CN108471638B - Wireless earphone control method, device, control device and storage medium - Google Patents

Abstract

The application relates to a wireless headset control method, a wireless headset control device and a storage medium. The method comprises the following steps: when the wireless earphone is detected to meet the preset transmission condition, controlling a first type wireless communication module in the wireless earphone to be started and a second type wireless communication module in the wireless earphone to be stopped, wherein the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module; carrying out data transmission through the first type of wireless communication module in the open state; and after the data transmission is finished, controlling the first type wireless communication module to be closed and controlling the second type wireless communication module to be opened. By adopting the method, the data transmission efficiency can be improved, and the power consumption can be reduced.

Description

Wireless earphone control method, device, control device and storage medium

Technical Field

The present application relates to the field of wireless communications technologies, and in particular, to a method and an apparatus for controlling a wireless headset, a control apparatus, and a storage medium.

Background

With the development of wireless communication technology, wireless headsets are increasingly widely used. The wireless earphone communicates with the mobile phone in a wireless communication mode to mutually transmit data, a data line is not needed, and the use is convenient.

Common wireless communication devices include a bluetooth module, a Wi-Fi module, and the like. In order to ensure the cruising ability of the earphone, the traditional wireless earphone mostly adopts a wireless communication module with lower power consumption, such as a bluetooth module, however, the general transmission speed of the wireless communication module with lower power consumption is slower, and when a large amount of data transmission is needed, the data transmission efficiency of the wireless earphone is low.

Disclosure of Invention

In view of the above, it is desirable to provide a wireless headset control method, device, control device, and storage medium that can improve data transmission efficiency and reduce power consumption.

A wireless headset control method, the method comprising:

when the wireless earphone is detected to meet a preset transmission condition, controlling a first type wireless communication module in the wireless earphone to be started and a second type wireless communication module in the wireless earphone to be stopped, wherein the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module;

performing data transmission through the first type of wireless communication module in an on state;

and after the data transmission is finished, controlling the first type wireless communication module to be closed and the second type wireless communication module to be opened.

A wireless headset control device, the device comprising:

the wireless earphone comprises a first switching module, a second switching module and a third switching module, wherein the first switching module is used for controlling a first type wireless communication module to be started and a second type wireless communication module to be closed in the wireless earphone when the wireless earphone is detected to meet a preset transmission condition, and the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module;

the data transmission module is used for transmitting data through the first type of wireless communication module in the opening state;

and the second switching module is used for controlling the first type of wireless communication module to be closed and the second type of wireless communication module to be opened after data transmission is finished.

A control apparatus comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

when the wireless earphone is detected to meet a preset transmission condition, controlling a first type wireless communication module in the wireless earphone to be started and a second type wireless communication module in the wireless earphone to be stopped, wherein the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module;

performing data transmission through the first type of wireless communication module in an on state;

and after the data transmission is finished, controlling the first type wireless communication module to be closed and the second type wireless communication module to be opened.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

when the wireless earphone is detected to meet a preset transmission condition, controlling a first type wireless communication module in the wireless earphone to be started and a second type wireless communication module in the wireless earphone to be stopped, wherein the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module;

performing data transmission through the first type of wireless communication module in an on state;

and after the data transmission is finished, controlling the first type wireless communication module to be closed and the second type wireless communication module to be opened.

According to the wireless earphone control method, the wireless earphone control device and the wireless earphone storage medium, when the wireless earphone is detected to meet the preset transmission condition, the first type wireless communication module in the wireless earphone is controlled to be started, the second type wireless communication module in the wireless earphone is controlled to be stopped, data is transmitted through the first type wireless communication module, and the first type wireless communication module is controlled to be stopped, and the second type wireless communication module is controlled to be started after the data transmission is finished. Because the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module, and the power consumption of the general wireless communication module with high transmission speed is high, when the preset transmission condition is detected to be met, the first type wireless communication module with high transmission speed is adopted to transmit data, the transmission is fast, the consumed time is short, the second type wireless communication module with low power consumption is started and the first type wireless communication module with high power consumption is closed after the data transmission is completed, and the power consumption can be reduced. Therefore, the power consumption can be reduced while the data transmission efficiency is improved.

