CN106954115B

CN106954115B - Equipment control method and device

Info

Publication number: CN106954115B
Application number: CN201710304635.4A
Authority: CN
Inventors: 史俊
Original assignee: Beijing Asu Tech Co Ltd
Current assignee: Anhui Yishu Optoelectronic Technology Co ltd
Priority date: 2017-05-03
Filing date: 2017-05-03
Publication date: 2020-01-10
Anticipated expiration: 2037-05-03
Also published as: CN106954115A; WO2018201944A1

Abstract

The embodiment of the invention provides a device control method and a device, which are applied to wearable devices with Bluetooth functions, wherein a Bluetooth headset is detachably connected with the wearable devices, and the method comprises the following steps: monitoring whether the physical connection state of the Bluetooth headset and the wearable equipment changes or not; if the connection state is the working state, sending a control instruction to the Bluetooth headset according to the states before and after the physical connection state changes, so that the Bluetooth headset can be switched between the working state and the non-working state, and when the Bluetooth headset is determined to be in the working state, carrying out voice signal interaction with the Bluetooth headset. Therefore, the switching of the working state of the Bluetooth headset does not need manual setting by a user, and the wearable device controls the state before and after the change of the physical connection state, so that the related voice interaction function is automatically realized, the complexity of user operation is reduced, and the user experience is improved.

Description

Equipment control method and device

Technical Field

The present invention relates to the field of electronic devices, and in particular, to a device control method and apparatus.

Background

Since the advent of bluetooth technology in the nineties of the twentieth century, the development of bluetooth headsets has been rapidly carried out in the last two decades, and bluetooth headsets have been widely used in recent years as a hands-free headset based on bluetooth technology. It can make user free from limitation of electric wire and can make conversation or listen to music at will. Because the Bluetooth headset is not required to be held by hands and has no limitation of a wire, the Bluetooth headset also becomes a good tool for improving the working efficiency.

Wearable equipment with bluetooth function, for example intelligent wrist-watch etc. can establish the bluetooth with bluetooth headset and be connected, and then realize answering functions such as phone. In order to carry conveniently, some wearable devices have the connection buckle, can fix bluetooth headset on wearable device, and the user can take off it from wearable device when needing to use bluetooth headset, uses.

However, the wearable device and the bluetooth headset are only mechanically connected, and the bluetooth headset and the wearable device are detachably fixed together, so that the bluetooth headset needs to be taken down from the wearable device when a user needs to use the bluetooth headset, and the bluetooth headset needs to be switched from a non-working state to a working state through manual setting, so that functions of making and receiving calls, playing music and the like are achieved. For example, after the user takes the bluetooth headset off from the wearable device, the user needs to press a key on the bluetooth headset or press a key on the wearable device to enable the bluetooth headset to enter a working state.

Disclosure of Invention

The embodiment of the invention aims to provide a device control method and device, which are used for reducing the complexity of user operation and improving user experience. The specific technical scheme is as follows:

in a first aspect, an embodiment of the present invention provides a wearable device control method, which is applied to a wearable device with a bluetooth function, where a bluetooth headset is detachably connected to the wearable device, and the method includes:

monitoring whether the physical connection state of the Bluetooth headset and the wearable device changes or not;

if so, sending a control instruction to the Bluetooth headset according to the states before and after the physical connection state changes so as to enable the Bluetooth headset to switch between the working state and the non-working state;

and when the Bluetooth headset is determined to be in the working state, carrying out voice signal interaction with the Bluetooth headset.

Optionally, the step of monitoring whether a physical connection state of the bluetooth headset and the wearable device changes includes:

monitoring whether an electrical signal of a first connection location of the wearable device changes, wherein the first connection location is electrically connected with a second connection location of the Bluetooth headset when the Bluetooth headset is physically connected with the wearable device;

or the like, or, alternatively,

monitoring whether an optical signal of a third connection position of the wearable device changes, wherein the third connection position is blocked by the Bluetooth headset when the Bluetooth headset is physically connected with the wearable device;

or the like, or, alternatively,

monitoring whether a pressure signal of a fourth connection location of the wearable device changes, wherein the fourth connection location is squeezed by the Bluetooth headset upon physical connection of the Bluetooth headset with the wearable device.

Optionally, the method further includes:

obtaining an operation request;

responding the operation request and obtaining response content corresponding to the operation request;

and under the condition that the Bluetooth headset is in a working state, sending the response content to the Bluetooth headset so that the Bluetooth headset receives and plays the response content.

Optionally, the operation request is: a voice interaction request;

the step of responding to the operation request and obtaining response content corresponding to the operation request includes:

responding to the voice interaction request, and obtaining a first voice signal sent by opposite-end equipment, wherein the opposite-end equipment is equipment except the wearable equipment and the Bluetooth headset;

the step of sending the response content to the bluetooth headset so that the bluetooth headset receives and plays the response content includes:

sending the first voice signal to the Bluetooth headset so that the Bluetooth headset receives and plays the first voice signal;

the method further comprises the following steps:

receiving a second voice signal sent by the Bluetooth headset, wherein the second voice signal is a voice signal sent by a user and acquired by the Bluetooth headset;

and sending the second voice signal to the opposite terminal equipment.

Optionally, the control instruction is: when the instruction that the Bluetooth headset is switched from the non-working state to the working state is given, the method further comprises the following steps:

detecting whether the Bluetooth headset and the wearable device are disconnected from Bluetooth;

if so, recording the time for disconnecting the Bluetooth connection between the wearable device and the Bluetooth headset;

and when the time reaches a preset time value, outputting the loss information of the Bluetooth headset.

