memory, magnetic or optical disk, etc.

The foregoing describes in detail a device control method, device, storage medium and wearable device provided in the embodiments of the present application, and specific examples are applied to illustrate principles and implementations of the present application, where the foregoing description of the embodiments is only used to help understand the method and core idea of the present application; meanwhile, those skilled in the art will have variations in the specific embodiments and application scope in light of the ideas of the present application, and the present description should not be construed as limiting the present application in view of the above.

Claims (8)

1. A device control method applied to a wearable device, wherein the wearable device at least comprises a first audio output device and a second audio output device, the first audio output device is arranged on a side corresponding to a left ear, and the second audio output device is arranged on a side corresponding to a right ear, the method comprising:

responding to an audio output instruction, and acquiring information of the use environment of the wearable device, wherein the information of the use environment comprises whether other users appear on the left ear side and the right ear side;

if the wearable device performs a call service and the use environment of the wearable device comprises that other users only appear on one side of the right ear, controlling the first audio output device to output audio;

if the wearable device performs a call service and the use environment of the wearable device comprises that other users only appear on one side of the left ear, controlling the second audio output device to output audio;

if the audio output by the wearable device is a music file, the noise value of the surrounding environment acquired by a microphone of the wearable device is smaller than a preset threshold, and the use environment of the wearable device comprises other users only on one side of the right ear, mixing left channel audio and right channel audio of the music file into mono audio, and controlling the first audio output device to output the mixed mono audio;

If the audio output by the wearable device is a music file, the noise value of the surrounding environment acquired by the microphone of the wearable device is smaller than a preset threshold, and the use environment of the wearable device comprises other users only on one side of the left ear, mixing left channel audio and right channel audio of the music file into mono audio, and controlling the second audio output device to output the mixed mono audio.

2. The apparatus control method according to claim 1, wherein the wearable apparatus further comprises a first camera module and a second camera module, the first camera module being disposed on a side corresponding to a left ear, the second camera module being disposed on a side corresponding to a right ear; the method further comprises the steps of:

and detecting whether other users appear on one side of the left ear through the image shot by the first shooting module, and detecting whether other users appear on one side of the right ear through the image shot by the second shooting module.

3. The device control method of claim 1, wherein the wearable device further comprises a sensor for receiving gesture information input by a user;

The obtaining information of the use environment of the wearable device includes: and receiving gesture information input by a user through the sensor, wherein when the sensor receives a preset first gesture, determining the use environment of the wearable device comprises that other users only appear on one side of a right ear, and when the sensor receives a preset second gesture, determining the use environment of the wearable device comprises that other users only appear on one side of a left ear.

4. The device control method according to claim 1, wherein the wearable device further includes a first sensor provided on a side corresponding to a left ear and a second sensor provided on a side corresponding to a right ear, the first sensor and the second sensor being for receiving gesture information input by a user;

the obtaining information of the use environment of the wearable device includes:

if the gesture input by the user and received by the first sensor are matched with a preset trigger gesture, determining that the use environment of the wearable device comprises that other users only appear on one side of the right ear;

if the gesture input by the user and received by the second sensor are matched with a preset trigger gesture, determining that the use environment of the wearable device comprises that other users are only present on one side of the left ear.

5. The apparatus control method according to claim 1, characterized in that the method comprises:

if the use environment of the wearable device comprises that other users only appear in a preset range on one side of the right ear, controlling the first audio output device to output audio;

and if the use environment of the wearable equipment comprises the presence of other users in a preset range on one side of the left ear, controlling the second audio output device to output audio.

6. An equipment control device is applied to wearable equipment, characterized in that, wearable equipment includes first audio output device and second audio output device at least, first audio output device sets up in corresponding to left ear one side, second audio output device sets up in corresponding to right ear one side, the device includes:

the wearable device comprises an acquisition module, a display module and a display module, wherein the acquisition module is used for responding to an audio output instruction and acquiring information of a use environment of the wearable device, and the information of the use environment comprises whether other users appear on the left ear side and the right ear side;

the first control module is used for controlling the first audio output device to output audio if the wearable device performs a call service and the service environment of the wearable device comprises other users on only one side of the right ear, and also used for controlling the first audio output device to output the mixed mono audio if the audio output by the wearable device is a music file and the noise value of the surrounding environment acquired by a microphone of the wearable device is smaller than a preset threshold and the service environment of the wearable device comprises other users on only one side of the right ear;

The second control module is configured to control the second audio output device to output audio if the wearable device performs a call service and the usage environment of the wearable device includes that other users appear only on one side of the left ear, and also configured to control the second audio output device to output the mixed mono audio if the audio output by the wearable device is a music file and the noise value of the surrounding environment acquired by the microphone of the wearable device is smaller than a preset threshold, and the usage environment of the wearable device includes that other users appear only on one side of the left ear.

7. A computer-readable storage medium, on which a computer program is stored, characterized in that the computer program, when executed on a computer, causes the computer to perform the method of any one of claims 1 to 5.

8. A wearable device comprising a memory, a processor, a first audio output device arranged to correspond to the left ear side, and a second audio output device arranged to correspond to the right ear side, the processor being arranged to perform the method of any of claims 1 to 5 by invoking a computer program stored in the memory.