Drawings

FIG. 1 is a diagram of an exemplary wireless headset control method;

FIG. 2 is a flow diagram illustrating a method for controlling a wireless headset according to one embodiment;

fig. 3 is a flow chart illustrating a wireless headset control method according to another embodiment;

fig. 4 is a flow chart illustrating a wireless headset control method according to yet another embodiment;

FIG. 5 is a block diagram of a wireless headset control device in one embodiment;

fig. 6 is a schematic diagram of a system structure applying the wireless headset control method.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The wireless headset control method provided by the application can be applied to the application environment shown in fig. 1. Wherein the wireless headset 102 communicates with the terminal 104 over a wireless network. When the preset transmission condition is not met, the wireless headset 102 is kept in a state of closing the first type wireless communication module and opening the second type wireless communication module; when the preset transmission condition is met, controlling a first type wireless communication module in the wireless earphone 102 to be opened and a second type wireless communication module in the wireless earphone to be closed, and transmitting data with the terminal 104 through the first type wireless communication module; and after the data transmission is finished, controlling the first type wireless communication module to be closed and controlling the second type wireless communication module to be opened. Wherein, wireless earphone 102 is provided with a control device and two wireless communication modules with different transmission speeds: the control device can detect whether the transmission condition is met and control the first type wireless communication module and the second type wireless communication module to be turned on or off. The terminal 104 may be, but is not limited to, various personal computers, laptops, smartphones, tablets, and portable wearable devices.

In one embodiment, as shown in fig. 2, a wireless headset control method is provided, which is described by taking the method as an example applied to the wireless headset in fig. 1, and includes the following steps:

s220: and when the wireless earphone is detected to meet the preset transmission condition, controlling the first type of wireless communication module in the wireless earphone to be started and controlling the second type of wireless communication module in the wireless earphone to be stopped.

Wherein the transmission speed of the first type of wireless communication module is greater than the transmission speed of the second type of wireless communication module. Specifically, the power consumption of the first type of wireless communication module is greater than the power consumption of the second type of wireless communication module. The wireless headset and the terminal are usually required to transmit data when communicating, and specifically, the preset transmission condition is a condition that represents that a data transmission operation to be performed takes time. For example, the transmission condition may be receiving a preset type of instruction or signal, the preset type of execution or signal being used to indicate that a data transmission operation that takes a long time to be executed; or the transfer condition may be to trigger a time-consuming data transfer operation, such as triggering a data download or a mass data transfer. And detecting that the preset transmission condition is met, wherein the condition indicates that the time-consuming data transmission operation needs to be executed.

Specifically, the wireless headset may control the first type of wireless communication module to be turned on and the second type of wireless communication module to be turned off through the control device. For example, the control device may control the first type wireless communication module to be turned on and the second type wireless communication module to be turned off by controlling on and off of the switching device.

S240: and carrying out data transmission through the first type of wireless communication module in the opening state.

Under the state that the first type wireless communication module is opened and the second type wireless communication module is closed, the wireless earphone transmits data through the first type wireless communication module, the transmission speed is high, and compared with the second type wireless communication module, the time consumption is less. Specifically, the data transmitted by the first type of wireless communication module is data corresponding to an event that triggers satisfying of the transmission condition.

Specifically, the data transmission may be completed by the first type wireless communication module receiving data transmitted by the terminal communicating with the first type wireless communication module, or by the first type wireless communication module transmitting data to the communicating terminal.

S260: and after the data transmission is finished, controlling the first type wireless communication module to be closed and controlling the second type wireless communication module to be opened.

The wireless earphone is recovered to the state of opening the second type wireless communication module by controlling the first type wireless communication module to be closed and the second type wireless communication module to be opened.

In the wireless earphone control method, when the wireless earphone is detected to meet the preset transmission condition, the first type wireless communication module in the wireless earphone is controlled to be opened, the second type wireless communication module in the wireless earphone is controlled to be closed, data is transmitted through the first type wireless communication module, and the first type wireless communication module is controlled to be closed and the second type wireless communication module is controlled to be opened after the data transmission is completed. Because the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module, and the power consumption of the general wireless communication module with high transmission speed is high, when the preset transmission condition is detected to be met, the first type wireless communication module with high transmission speed is adopted to transmit data, the transmission is fast, the consumed time is short, the second type wireless communication module with low power consumption is started and the first type wireless communication module with high power consumption is closed after the data transmission is completed, and the power consumption can be reduced. Therefore, the power consumption can be reduced while the data transmission efficiency is improved.

Specifically, the method for controlling a wireless headset further includes: and when the wireless earphone does not meet the preset transmission condition, keeping the first type wireless communication module closed and the second type wireless communication module opened. That is, in a normal state where the predetermined transmission condition is not satisfied, the power consumption can be further reduced by transmitting data using the second type wireless communication module with low power consumption.

In one embodiment, the second type of wireless communication module is a bluetooth module and the first type of wireless communication module may be a Wi-Fi module. The transmission speed of the Wi-Fi module is higher than that of the Bluetooth module, and the power consumption of the Wi-Fi module is higher than that of the Bluetooth module.

In one embodiment, referring to fig. 3, before step S220, step S200 is further included.

S200: whether the wireless earphone is in a wearing state is detected.

Wherein the wearing state is a state in which the wireless headset is worn by the user. If it is detected that the wireless headset is not in the wearing state, it indicates that the wireless headset is not worn by the user, and then step S220 is executed. If the wireless headset is detected to be in a wearing state, the wireless communication module of the first type in the wireless headset is controlled to be closed, the wireless communication module of the second type in the wireless headset is controlled to be opened, and the wireless headset is ensured to be in the opening state of the wireless communication module of the second type. Specifically, it may be detected whether the wireless headset is in a wearing state by a sensor provided in the wireless headset and connected to the control device.