In a second aspect, an embodiment of the present invention further provides an apparatus control device, which is applied to a wearable apparatus with a bluetooth function, and a bluetooth headset is detachably connected to the wearable apparatus, where the apparatus includes:

the physical connection state detection module is used for monitoring whether the physical connection state of the Bluetooth headset and the wearable device changes or not;

the control instruction sending module is used for sending a control instruction to the Bluetooth headset according to the states before and after the physical connection state changes under the condition that the physical connection state of the Bluetooth headset and the wearable device changes, so that the Bluetooth headset is switched between a working state and a non-working state;

and the voice interaction module is used for carrying out voice signal interaction with the Bluetooth headset when the Bluetooth headset is determined to be in the working state.

Optionally, the physical connection state detecting module includes:

the electric signal monitoring unit is used for monitoring whether an electric signal of a first connecting position of the wearable device changes or not, wherein the first connecting position is electrically connected with a second connecting position of the Bluetooth headset when the Bluetooth headset is physically connected with the wearable device;

or the like, or, alternatively,

the optical signal monitoring unit is used for monitoring whether an optical signal of a third connection position of the wearable device changes or not, wherein the third connection position is shielded by the Bluetooth headset when the Bluetooth headset is physically connected with the wearable device;

or the like, or, alternatively,

the pressure signal monitoring unit is used for monitoring whether a pressure signal of a fourth connection position of the wearable device changes or not, wherein the fourth connection position is extruded by the Bluetooth headset when the Bluetooth headset is physically connected with the wearable device.

Optionally, the apparatus further comprises:

the request obtaining module is used for obtaining an operation request;

the request response module is used for responding to the operation request and obtaining response content corresponding to the operation request;

and the content sending module is used for sending the response content to the Bluetooth headset under the condition that the Bluetooth headset is in a working state so as to enable the Bluetooth headset to receive and play the response content.

Optionally, the operation request is: a voice interaction request;

the request response module comprises:

the first voice signal acquisition unit is used for responding to the voice interaction request and acquiring a first voice signal sent by opposite-end equipment, wherein the opposite-end equipment is equipment except the wearable equipment and the Bluetooth headset;

the content transmission module includes:

the first voice signal sending unit is used for sending the first voice signal to the Bluetooth headset so that the Bluetooth headset receives and plays the first voice signal;

the device further comprises:

the second voice signal receiving module is used for receiving a second voice signal sent by the Bluetooth headset, wherein the second voice signal is a voice signal sent by a user and obtained by the Bluetooth headset;

and the second voice signal sending module is used for sending the second voice signal to the opposite terminal equipment.

Optionally, the apparatus further comprises:

a Bluetooth connection detection module, configured to control the instruction to: when the Bluetooth headset is switched from a non-working state to a working state, detecting whether the Bluetooth headset and the wearable device are disconnected from Bluetooth connection;

the time recording module is used for recording the time when the wearable device is disconnected from the Bluetooth headset under the condition that the Bluetooth headset is disconnected from the wearable device;

and the lost information output module is used for outputting the lost information of the Bluetooth headset when the time reaches a preset time value.

According to the equipment control method and device provided by the embodiment of the invention, the Bluetooth headset is detachably connected with the wearable equipment, the wearable equipment with the Bluetooth function monitors whether the physical connection state of the Bluetooth headset and the wearable equipment changes, if so, a control instruction is sent to the Bluetooth headset according to the state before and after the physical connection state changes, so that the Bluetooth headset is switched between the working state and the non-working state, and voice signal interaction is carried out with the Bluetooth headset when the working state of the Bluetooth headset is determined, so that the related voice interaction function is automatically realized. Therefore, the switching of the working state of the Bluetooth headset does not need manual setting by a user, and the wearable device controls the state before and after the change of the physical connection state, so that the complexity of user operation is reduced, and the user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of an apparatus control method according to an embodiment of the present invention;

FIG. 2 is a flow chart of an operation request responding method according to the embodiment shown in FIG. 1;

FIG. 3 is a flow chart of another operation request response method based on the embodiment shown in FIG. 2;

fig. 4 is a flowchart of an output method of loss information of a bluetooth headset according to the embodiment shown in fig. 1;

fig. 5 is a schematic structural diagram of an apparatus control device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to reduce the complexity of user operations and improve user experience, embodiments of the present invention provide an apparatus control method, apparatus, and system.

First, it should be noted that the first device control method provided in the embodiment of the present invention may be applied to a wearable device with a bluetooth function (hereinafter, referred to as a wearable device), for example, a wrist projection with a bluetooth function, and the like, which is not limited herein. This wearable equipment can dismantle with bluetooth headset and be connected.

As shown in fig. 1, a device control method is applied to a wearable device with bluetooth function, and the method includes:

s101, monitoring whether the physical connection state of the Bluetooth headset and the wearable device changes, and if so, executing S102;

it can be understood that, if the user needs to use the bluetooth headset, the bluetooth headset is removed from the wearable device, and if the user does not need to use the bluetooth headset, the bluetooth headset is fixed on the wearable device, so that it can be seen that the physical connection state of the bluetooth headset and the wearable device is closely related to the use state of the bluetooth headset.