Generally, the larger the transmission speed of the wireless communication module is, the larger the generated heat and radiation are, and when a user wears the wireless communication module, the wireless earphone is in contact with the skin of the user, so that the large heat and radiation are not beneficial to wearing of the user. Whether the wireless earphone is in a wearing state is detected before the step S220, the step S220 is not executed in the wearing state, and the step S220 is executed in a non-wearing state, so that adverse effects on a user caused by heat and radiation generated in the using process of the first type wireless transmission module with high transmission speed can be avoided, and the wireless earphone is high in use safety.

In another embodiment, referring to fig. 4, before step S220, step S210 is further included.

S210: whether the wireless headset is in a charging state is detected.

Wherein the charging state is a state in which the wireless headset is being charged. If the wireless headset is detected to be in the charging state, executing step S220; if the wireless headset is detected to be in the non-charging state, the wireless communication module of the first type in the wireless headset may be controlled to be turned off, the wireless communication module of the second type in the wireless headset may be controlled to be turned on, and the wireless headset is ensured to be in the turned-on state of the wireless communication module of the second type.

Generally, a wireless communication module having a high transmission speed consumes a large amount of power. Whether the wireless earphone is in the charging state or not is detected before the step S220, and the step S220 is executed in the charging state, so that the electric quantity required by the first type wireless transmission module with high transmission speed and high electric power consumption in the use process can be ensured, the power failure caused by high electric power consumption is avoided, and the use reliability is improved.

It is understood that in other embodiments, step S210 may be performed after step S200 and before step S220. Specifically, before step S220, it is detected whether the wireless headset is in a wearing state; if the wireless headset is in the non-wearing state, whether the wireless headset is in the charging state is detected, and if the wireless headset is in the charging state, the step S220 is executed. Therefore, the use safety and reliability of the wireless earphone can be ensured.

It is understood that, in other embodiments, the terminal that the wireless headset communicates with may also detect whether the wireless headset is in a wearing state and/or whether the wireless headset is in a charging state, and send a notification signal to the wireless headset when detecting that the wireless headset is in a non-wearing state, or send a notification signal to the wireless headset when detecting that the wireless headset is in a charging state, or send a notification signal to the wireless headset when the wireless headset is in a non-wearing state and in a charging state, so that step S220 is performed.

In one embodiment, the preset transmission conditions include: the audio data in the memory of the wireless headset is not synchronized with the audio data in the terminal with which the wireless headset is communicating.

Before the first type wireless communication module is controlled to be started and the second type wireless communication module is controlled to be closed, the wireless earphone is communicated with the terminal through the second type wireless communication module, and then the terminal communicated with the wireless earphone is the terminal communicated with the second type wireless communication module. Specifically, the control device of the wireless headset may compare audio data in a memory of the wireless headset with audio data in a terminal to which the wireless headset communicates, and if all audio data in a preset folder in the terminal to which the wireless headset communicates are stored in the memory of the wireless headset, it indicates that the audio data are synchronous, otherwise, it indicates that the audio data are not synchronous, and the preset transmission condition is satisfied. For example, the terminal may send the identification numbers of all audio data in the preset folder to the control device of the wireless headset, and the control device determines whether the received identification numbers are consistent with the identification numbers of the audio data locally stored in the wireless headset to determine whether the audio data are synchronous; the identification number may be a name of the audio data or other information for identification.

When the audio data in the memory of the wireless headset is not synchronous with the audio data in the terminal, a large amount of data is generally required to be downloaded and transmitted synchronously, and the data transmission operation required to be executed is time-consuming. In this embodiment, the audio data in the memory of the wireless headset and the audio data in the terminal to be communicated are asynchronous to be a preset transmission condition, and the data to be transmitted by the first type of wireless communication module is the data required for synchronous downloading. The first type wireless communication module is controlled to be started, the second type wireless communication module is controlled to be closed, so that the first type wireless communication module is adopted to synchronously download and transmit a large amount of data, the audio data in the memory in the wireless earphone can be synchronized with the audio data in the communicated terminal, and a user can play the audio stored in the wireless earphone without carrying the terminal, so that the wireless earphone is convenient to use; and the data transmission speed is high during synchronous downloading, and the synchronous efficiency can be improved.

In another embodiment, the preset transmission conditions include: an audio data out-of-sync signal is received. The audio data asynchronous signal is sent by a terminal communicated with the wireless earphone when the audio data in the memory of the wireless earphone is detected to be asynchronous with the locally stored audio data. For the terminal, the locally stored audio data is the audio data stored by the terminal.