Then, the wearable device may determine the usage status of the bluetooth headset by monitoring whether the physical connection status of the bluetooth headset and the wearable device changes, that is, if the physical connection status of the bluetooth headset and the wearable device changes, the user may take the bluetooth headset off from the wearable device at this time, or fix the bluetooth headset that has been taken off to the wearable device, and then step S102 may be executed. Like this, need not user's manual notice wearable equipment, wearable equipment alright in order to detect the physical connection state of bluetooth headset rather than.

For clarity of layout and clarity of the scheme, a specific implementation manner for monitoring whether the physical connection state of the bluetooth headset and the wearable device changes is described in the following.

S102, sending a control instruction to the Bluetooth headset according to the states before and after the physical connection state changes so that the Bluetooth headset is switched between a working state and a non-working state;

if the physical connection state of the Bluetooth headset and the wearable device is monitored to be changed and the connection state is changed into the disconnection state, the Bluetooth headset can be determined to be taken down from the wearable device at the moment, and the situation that the user probably needs to use the Bluetooth headset at the moment is shown, so that a control instruction can be sent to the Bluetooth headset to enable the Bluetooth headset to enter a working state, and the user can use the Bluetooth headset to realize corresponding functions. On the contrary, if the physical connection state of the bluetooth headset and the wearable device is monitored to be changed and the physical connection state is changed from the disconnection state to the connection state, it can be determined that the bluetooth headset is fixed to the wearable device at the moment, which indicates that the user is likely not to use the bluetooth headset at the moment, and then a control instruction can be sent to the bluetooth headset so that the bluetooth headset enters the non-working state.

S103, when the Bluetooth headset is determined to be in the working state, voice signal interaction is carried out between the Bluetooth headset and the Bluetooth headset.

The wearable device can perform voice signal interaction with the Bluetooth headset when determining that the Bluetooth headset is in a working state, namely, the Bluetooth headset can collect voice signals sent by a user and send the voice signals to the wearable device, and the wearable device receives the voice signals sent by the Bluetooth headset and responds to the received voice signals; wearable equipment also can send speech signal to bluetooth headset, and then plays this speech signal through bluetooth headset.

When the bluetooth headset transitions from the inactive state to the active state, the wearable device may launch a preset application or function for use by the user. For example, a dialing program may be initiated to facilitate a user making a call; the voice receiving and recognizing function can also be started, so that the user sends an operation instruction through the Bluetooth headset to enable the wearable device to respond, for example, starting music software, dialing a phone of a certain person, starting navigation and the like.

It can be seen that, in the device control method provided by the embodiment of the present invention, the bluetooth headset is detachably connected to the wearable device, the wearable device with the bluetooth function monitors whether a physical connection state between the bluetooth headset and the wearable device changes, and if so, sends a control instruction to the bluetooth headset according to a state before and after the physical connection state changes, so that the bluetooth headset performs state switching between a working state and a non-working state, and determines that the bluetooth headset performs voice signal interaction with the bluetooth headset when the bluetooth headset is in the working state, thereby automatically implementing a related voice interaction function. Therefore, the switching of the working state of the Bluetooth headset does not need manual setting by a user, and the wearable device controls the state before and after the change of the physical connection state, so that the complexity of user operation is reduced, and the user experience is improved.

As an implementation manner of the embodiment of the present invention, specific implementation manners for monitoring whether a physical connection state of the bluetooth headset and the wearable device changes may include, but are not limited to, the following:

the first realization mode is as follows: monitoring whether an electrical signal of a first connection location of the wearable device changes, wherein the first connection location is electrically connected with a second connection location of the Bluetooth headset when the Bluetooth headset is physically connected with the wearable device.

In this embodiment, the wearable device has a first connection position, the bluetooth headset has a second connection position, and when the wearable device is physically connected to the bluetooth headset, the first connection position is electrically connected to the second connection position, so that the change of the physical connection state between the wearable device and the bluetooth headset can be determined by the level change of the first connection position.

Specifically, as one implementation, when the bluetooth headset is fixed on the wearable device, the level of the first connection position of the wearable device is a low level, generally denoted by 0; when the bluetooth headset is removed from the wearable device, the level of the first connection location of the wearable device is high, generally indicated by 1. As another implementation, when the bluetooth headset is fixed on the wearable device, the level of the first connection position of the wearable device is a high level, generally denoted by 1; when the bluetooth headset is removed from the wearable device, the level of the first connection location of the wearable device is low, generally indicated as 0. Therefore, the physical connection state of the Bluetooth headset and the wearable device can be determined through the level change of the first connection position.

It is reasonable that the high level of the first connection position or the second connection position can be provided by a power management chip, for example, the power management chip can provide a voltage of 1.5V, 1.8V, 2.0V, and the like. The low level of the first connection position or the second connection position can be realized by grounding, namely, 0V voltage is provided, and then the low level is realized. For the specific implementation forms of the first connection position and the second connection position, the embodiment of the present invention is not particularly limited, and for example, the first connection position and the second connection position may be in the form of an elastic sheet, a port, or the like, as long as the electrical connection can be achieved and the electrical signal can be transmitted.

The second implementation manner is as follows: monitoring whether an optical signal of a third connection location of the wearable device changes, wherein the third connection location is obscured by the bluetooth headset when the bluetooth headset is physically connected to the wearable device.

In such embodiments, the wearable device has a third connection location that is obscured by the bluetooth headset when the wearable device is physically connected to the bluetooth headset. Therefore, the change of the physical connection state of the wearable device and the Bluetooth headset can be determined through the change of the optical signal of the third connection position.

Specifically, if the presence of the optical signal at the third connection position is monitored, the third connection position is determined to be unobstructed to obstructed, and the bluetooth headset is fixed on the wearable device. Therefore, the change of the physical connection state of the wearable device and the Bluetooth headset can be determined through the change of the optical signal of the third connection position.

It should be noted that the optical signal at the third connection position may be obtained by mounting an optical sensor at the third connection position. The optical sensor may be any optical sensor, as long as the purpose of obtaining the optical signal of the third connection position can be achieved, and is not particularly limited herein.

The third implementation manner is as follows: monitoring whether a pressure signal of a fourth connection location of the wearable device changes, wherein the fourth connection location is squeezed by the Bluetooth headset upon physical connection of the Bluetooth headset with the wearable device.

In such an embodiment, the wearable device has a fourth connection location that is squeezed by the bluetooth headset to generate the pressure signal when the wearable device is physically connected to the bluetooth headset. Therefore, the change of the physical connection state of the wearable device and the Bluetooth headset can be determined through the pressure signal change of the fourth connection position.

Specifically, if the pressure signal of the fourth connection position is detected to be present or absent, the fourth connection position is indicated to be squeezed to be not squeezed, and the bluetooth headset is removed from the wearable device, and conversely, if the pressure signal of the fourth connection position is detected to be absent, the fourth connection position is indicated to be not squeezed to be squeezed, and the bluetooth headset is fixed on the wearable device. Therefore, the change of the physical connection state of the wearable device and the Bluetooth headset can be determined through the pressure signal change of the fourth connection position.

It should be noted that the pressure signal at the fourth connection position may be obtained by installing a pressure sensor at the fourth connection position. The pressure sensor may be any existing pressure sensor as long as the purpose of obtaining the pressure signal of the fourth connection position can be achieved, and is not specifically limited herein.

It should be further noted that, besides the three embodiments described above, it may also be possible to monitor whether the physical connection state of the bluetooth headset and the wearable device changes in other manners, as long as the physical connection state of the bluetooth headset and the wearable device can be determined, which is not specifically limited herein.

As an implementation manner of the embodiment of the present invention, based on the above device control method, when the wearable device obtains an operation request, the embodiment of the present invention further provides a following response manner, as shown in fig. 2, which specifically includes the following steps:

s201, obtaining an operation request;

it is understood that the user may press a button on the wearable device or touch the screen to issue an operation request, and the wearable device may obtain the operation request.

In an embodiment, the operation request may be sent by a user through a voice signal, and then when the bluetooth headset is in a non-operating state, that is, when the bluetooth headset is fixed to the wearable device, the bluetooth headset cannot receive the voice signal sent by the user, and the wearable device may collect the voice signal sent by the user through its own microphone, perform voice recognition on the collected voice signal, and further obtain the operation request.

For example, if the speech recognition result corresponding to the speech signal sent by the wearable device is "play music" for fire ", the wearable device may further analyze the speech recognition result, determine that the user requests to play music, and the name of the played music is" play fire ", and then obtain an operation request with the content of" play music "for fire". For another example, the wearable device may be receiving an incoming call, and the user may send a voice signal such as "answer" as an operation request, so that the wearable device may obtain the operation request with the content of "answer call".

When the bluetooth headset is in an operating state, that is to say, when the bluetooth headset is not fixed on wearable equipment, the bluetooth headset can gather the speech signal that the user sent this moment, and the speech signal that the user sent also can be gathered to wearable equipment of course, so wearable equipment alright with the speech signal that can obtain the bluetooth headset and/or the speech signal that wearable equipment gathered, and then carry out speech recognition to the speech signal who obtains, obtain the operation request, this is also reasonable.

In another embodiment, the operation request may be triggered by an incoming call, that is, the wearable device receives an incoming call, and the wearable device obtains an operation request to put through the call.

In another embodiment, when the wearable device detects that the physical connection state between the bluetooth headset and the wearable device changes, and the change indicates that the bluetooth headset is disconnected from the wearable device, the wearable device may also obtain a preset operation request, where the preset operation request may be to start a dialing program or start a voice control mode.

S202, responding to the operation request and obtaining response content corresponding to the operation request;

after the operation request is obtained, the wearable device can respond to the operation request, and then response content corresponding to the operation request is obtained.

Assuming that the content of the operation request is "play music" for fire ", the wearable device may respond to the operation instruction to obtain audio data of the music" for fire ", that is, the response content. Assuming that the operation instruction is "play voice navigation", the electrical device may respond to the operation instruction to obtain audio data of the navigation information. If the operation request is to answer a call, the wearable device responds to the operation request, namely, the wearable device is connected to the call, and then the voice signal sent by the opposite-end device is obtained, namely, the response content. This opposite terminal equipment is except wearable equipment and bluetooth headset.

S203, under the condition that the Bluetooth headset is in a working state, the response content is sent to the Bluetooth headset, so that the Bluetooth headset receives and plays the response content.

In an implementation, if the wearable device monitors that the bluetooth headset is disconnected from the wearable device physically, the bluetooth headset enters a working state, the wearable device can send response content to the bluetooth headset, and the bluetooth headset can receive and play the response content.

For example, if the wearable device obtains the audio data or the voice signal of the music "play fire", and the like, and it is monitored that the bluetooth headset is disconnected from the wearable device, the wearable device can send the audio data or the voice signal to the bluetooth headset, the bluetooth headset can play the audio data or the voice signal after receiving the audio data or the voice signal, and the user can listen to the music or the voice signal through the bluetooth headset.