In this embodiment, the terminal with which the wireless headset communicates compares the audio data in the memory of the wireless headset with the locally stored audio data, and if all the audio data in the preset folder in the terminal with which the wireless headset communicates are stored in the memory of the wireless headset, it indicates that the audio data are synchronous, otherwise, it indicates that the audio data are not synchronous.

By taking the received audio data asynchronous signal as a preset transmission condition, the data which needs to be transmitted by the first type of wireless communication module correspondingly is the data which needs to be synchronously downloaded, the first type of wireless communication module can be adopted for synchronous downloading when the audio data is asynchronous, and the synchronization efficiency is high.

In other embodiments, the preset transmission condition may further include: and receiving a switching instruction. The switching instruction can be sent by a terminal communicated with the wireless headset or can be triggered by a button arranged on the wireless headset. For example, when the user needs to switch to the first type of wireless communication module, the user may click a mobile phone in communication with the wireless headset to enable the mobile phone to send a switching instruction, or directly press a button on the wireless headset to enable the control device to receive the switching instruction. Therefore, the wireless communication module can be selected and switched by the user, and the use flexibility is high.

In one embodiment, step S240 includes: and sending a data downloading request to the terminal through the first type of wireless communication module in the open state, and receiving and storing audio data returned by the terminal according to the data downloading request.

The data download request is for requesting to download audio data. The terminal communicating with the wireless headset may be a mobile phone, a tablet, a computer, etc. The required audio data is returned by the terminal by sending a data downloading request to the terminal, so that the wireless earphone can be conveniently stored and used. Specifically, the terminal may download corresponding data from the cloud server according to the data download request and return the corresponding data to the wireless headset.

Taking the case that the audio data in the memory of the wireless headset is asynchronous with the audio data in the terminal communicated with the wireless headset as a preset transmission condition or the case that an asynchronous signal of the audio data is received as a preset transmission condition, the wireless headset may generate a data download request according to the audio data which is not in the wireless headset and in a preset folder of the terminal communicated with the wireless headset, so as to receive the returned audio data and download the audio data which is not in the wireless headset, thereby synchronizing the audio data of the wireless headset with the audio data of the terminal communicated with the wireless headset. It will be appreciated that in other embodiments, the data download request may also be used to request the download of other types of data, such as pictures.

In another embodiment, step S240 includes: receiving gateway information broadcasted by a terminal through a first type of wireless communication module in an open state; establishing communication with a gateway corresponding to gateway information through a first type wireless communication module in an open state; and sending a data downloading request to the communicated gateway, receiving audio data returned by the cloud server after the gateway forwards the data downloading request to the connected cloud server, and storing the audio data.

The gateway information is information required to connect the gateway, such as an address. And the gateway corresponding to the gateway information is connected with the cloud server. Through terminal broadcast gateway information, wireless earphone adopts the wireless communication module of first type and gateway communication that corresponds to initiatively pass through gateway and cloud server communication, follow cloud server and download audio data, do not need the manual work to control wireless earphone, convenient to use.

For example, the terminal is a mobile phone with a scanning function based on the AirKiss technology, and a user scans the two-dimensional identification code by using the mobile phone to obtain corresponding gateway information; and then the mobile phone sends a broadcast to the wireless earphone, the content in the broadcast comprises gateway information, and the wireless earphone adopts a first type wireless communication module to establish communication with a gateway corresponding to the gateway information after receiving the broadcast gateway information, so as to connect to a cloud server.

In one embodiment, after step S260, the method further includes: if the second type of wireless communication module is in a successful connection state, playing audio data in the communicated terminal; and if the second type of wireless communication module is in a disconnected state, playing the audio data in the memory in the wireless earphone.

The communicated terminal refers to a terminal communicated by the second type of wireless communication module. The successful connection state is a state in which the communication with the terminal is successful and data can be transmitted; the disconnected state is a state in which communication with the terminal is disconnected and data cannot be transmitted. The second type wireless communication module is in a successful connection state, which indicates that the second type wireless communication module is connected with the terminal, and the audio data in the terminal can be played at the moment, so that the playing accuracy can be ensured; the second type wireless communication module is in a disconnected state, which indicates that the second type wireless communication module is not connected with a terminal, and at the moment, the audio data in the memory of the wireless earphone can be used, so that the situation that the audio data cannot be played is avoided, and the reliability is high.

It should be understood that although the various steps in the flow charts of fig. 2-4 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2-4 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternating with other steps or at least some of the sub-steps or stages of other steps.

In one embodiment, as shown in fig. 5, there is provided a wireless headset control device comprising: a first switching module 220, a data transmission module 240, and a second switching module 260, wherein:

the first switching module 220 is configured to control the first type of wireless communication module in the wireless headset to be turned on and the second type of wireless communication module in the wireless headset to be turned off when the wireless headset is detected to meet the preset transmission condition.