In another embodiment, the wearable device does not monitor that the physical connection state of the bluetooth headset and the wearable device changes, but the bluetooth headset is not physically connected with the wearable device at the moment, so that the bluetooth headset is in a working state, the wearable device can send response content to the bluetooth headset, and then the bluetooth headset can receive and play the response content.

For example, if the wearable device obtains the audio data or the voice signal of the music "play fire", and other response contents, it is monitored that the physical connection state of the bluetooth headset and the wearable device is not changed, but the bluetooth headset is not physically connected with the wearable device at this time, the wearable device may send the audio data or the voice signal to the bluetooth headset, the bluetooth headset may play the audio data or the voice signal after receiving the audio data or the voice signal, and the user may listen to the music or the voice signal through the bluetooth headset.

It can be seen from above that, wearable equipment is at the in-process of response operation request, based on above-mentioned equipment control method, after the user takes off bluetooth headset from wearable equipment, need not to carry out any manual setting, alright hear the response content through bluetooth headset, easy operation, user experience is good.

It should be noted that, if the bluetooth headset plays the response content, the wearable device monitors that the physical connection state of the bluetooth headset and the wearable device changes, which indicates that the user fixes the bluetooth headset to the wearable device at this time, the wearable device may send a control instruction to convert the bluetooth headset to the non-operating state. Furthermore, it is reasonable that the wearable device can continue playing the corresponding content or stop playing the corresponding content.

In a case that the operation request is a voice interaction request, as an implementation manner of the embodiment of the present invention, the step of responding to the operation request and obtaining response content corresponding to the operation request may include:

and responding to the voice interaction request and obtaining a first voice signal sent by the opposite terminal equipment.

It will be appreciated that the voice interaction request includes requests of various voice classes, such as incoming calls, voice chat, and the like. After obtaining the voice interaction request, the wearable device can respond to the voice interaction request. Assuming that the voice interaction request is an incoming call request, the wearable device can be connected to the incoming call, and then a first voice signal sent by the opposite-end device can be obtained, wherein the opposite-end device is a device except the wearable device and the Bluetooth headset. The first voice signal may be collected by the peer device and sent to the wearable device, or may be forwarded to the wearable device by the peer device, which is all reasonable.

In a first embodiment, after the wearable device obtains the voice interaction request, it is monitored that the bluetooth headset is disconnected from the wearable device, the wearable device immediately responds to the voice interaction request, and if the voice interaction request is an incoming call, the incoming call is connected.

In a second embodiment, after the wearable device obtains the voice interaction request, it does not monitor that the physical connection state between the bluetooth headset and the wearable device changes, but at this time, the bluetooth headset is not physically connected to the wearable device, the bluetooth headset is in a working state, the wearable device immediately responds to the voice interaction request, and if the voice interaction request is an incoming call, the incoming call is connected.

In a third implementation manner, after the wearable device obtains the voice interaction request, it does not monitor that the physical connection state between the bluetooth headset and the wearable device changes, at this time, the bluetooth headset is physically connected to the wearable device, and then the bluetooth headset is in a non-working state, the wearable device generally receives a response operation sent by the wearable device by the user and then responds to the voice interaction request, and if the voice interaction request is an incoming call, the user may press an answer button on the wearable device, and then the wearable device turns on the incoming call after receiving the response operation.

Correspondingly, the step of sending the response content to the bluetooth headset so that the bluetooth headset receives and plays the response content may include:

and sending the first voice signal to the Bluetooth headset so that the Bluetooth headset receives and plays the first voice signal.

When wearable equipment obtains the first speech signal that the peer device sent, if bluetooth headset is in operating condition this moment, that is to say, if wearable equipment monitors that the physical connection state of bluetooth headset and wearable equipment changes this moment, and this change is the physical connection of bluetooth headset disconnection and wearable equipment, or, bluetooth headset and wearable equipment physical connection this moment, then just respond this voice interaction instruction, and then, wearable equipment alright send the first speech signal that the peer device that receives to bluetooth headset sent to bluetooth headset, after bluetooth headset received this first speech signal, alright play it out so that the user listens to.

If the voice interaction instruction is an incoming call, the first voice signal is a voice signal sent by a person who communicates with the user, the opposite-end device sends the first voice signal to the wearable device, the wearable device further sends the first voice signal to the Bluetooth headset, then the Bluetooth headset can play the first voice signal, and then the user can hear voice content spoken by the person who communicates with the user.

In order to make the voice content spoken by the user audible to a person performing voice interaction with the user, the method may further comprise:

receiving a second voice signal sent by the Bluetooth headset; and sending the second voice signal to the opposite terminal device, wherein the second voice signal is the voice signal sent by the user and obtained by the Bluetooth headset.

The bluetooth headset can collect the second speech signal that the user sent through the microphone of self to connect through the bluetooth and send second speech signal to wearable equipment, and then, wearable equipment receives behind this second speech signal, alright with sending this second speech signal to opposite terminal equipment, the people who carries out speech interaction so with the user just also can hear the pronunciation content that the user said, thereby realizes speech interaction.

It is thus clear that when wearable equipment obtained the voice interaction instruction, if the user took off bluetooth headset from wearable equipment this moment, or bluetooth headset is being in operating condition, then just this voice interaction instruction of automatic response to broadcast and gather speech signal through bluetooth headset, make the user carry out the voice interaction through bluetooth headset, need not the user and carry out manual setting, convenient operation, user experience is better.