Wherein the transmission speed of the first type of wireless communication module is greater than the transmission speed of the second type of wireless communication module. Specifically, the power consumption of the first type of wireless communication module is greater than the power consumption of the second type of wireless communication module. The preset transmission condition is a condition that represents that the data transmission operation to be performed takes time. For example, the transmission condition may be receiving a preset type of instruction or signal, the preset type of execution or signal being used to indicate that a data transmission operation that takes a long time to be executed; or the transfer condition may be to trigger a time-consuming data transfer operation, such as triggering a data download or a mass data transfer.

The data transmission module 240 is configured to transmit data through the first type of wireless communication module in the on state.

The second switching module 260 is configured to control the first type of wireless communication module to be turned off and the second type of wireless communication module to be turned on after the data transmission is completed.

In the wireless headset control device, when the first switching module 220 detects that the wireless headset meets the preset transmission condition, the first type wireless communication module in the wireless headset is controlled to be turned on, the second type wireless communication module in the wireless headset is controlled to be turned off, the data transmission module 240 transmits data through the first type wireless communication module, and the second switching module 260 controls the first type wireless communication module to be turned off and the second type wireless communication module to be turned on after the data transmission is completed. Because the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module, and the power consumption of the general wireless communication module with high transmission speed is high, when the preset transmission condition is detected to be met, the first type wireless communication module with high transmission speed is adopted to transmit data, the transmission is fast, the consumed time is short, the second type wireless communication module with low power consumption is started and the first type wireless communication module with high power consumption is closed after the data transmission is completed, and the power consumption can be reduced. Therefore, the power consumption can be reduced while the data transmission efficiency is improved.

Specifically, the wireless headset control device further includes a holding module (not shown) for holding the first type of wireless communication module off and the second type of wireless communication module on when the wireless headset does not satisfy the preset transmission condition. That is, in a normal state where the predetermined transmission condition is not satisfied, the power consumption can be further reduced by transmitting data using the second type wireless communication module with low power consumption.

In one embodiment, the second type of wireless communication module is a bluetooth module and the first type of wireless communication module may be a Wi-Fi module. The transmission speed of the Wi-Fi module is higher than that of the Bluetooth module, and the power consumption of the Wi-Fi module is higher than that of the Bluetooth module.

In an embodiment, the wireless headset control device further includes a wearing state detection module (not shown) for detecting whether the wireless headset is in a wearing state. If the wireless headset is not in the wearing state, the first switching module 220 controls the first type of wireless communication module in the wireless headset to be turned on and the second type of wireless communication module in the wireless headset to be turned off when detecting that the wireless headset meets the preset transmission condition. Therefore, adverse effects on users caused by heat and radiation generated in the use process of the first type wireless transmission module with high transmission speed can be avoided, and the use safety of the wireless earphone is high. Specifically, if the headset is in the wearing state, the wireless communication module of the first type in the wireless headset may be controlled to be turned off, the wireless communication module of the second type in the wireless headset may be controlled to be turned on, or the wireless communication module of the second type in the wireless headset may not be operated.

In another embodiment, the wireless headset control device further includes a charging status detection module (not shown) for detecting whether the wireless headset is in a charging status. If the wireless headset is in the charging state, the first switching module 220 controls the first type of wireless communication module in the wireless headset to be turned on and the second type of wireless communication module in the wireless headset to be turned off when detecting that the wireless headset meets the preset transmission condition. Therefore, the electric quantity required by the first type of wireless transmission module with high transmission speed and high electric power consumption can be ensured, the power failure caused by high electric power consumption is avoided, and the use reliability is improved. Specifically, if the charging state is not satisfied, the wireless communication module of the first type in the wireless headset may be controlled to be turned off, the wireless communication module of the second type in the wireless headset may be controlled to be turned on, or may not be operated.

It is understood that, in other embodiments, the wireless headset control device may also include both the wearing state detection module and the charging state detection module. The wearing state detection module detects whether the wireless headset is in a wearing state, if the wireless headset is in a non-wearing state, the charging state detection module detects whether the wireless headset is in a charging state, and if the wireless headset is in the charging state, the first switching module 220 executes a corresponding function. Therefore, the use safety and reliability of the wireless earphone can be ensured.

In one embodiment, the preset transmission conditions include: the audio data in the memory of the wireless headset is not synchronized with the audio data in the terminal with which the wireless headset is communicating.

In this embodiment, the audio data in the memory of the wireless headset and the audio data in the terminal to be communicated are asynchronous to be a preset transmission condition, and the data to be transmitted by the first type of wireless communication module is the data required for synchronous downloading. The first type of wireless communication module is adopted for synchronous downloading and transmission of a large amount of data, so that the audio data in the memory in the wireless earphone can be synchronous with the audio data in the communicated terminal, and a user can play the audio stored in the wireless earphone without carrying the terminal, so that the wireless earphone is convenient to use; and the data transmission speed is high during synchronous downloading, and the synchronous efficiency can be improved.

In another embodiment, the preset transmission conditions include: an audio data out-of-sync signal is received. The audio data asynchronous signal is sent by a terminal communicated with the wireless earphone when the audio data in the memory of the wireless earphone is detected to be asynchronous with the locally stored audio data. For the terminal, the locally stored audio data is the audio data stored by the terminal.

In this embodiment, the received asynchronous signal of the audio data is taken as a preset transmission condition, the data that needs to be transmitted by the first type of wireless communication module correspondingly is taken as data needed for synchronous downloading, and the first type of wireless communication module can be adopted for synchronous downloading when the audio data is asynchronous, so that the synchronization efficiency is high.

In other embodiments, the preset transmission condition may further include: and receiving a switching instruction. Therefore, the wireless communication module can be selected and switched by the user, and the use flexibility is high.

In one embodiment, the data transmission module 240 sends a data download request to the terminal through the first type of wireless communication module in the on state, and receives and stores audio data returned by the terminal according to the data download request.

The terminal communicating with the wireless headset may be a mobile phone, a tablet, a computer, etc. The required audio data is returned by the terminal by sending a data downloading request to the terminal, so that the wireless earphone can be conveniently stored and used.

In another embodiment, the data transmission module 240 receives gateway information broadcasted by the terminal through the first type of wireless communication module in the on state; establishing communication with a gateway corresponding to gateway information through a first type wireless communication module in an open state; and sending a data downloading request to the communicated gateway, receiving audio data returned by the cloud server after the gateway forwards the data downloading request to the connected cloud server, and storing the audio data.

Through terminal broadcast gateway information, wireless earphone adopts the wireless communication module of first type and gateway communication that corresponds to initiatively pass through gateway and cloud server communication, follow cloud server and download audio data, do not need the manual work to control wireless earphone, convenient to use.

In one embodiment, the wireless headset control device further includes a playing module (not shown) for playing audio data in the terminal to which the wireless communication module of the second type is communicating when the wireless communication module of the second type is in a successful connection state; and when the second type of wireless communication module is in a disconnected state, playing the audio data in the memory in the wireless earphone. Therefore, the accuracy and the reliability of audio playing can be improved.

For specific limitations of the wireless headset control device, reference may be made to the above limitations of the wireless headset control method, which are not described herein again. The various modules in the wireless earphone control device described above may be implemented in whole or in part by software, hardware, and combinations thereof. The modules can be embedded in a hardware form or independent from a processor in the control device, and can also be stored in a memory in the control device in a software form, so that the processor can call and execute the corresponding operations of the modules.

In one embodiment, there is provided a control apparatus comprising a memory and a processor, the memory having stored therein a computer program, the processor implementing the following steps when executing the computer program:

when the wireless earphone is detected to meet the preset transmission condition, controlling a first type wireless communication module in the wireless earphone to be started and a second type wireless communication module in the wireless earphone to be stopped; carrying out data transmission through the first type of wireless communication module in the open state; and after the data transmission is finished, controlling the first type wireless communication module to be closed and controlling the second type wireless communication module to be opened.

Wherein the transmission speed of the first type of wireless communication module is greater than the transmission speed of the second type of wireless communication module. Specifically, the power consumption of the first type of wireless communication module is greater than the power consumption of the second type of wireless communication module.

The control device realizes the wireless earphone control method, and can reduce the power consumption while improving the data transmission efficiency.

In one embodiment, the processor, when executing the computer program, further performs the steps of: whether the wireless earphone is in a wearing state is detected. If the wireless earphone is detected not to be in a wearing state, when the wireless earphone is detected to meet the preset transmission condition, the first type of wireless communication module in the wireless earphone is controlled to be started, and the second type of wireless communication module in the wireless earphone is controlled to be stopped. Therefore, adverse effects on users caused by heat and radiation generated in the use process of the first type wireless transmission module with high transmission speed can be avoided, and the use safety of the wireless earphone is high.

In another embodiment, the processor, when executing the computer program, further performs the steps of: whether the wireless headset is in a charging state is detected. If yes, controlling the first type wireless communication module in the wireless earphone to be started and the second type wireless communication module in the wireless earphone to be closed when the wireless earphone is detected to meet the preset transmission condition. Therefore, the power failure caused by large power consumption can be avoided, and the use reliability is improved.

It will be appreciated that in other embodiments the following steps may also be implemented when the computer program is executed by a processor: detecting whether the wireless earphone is in a wearing state; if the wireless earphone is in a non-wearing state, whether the wireless earphone is in a charging state is detected, and if the wireless earphone is in the charging state, the wireless communication module of the first type in the wireless earphone is controlled to be started and the wireless communication module of the second type in the wireless earphone is controlled to be stopped when the wireless earphone is detected to meet the preset transmission condition. Therefore, the use safety and reliability of the wireless earphone can be ensured.