It should be noted that, if the wearable device monitors that the physical connection state of the bluetooth headset and the wearable device changes when the bluetooth headset plays the first voice signal, which indicates that the user fixes the bluetooth headset to the wearable device at this time, the wearable device may send a control instruction to convert the bluetooth headset to the non-operating state. Further, it is reasonable that the wearable device can continue playing the first voice signal or end the response to the voice interaction instruction.

In order to ensure the quality of the voice signal in the process of responding to the voice interaction instruction by the wearable device and ensure that the user can hear the voice content sent by the opposite party in the voice interaction process, as an implementation manner of the embodiment of the present invention, as shown in fig. 3, the method may further include the following steps:

s301, detecting the signal intensity of the second voice signal, judging whether the signal intensity is lower than a preset intensity, and if the signal intensity is lower than the preset intensity, executing the step S302; if not, executing step S303;

wearable equipment can detect the signal strength of received second signal when receiving the second speech signal that bluetooth headset sent, and wherein, the signal strength's of detection second signal mode can adopt current arbitrary signal strength detection mode, as long as can reach the detection purpose, does not do not specifically limit here. Since the second voice signal needs to be sent to the peer device by the wearable device, the signal strength of the second voice signal directly affects the quality of the process of responding to the voice interaction instruction by the wearable device.

It should be noted that the preset strength may be determined by those skilled in the art according to factors such as an actual response environment of the voice interaction instruction, and is not limited in particular herein.

S302, sending a control instruction for switching the Bluetooth headset from a working state to a non-working state to the Bluetooth headset so that the Bluetooth headset enters the non-working state, playing the received first voice signal, acquiring a third voice signal, and sending the third voice signal to the opposite terminal equipment;

when the wearable device detects that the signal intensity of the second voice signal is lower than the preset intensity, it indicates that the intensity of the second voice signal sent by the bluetooth headset is weak at the moment, and a person who performs voice interaction with a user is likely to be unable to distinguish the content of the second voice signal, so that the wearable device can send a control instruction to the bluetooth headset to control the bluetooth headset to be switched from the working state to the non-working state, that is, the bluetooth headset does not respond to the voice interaction instruction at the moment.

Furthermore, the wearable device can play the received first voice signal through a player of the wearable device so as to be convenient for the user to listen to, and can acquire a third voice signal through a microphone of the wearable device, wherein the third voice signal is the voice signal sent by the user and acquired by the wearable device. After the wearable device obtains the third voice signal, the wearable device can send the third voice signal to the end device, so that the person who performs voice interaction with the user can also receive the third voice signal, and then the voice interaction is continued.

S303, detecting the signal-to-noise ratio of the second voice signal, judging whether the signal-to-noise ratio is lower than a preset signal-to-noise ratio, and if the signal-to-noise ratio is lower than the preset signal-to-noise ratio, executing the step S304; if not, executing step S305;

when the wearable device detects that the signal strength of the second voice signal is not lower than the preset strength, it is indicated that the strength of the second voice signal sent by the bluetooth headset is stronger at this time, and in order to further ensure the signal quality of the voice interaction process, the wearable device may further detect the signal-to-noise ratio of the second voice signal, and it can be understood that the signal-to-noise ratio refers to the ratio of the signal to the noise, and therefore the higher the signal-to-noise ratio is, the smaller the noise in the voice signal is, the lower the signal-to-noise ratio is, and the larger the noise in the.

It should be noted that the preset signal-to-noise ratio may be determined by a person skilled in the art according to factors such as an actual response environment of the voice interaction instruction, and is not specifically limited herein.

S304, refusing to process the second voice signal; and acquiring the third voice signal, and sending the third voice signal to the opposite terminal equipment.

If the wearable device detects that the signal-to-noise ratio of the second voice signal is lower than the preset signal-to-noise ratio, which indicates that the noise in the second voice signal is large at the moment, if the received second voice signal sent by the bluetooth headset is sent to the opposite-end device at the moment, it is likely that a person performing voice interaction with the user cannot distinguish the voice content spoken by the user, the wearable device can refuse to process the second voice signal, that is, the second voice signal is not sent to the opposite-end device, but a third voice signal is collected through a microphone of the wearable device, and the third voice signal is sent to the opposite-end device.

It can be understood that, since only the signal-to-noise ratio of the second voice signal collected by the bluetooth headset is low at this time, this does not affect the player of the bluetooth headset to play the voice signal. Therefore, the first voice signal can still be played through the Bluetooth headset at this time.

S305, keeping the current response mode unchanged.

If wearable equipment detects that the signal to noise ratio of second speech signal is not less than above-mentioned preset signal to noise ratio, show that the noise in the second speech signal is less this moment, then alright in order to continue to keep bluetooth headset at operating condition, maintain present response mode unchangeable promptly, continue to play the first speech signal that the peer device sent through bluetooth headset, and gather the second speech signal that the user sent through bluetooth headset, and send this second speech signal to peer device.

It is thus clear that can guarantee the signal quality at response voice interaction instruction in-process through above-mentioned mode, through the monitoring to signal strength and SNR, wearable equipment can control bluetooth headset's operating condition, does not need the user to carry out manual setting, further improves user experience.

In order to prevent the bluetooth headset from being lost, the control command sent by the wearable device is: when the bluetooth headset is instructed to switch from the non-operating state to the operating state, as an embodiment of the present invention, as shown in fig. 4, the method may further include:

s401, detecting whether the Bluetooth headset and the wearable device are disconnected in Bluetooth or not; if yes, go to step S402;

it can be understood that the control command issued by the wearable device is: when making bluetooth headset switch to operating condition's instruction from non-operating condition, bluetooth headset does not fix on wearable equipment, and probably the user is using bluetooth headset this moment, also probably bluetooth headset drops, takes place the danger of losing easily.