In one embodiment, the processor, when executing the computer program, further performs the steps of: and sending a data downloading request to the terminal through the first type of wireless communication module in the open state, and receiving and storing audio data returned by the terminal according to the data downloading request.

In another embodiment, the processor, when executing the computer program, further performs the steps of: receiving gateway information broadcasted by a terminal through a first type of wireless communication module in an open state; establishing communication with a gateway corresponding to gateway information through a first type wireless communication module in an open state; and sending a data downloading request to the communicated gateway, receiving audio data returned by the cloud server after the gateway forwards the data downloading request to the connected cloud server, and storing the audio data.

In one embodiment, the processor, when executing the computer program, further performs the steps of: if the second type of wireless communication module is in a successful connection state, playing audio data in the communicated terminal; and if the second type of wireless communication module is in a disconnected state, playing the audio data in the memory in the wireless earphone. Therefore, the accuracy and the reliability of audio playing can be improved.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

when the wireless earphone is detected to meet the preset transmission condition, controlling a first type wireless communication module in the wireless earphone to be started and a second type wireless communication module in the wireless earphone to be stopped; carrying out data transmission through the first type of wireless communication module in the open state; and after the data transmission is finished, controlling the first type wireless communication module to be closed and controlling the second type wireless communication module to be opened.

Wherein the transmission speed of the first type of wireless communication module is greater than the transmission speed of the second type of wireless communication module. Specifically, the power consumption of the first type of wireless communication module is greater than the power consumption of the second type of wireless communication module.

The computer readable storage medium can reduce power consumption while improving data transmission efficiency by implementing the wireless headset control method.

In one embodiment, the computer program when executed by the processor further performs the steps of: whether the wireless earphone is in a wearing state is detected. If the wireless earphone is detected not to be in a wearing state, when the wireless earphone is detected to meet the preset transmission condition, the first type of wireless communication module in the wireless earphone is controlled to be started, and the second type of wireless communication module in the wireless earphone is controlled to be stopped. Therefore, adverse effects on users caused by heat and radiation generated in the use process of the first type wireless transmission module with high transmission speed can be avoided, and the use safety of the wireless earphone is high.

In another embodiment, the computer program when executed by the processor further performs the steps of: whether the wireless headset is in a charging state is detected. If yes, controlling the first type wireless communication module in the wireless earphone to be started and the second type wireless communication module in the wireless earphone to be closed when the wireless earphone is detected to meet the preset transmission condition. Therefore, the power failure caused by large power consumption can be avoided, and the use reliability is improved.

It will be appreciated that in other embodiments, the computer program when executed by the processor further performs the steps of: detecting whether the wireless earphone is in a wearing state; if the wireless earphone is in a non-wearing state, whether the wireless earphone is in a charging state is detected, and if the wireless earphone is in the charging state, the wireless communication module of the first type in the wireless earphone is controlled to be started and the wireless communication module of the second type in the wireless earphone is controlled to be stopped when the wireless earphone is detected to meet the preset transmission condition. Therefore, the use safety and reliability of the wireless earphone can be ensured.

In one embodiment, the computer program when executed by the processor further implements the steps of: and sending a data downloading request to the terminal through the first type of wireless communication module in the open state, and receiving and storing audio data returned by the terminal according to the data downloading request.

In another embodiment, the computer program when executed by the processor further performs the steps of: receiving gateway information broadcasted by a terminal through a first type of wireless communication module in an open state; establishing communication with a gateway corresponding to gateway information through a first type wireless communication module in an open state; and sending a data downloading request to the communicated gateway, receiving audio data returned by the cloud server after the gateway forwards the data downloading request to the connected cloud server, and storing the audio data.

In one embodiment, the computer program when executed by the processor further implements the steps of: if the second type of wireless communication module is in a successful connection state, playing audio data in the communicated terminal; and if the second type of wireless communication module is in a disconnected state, playing the audio data in the memory in the wireless earphone. Therefore, the accuracy and the reliability of audio playing can be improved.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

Referring to fig. 6, the wireless headset control method/apparatus is described as applied to a bluetooth headset, where the bluetooth headset includes a control apparatus, a bluetooth module connected to the control apparatus, and a Wi-Fi module, and the control apparatus can communicate with a mobile phone or a gateway through the bluetooth module or the Wi-Fi module. When the wireless earphone does not meet the preset transmission condition, the control device keeps the state of closing the first type wireless communication module and opening the second type wireless communication module; when detecting that the audio data in the memory of the wireless earphone is asynchronous with the audio data in the mobile phone, or when receiving an audio data asynchronous signal sent by the mobile phone, or when receiving a switching instruction, controlling the Wi-Fi module to be started and the Bluetooth module to be stopped; at the moment, a data downloading request is sent to the mobile phone through the Wi-Fi module, or gateway information is broadcasted by the mobile phone, the wireless earphone receives the gateway information broadcasted by the mobile phone through the Wi-Fi module, establishes communication with the gateway, sends the data downloading request to the gateway, and forwards the data downloading request to the server through the gateway; the mobile phone downloads the audio data from the cloud server according to the data downloading request and then returns the audio data to the wireless earphone, or the cloud server returns the audio data to the wireless earphone through the gateway, and the wireless earphone receives the returned audio data through the Wi-Fi module and stores the audio data in the memory, so that the transmission speed is high. After the data transmission is finished, the control device controls the Wi-Fi module to be closed and the Bluetooth module to be opened, and the Wi-Fi module and the Bluetooth module are kept in the Bluetooth module opening state. Therefore, the Wi-Fi module with high transmission speed is adopted to increase the transmission speed when time-consuming transmission is needed, and the Bluetooth module with low power consumption is adopted to reduce the power consumption when the time-consuming transmission is not needed. Therefore, the power consumption can be reduced while improving the transmission efficiency of the wireless headset.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. A wireless headset control method, the method comprising:

when the wireless earphone is detected to meet a preset transmission condition, controlling a first type wireless communication module in the wireless earphone to be started and a second type wireless communication module in the wireless earphone to be stopped, wherein the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module; the preset transmission condition comprises that audio data in a memory of the wireless earphone is not synchronous with audio data in a terminal communicated with the wireless earphone or an audio data asynchronous signal is received; the audio data asynchronous signal is sent by a terminal communicated with the wireless earphone when detecting that the audio data in the memory of the wireless earphone is not synchronous with the locally stored audio data;

performing data transmission through the first type of wireless communication module in an on state;

and after the data transmission is finished, controlling the first type wireless communication module to be closed and the second type wireless communication module to be opened.

2. The method according to claim 1, wherein before controlling the wireless communication module of the first type to be turned on and the wireless communication module of the second type to be turned off in the wireless headset when the wireless headset is detected to meet the preset transmission condition, the method further comprises:

detecting whether the wireless earphone is in a wearing state;

if not, executing the step of controlling the first type wireless communication module in the wireless earphone to be started and the second type wireless communication module in the wireless earphone to be stopped when the wireless earphone is detected to meet the preset transmission condition.

3. The method according to claim 1, wherein before controlling the wireless communication module of the first type to be turned on and the wireless communication module of the second type to be turned off in the wireless headset when the wireless headset is detected to meet the preset transmission condition, the method further comprises:

detecting whether the wireless earphone is in a charging state;

and if so, executing the step of controlling the first type of wireless communication module in the wireless earphone to be started and the second type of wireless communication module in the wireless earphone to be stopped when the wireless earphone is detected to meet the preset transmission condition.

4. The method according to any of claims 1-3, wherein the transmitting data by the first type of wireless communication module in the on state comprises:

and sending a data downloading request to a terminal through the first type of wireless communication module in the open state, receiving audio data returned by the terminal according to the data downloading request, and storing the audio data.

5. The method according to any of claims 1-3, wherein the transmitting data by the first type of wireless communication module in the on state comprises:

receiving gateway information broadcasted by a terminal through the first type of wireless communication module in an open state;

establishing communication with a gateway corresponding to the gateway information through the wireless communication module of the first type in the open state;

and sending a data downloading request to a communicated gateway, and receiving and storing audio data returned by the cloud server after the gateway forwards the data downloading request to a connected cloud server.

6. The method according to claim 1, wherein after controlling the wireless communication module of the first type to be turned off and the wireless communication module of the second type to be turned on after the data transmission is completed, the method further comprises:

if the second type of wireless communication module is in a successful connection state, playing audio data in the communicated terminal;

and if the second type of wireless communication module is in a disconnected state, playing audio data of a memory in the wireless earphone.

7. A wireless headset control device, the device comprising:

the wireless earphone comprises a first switching module, a second switching module and a third switching module, wherein the first switching module is used for controlling a first type wireless communication module to be started and a second type wireless communication module to be closed in the wireless earphone when the wireless earphone is detected to meet a preset transmission condition, and the transmission speed of the first type wireless communication module is higher than that of the second type wireless communication module; the preset transmission condition comprises that audio data in a memory of the wireless earphone is not synchronous with audio data in a terminal communicated with the wireless earphone or an audio data asynchronous signal is received; the audio data asynchronous signal is sent by a terminal communicated with the wireless earphone when detecting that the audio data in the memory of the wireless earphone is not synchronous with the locally stored audio data;

the data transmission module is used for transmitting data through the first type of wireless communication module in the opening state;

and the second switching module is used for controlling the first type of wireless communication module to be closed and the second type of wireless communication module to be opened after data transmission is finished.

8. A control apparatus comprising a memory and a processor, the memory storing a computer program, wherein the processor when executing the computer program implements the steps of the method of any one of claims 1 to 6.

9. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 6.

Images