In order to timely remind the user when the bluetooth headset may be lost, and avoid economic loss, the wearable device may detect whether the bluetooth headset and the wearable device are disconnected from each other, if so, step S402 may be executed, and if not, it indicates that the user is using the bluetooth headset at this time, and then the bluetooth headset is not lost, and thus, no reminding operation is required.

S402, recording the time when the wearable device and the Bluetooth headset are disconnected from the Bluetooth;

if it has disconnected the bluetooth with wearable equipment to detect bluetooth earphone and be connected, then bluetooth earphone is very likely lost this moment, but because disconnection bluetooth connection phenomenon for a short time also probably appears when the signal of bluetooth connection is unstable, so in order to avoid frequently reminding the user that bluetooth earphone loses and bring the puzzlement for the user this moment, wearable equipment can take notes the time of disconnection bluetooth with bluetooth earphone.

And S403, outputting the lost information of the Bluetooth headset when the time reaches a preset time value.

When the recorded time reaches the preset time value, the time that the Bluetooth earphone and the wearable device are disconnected from the Bluetooth is longer, the Bluetooth earphone is likely to be lost, and the wearable device can output the Bluetooth earphone loss information to remind a user that the Bluetooth earphone is likely to be lost.

It should be noted that the preset time value may be set by a person skilled in the art according to factors such as an actual usage scenario of the bluetooth headset, and may be, for example, 8 seconds, 10 seconds, 20 seconds, and the like, which is not limited herein.

The embodiment of the present invention is not limited in particular to the way in which the wearable device outputs the information that the bluetooth headset loses. For example, the wearable device may output the bluetooth headset loss information by way of vibration, lighting, beeping, or the like. If the wearable device has a display screen, the lost information of the Bluetooth headset can be output through the display screen, and of course, the lost information of the Bluetooth headset can be output in a mode combining multiple modes in the above modes, which is reasonable.

From top to bottom, when wearable equipment and bluetooth headset are not physically connected, through the record to bluetooth connection break time, can be under the circumstances that bluetooth headset probably loses, in time output bluetooth headset loses information in order to indicate the user, avoid bluetooth headset to lose unable use problem and economic loss who causes for the user.

Corresponding to the above method embodiment, an apparatus control device is further provided in the embodiment of the present invention, and the apparatus control device provided in the embodiment of the present invention is described below.

As shown in fig. 5, an apparatus control device is applied to a wearable device with bluetooth function, a bluetooth headset is detachably connected to the wearable device, and the apparatus includes:

a physical connection state detection module 510, configured to monitor whether a physical connection state of the bluetooth headset and the wearable device changes;

a control instruction sending module 520, configured to send a control instruction to the bluetooth headset according to states before and after a physical connection state of the bluetooth headset and the wearable device changes, so that the bluetooth headset performs state switching between an operating state and a non-operating state;

a voice interaction module 530, configured to perform voice signal interaction with the bluetooth headset when it is determined that the bluetooth headset is in the working state.

It can be seen that, in the device control apparatus provided in the embodiment of the present invention, the bluetooth headset is detachably connected to the wearable device, the wearable device having a bluetooth function monitors whether a physical connection state between the bluetooth headset and the wearable device changes, and if so, sends a control instruction to the bluetooth headset according to a state before and after the physical connection state changes, so that the bluetooth headset performs state switching between an operating state and a non-operating state, and determines that the bluetooth headset performs voice signal interaction with the bluetooth headset when the bluetooth headset is in the operating state, thereby automatically implementing a related voice interaction function. Therefore, the switching of the working state of the Bluetooth headset does not need manual setting by a user, and the wearable device controls the state before and after the change of the physical connection state, so that the complexity of user operation is reduced, and the user experience is improved.

As an implementation manner of the embodiment of the present invention, the physical connection state detection module 510 may include:

an electrical signal monitoring unit (not shown in fig. 5) for monitoring whether an electrical signal of a first connection position of the wearable device changes, wherein the first connection position is electrically connected with a second connection position of the bluetooth headset when the bluetooth headset is physically connected with the wearable device;

or the like, or, alternatively,

a light signal monitoring unit (not shown in fig. 5) for monitoring whether a light signal of a third connection position of the wearable device changes, wherein the third connection position is blocked by the bluetooth headset when the bluetooth headset is physically connected with the wearable device;

or the like, or, alternatively,

a pressure signal monitoring unit (not shown in fig. 5) for monitoring whether a pressure signal of a fourth connection position of the wearable device changes, wherein the fourth connection position is squeezed by the bluetooth headset when the bluetooth headset is physically connected with the wearable device.

As an implementation manner of the embodiment of the present invention, the apparatus may further include:

a request obtaining module (not shown in fig. 5) for obtaining an operation request;

a request response module (not shown in fig. 5) configured to respond to the operation request and obtain response content corresponding to the operation request;

a content sending module (not shown in fig. 5) configured to send the response content to the bluetooth headset when the bluetooth headset is in an operating state, so that the bluetooth headset receives and plays the response content.

In the process of responding to the operation request, based on the device control method, after the user takes off the Bluetooth headset from the wearable device, the user can listen to the response content through the Bluetooth headset without any manual setting, the operation is simple, and the user experience is good.

As an implementation manner of the embodiment of the present invention, the request obtaining module may include:

a voice signal obtaining unit (not shown in fig. 5) for obtaining a voice signal collected by the bluetooth headset and/or a voice signal collected by the wearable device;

an operation request obtaining unit (not shown in fig. 5) for performing voice recognition on the obtained voice signal to obtain an operation request.

As an implementation manner of the embodiment of the present invention, the operation request may be: a voice interaction request;

the request response module may include:

a first voice signal obtaining unit (not shown in fig. 5) configured to respond to the voice interaction request and obtain a first voice signal sent by an opposite-end device, where the opposite-end device is a device other than the wearable device and the bluetooth headset;

the content transmission module may include:

a first voice signal sending unit (not shown in fig. 5) configured to send the first voice signal to the bluetooth headset, so that the bluetooth headset receives and plays the first voice signal;

the apparatus may further include:

a second voice signal receiving module (not shown in fig. 5) configured to receive a second voice signal sent by the bluetooth headset, where the second voice signal is a voice signal sent by a user and obtained by the bluetooth headset;

a second voice signal sending module (not shown in fig. 5) configured to send the second voice signal to the peer device.

When wearable equipment obtained the voice interaction instruction, if the user took off bluetooth headset from wearable equipment this moment, or bluetooth headset is being in operating condition, then just this voice interaction instruction of automatic response to broadcast and gather speech signal through bluetooth headset, make the user carry out the voice interaction through bluetooth headset, need not the user and carry out manual setting, convenient operation, user experience is better.

a first detecting module (not shown in fig. 5) configured to detect a signal strength of the second voice signal and determine whether the signal strength is lower than a preset strength;

a first switching module (not shown in fig. 5), configured to send a control instruction for switching the bluetooth headset from the working state to the non-working state to the bluetooth headset when the signal strength is lower than a preset strength, so that the bluetooth headset enters the non-working state, play the received first voice signal, acquire a third voice signal, and send the third voice signal to the peer device, where the third voice signal is a voice signal sent by a user and acquired by the wearable device;

a second detecting module (not shown in fig. 5) configured to detect a signal-to-noise ratio of the second voice signal and determine whether the signal-to-noise ratio is lower than a preset signal-to-noise ratio when the signal strength is not lower than a preset strength;

a second switching module (not shown in fig. 5) configured to reject processing of the second speech signal if the signal-to-noise ratio is lower than a preset signal-to-noise ratio; and acquiring the third voice signal, and sending the third voice signal to the opposite terminal equipment.

Can guarantee the signal quality at response voice interaction instruction in-process through above-mentioned mode, through the monitoring to signal strength and SNR, wearable equipment can control bluetooth headset's operating condition, does not need the user to carry out manual setting, further improves user experience.

a bluetooth connection detection module (not shown in fig. 5) configured to, when the control instruction is: when the Bluetooth headset is switched from a non-working state to a working state, detecting whether the Bluetooth headset and the wearable device are disconnected from Bluetooth connection;

a time recording module (not shown in fig. 5) for recording a time when the wearable device is disconnected from the bluetooth headset in case that the bluetooth headset is disconnected from the wearable device;

and a lost information output module (not shown in fig. 5) for outputting the lost information of the bluetooth headset when the time reaches a preset time value.

When wearable equipment and bluetooth headset are not physically connected, through the record to bluetooth connection break time, can be under the circumstances that bluetooth headset probably loses, in time export bluetooth headset and lose information in order to indicate the user, avoid bluetooth headset to lose unable problem of use and economic loss that cause for the user.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims

1. A wearable device control method is applied to a wearable device with a Bluetooth function, and a Bluetooth headset is detachably connected with the wearable device, and the method comprises the following steps:

when the working state of the Bluetooth headset is determined, starting a preset application program or function, and carrying out voice signal interaction with the Bluetooth headset;

obtaining a voice interaction request;

sending the first voice signal to the Bluetooth headset when the physical connection state of the Bluetooth headset and the wearable device is not monitored to change and the Bluetooth headset is not physically connected with the wearable device, so that the Bluetooth headset receives and plays the first voice signal.

2. The method of claim 1, wherein the step of monitoring whether the physical connection state of the bluetooth headset to the wearable device changes comprises:

or the like, or, alternatively,

3. The method of claim 1,

the method further comprises the following steps:

and sending the second voice signal to the opposite terminal equipment.

4. A method according to any one of claims 1-3, wherein, when the control instruction is: when the instruction that the Bluetooth headset is switched from the non-working state to the working state is given, the method further comprises the following steps:

5. The device control device is applied to wearable equipment with a Bluetooth function, a Bluetooth headset is detachably connected with the wearable equipment, and the device comprises:

the voice interaction module is used for starting a preset application program or function when the Bluetooth headset is determined to be in the working state, and performing voice signal interaction with the Bluetooth headset;

the request obtaining module is used for obtaining a voice interaction request;

a request response module, configured to respond to the voice interaction request and obtain a first voice signal sent by an opposite-end device, where the opposite-end device is a device other than the wearable device and the bluetooth headset;

the content sending module is used for sending the first voice signal to the Bluetooth headset under the condition that the physical connection state of the Bluetooth headset and the wearable device is not monitored to change and the Bluetooth headset is not physically connected with the wearable device, so that the Bluetooth headset receives and plays the first voice signal.

6. The apparatus of claim 5, wherein the physical connection status detection module comprises:

or the like, or, alternatively,

7. The apparatus of claim 5, wherein the apparatus further comprises:

8. The apparatus of any of claims 5-7, wherein the apparatus further comprises: