CN105554217B - Control method and electronic equipment - Google Patents

Abstract

The invention discloses a control method and electronic equipment, wherein the control method comprises the following steps: receiving an audio output request in a state of communication connection with the wearable electronic equipment, outputting a prompt, and sending the audio output request to the wearable electronic equipment so that the wearable electronic equipment outputs the prompt; generating a processing instruction, wherein the processing instruction is used for controlling one of the communication equipment and the wearable electronic equipment to output audio; and executing the processing instruction, and closing the prompt of the communication equipment and the wearable electronic equipment. And simultaneously prompting the same audio request through the communication equipment and the wearable electronic equipment, and automatically controlling one of the two equipment to output audio according to the processing instruction. According to the control method, the electronic equipment executes the processing instruction, and one of the electronic equipment and the wearable electronic equipment is automatically controlled to output audio; can carry out audio output through wearable electronic equipment when communication equipment can't normally carry out audio output.

Description

Control method and electronic equipment

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a control method and an electronic device.

Background

With the continuous development of science and technology, the smart phone is applied to daily work and life of people, brings great convenience to the daily work and life of people, and becomes an indispensable important tool for people at present.

At present, after the smart phone receives an audio output request, the smart phone needs to slide a touch bar to unlock and process the audio output request. This presents two relatively cumbersome problems: firstly, the operation is inconvenient for one hand, one hand is usually needed to hold the mobile phone, the other hand is needed to slide the screen for unlocking, and the operation is very troublesome especially on a crowded bus; second, if the touch screen is broken, the audio output request cannot be processed without unlocking.

Disclosure of Invention

In order to solve the above problems, the present invention provides a control method and an electronic device, which can prompt an incoming call through the electronic device and a wearable electronic device at the same time, and automatically control one of the two electronic devices to answer the incoming call according to a processing instruction.

In order to achieve the purpose, the invention provides the following technical scheme:

a control method for a communication device, the control method comprising:

receiving an audio output request in a state of communication connection with a wearable electronic device, outputting a prompt, and sending the audio output request to the wearable electronic device so that the wearable electronic device outputs an incoming prompt;

generating processing instructions for controlling one of the communication device and the wearable electronic device to perform audio output;

and executing the processing instruction, and closing the incoming call prompts of the communication equipment and the wearable electronic equipment.

Preferably, in the control method, the method of generating the processing instruction includes:

and judging whether the communication equipment and the wearable electronic equipment meet preset conditions or not, and if one of the communication equipment and the wearable electronic equipment meets the preset conditions, generating a processing instruction for controlling the communication equipment and the wearable electronic equipment to output audio.

Preferably, in the control method, the method of generating a processing instruction further includes:

and if both the preset conditions are met, generating a processing instruction for controlling the communication equipment to output audio.

Preferably, in the control method, the determining method includes:

and judging whether the space state parameters of the communication equipment and the wearable electronic equipment meet preset conditions or not.

Preferably, in the control method, the determining method includes:

the method comprises the steps of performing data interaction with the wearable electronic equipment, judging whether a first processing request sent by the wearable electronic equipment is received or not and judging whether a communication device generates a second processing request or not, wherein the first processing request is generated when the wearable electronic equipment judges that a space state parameter of the wearable electronic equipment meets a preset condition.

The present invention also provides a communication device, comprising:

the first communication module is used for receiving an audio output request or outputting audio;

the second communication module is used for being in communication connection with the wearable electronic equipment; when the first communication module receives an audio output request, the first communication module is further used for sending the audio output request to the wearable electronic equipment so as to enable the wearable electronic equipment to prompt;

the prompt module is used for outputting a prompt of the audio output request;

a generating module, configured to generate a processing instruction, where the processing instruction is used to control one of the communication device and the wearable electronic device to perform audio output;

an execution module to execute the processing instruction and to close the communication device and the wearable electronic device.

Preferably, in the above communication device, the generating module includes:

a judging unit configured to judge whether the communication device and the wearable electronic device satisfy a preset condition;

a first generation unit that generates a processing instruction that controls one of the communication device and the wearable electronic device to output audio when the one satisfies the preset condition.

Preferably, in the above communication device, the generating module further includes: a second generating unit, configured to generate a processing instruction for controlling the communication device to output audio when both the communication device and the wearable electronic device satisfy the preset condition.

Preferably, in the above communication device, the judging unit includes: the first judgment subunit is used for judging whether the space state parameters of the communication equipment and the wearable electronic equipment meet preset conditions.

Preferably, in the above communication device, the judging unit includes: the second judging subunit is configured to, when performing data interaction with the wearable electronic device, judge whether a first processing request sent by the wearable electronic device is received and judge whether a second processing request is generated by a communication device, where the first processing request is generated by the wearable electronic device when judging that a spatial state parameter of the wearable electronic device satisfies a preset condition.

As can be seen from the above description, the control method provided by the present invention includes: receiving an audio output request in a state of communication connection with a wearable electronic device, outputting a prompt, and sending the audio output request to the wearable electronic device so that the wearable electronic device outputs the prompt; generating processing instructions for controlling one of the communication device and the wearable electronic device to perform audio output; and executing the processing instruction, and closing the prompt of the electronic equipment and the wearable electronic equipment.

The control method can simultaneously prompt about the same audio request through the communication equipment and the wearable electronic equipment, and automatically control one of the two equipment to output audio according to the processing instruction. On one hand, the control method automatically controls one of the electronic equipment and the wearable electronic equipment to output audio through the electronic equipment executing the processing instruction; on the other hand, when the communication equipment can not normally output the audio, the wearable electronic equipment can output the audio.

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 embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

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

fig. 2 is a schematic structural diagram of a communication device according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a generating module according to an embodiment of the present application.

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.

As described in the background, the conventional smart phone needs to slide the touch bar to unlock and enable the phone function after the incoming call is connected. This presents two relatively cumbersome problems: firstly, the operation is inconvenient for one hand, one hand is usually needed to hold the mobile phone, the other hand is needed to slide the screen for unlocking, and the operation is very troublesome especially on a crowded bus; second, if the touch screen is broken, the phone must not be connected without unlocking.

In order to solve the above problem, an embodiment of the present application provides a control method, which is used for a communication device. The communication device may be a smart phone. The control method is shown in fig. 1.

Referring to fig. 1, fig. 1 is a schematic flowchart of a control method provided in an embodiment of the present application, where the control method includes:

step S11: the method comprises the steps of receiving an audio output request in a state of being in communication connection with a wearable electronic device, outputting a prompt, and sending the audio output request to the wearable electronic device so that the wearable electronic device outputs the prompt.

The communication equipment and the wearable electronic equipment can be paired through the Bluetooth module, and then are in communication connection. Adopt bluetooth module to realize the communication connection between the two, can realize the near field communication connection between the two, the energy consumption is less simultaneously, can cross the duration of guaranteeing power supply unit.

In an embodiment of the present application, the communication device includes a controller configured to execute the control method.

The audio output request can be an incoming call request, and after the incoming call request is received, the communication device sends the incoming call request to the wearable electronic device while performing incoming call prompt, so that the wearable electronic device performs incoming call prompt at the same time.

In other embodiments, the audio output request may also be a voice message, and after receiving the voice message, the communication device prompts and sends the voice message to the wearable electronic device, so that the wearable electronic device prompts at the same time.

After receiving the audio output request, the communication device sends the audio output request to the wearable electronic device while outputting the prompt of the audio output, so that the wearable electronic device outputs the prompt of the audio output request. The signal transmission between the two is electromagnetic wave, the speed is very fast, and the two can be regarded as simultaneously outputting the prompt about the audio output request in terms of the human perception speed.

Step S12: generating processing instructions for controlling one of the communication device and the wearable electronic device to output audio.

When the audio output request is an incoming call request, generating an instruction for controlling one of the communication device and the wearable electronic device to switch on the incoming call request. When the communication equipment and the wearable electronic equipment execute the instruction, the communication equipment connects the call and controls the audio output module to work, and audio conversation is carried out between the communication equipment and the incoming call equipment.

When the audio output request is a voice message, generating an instruction to control one of the communication device and the wearable electronic device to play the voice message. And when the communication equipment and the wearable electronic equipment execute the instruction, the voice message is directly played.

Step S13: and executing the processing instruction, and closing audio output prompts of the communication equipment and the wearable electronic equipment.

As can be seen from the above description, the control method can simultaneously prompt the communication device and the wearable electronic device about the audio output request, and automatically control one of the two electronic devices to switch on the audio output according to the processing instruction. In one aspect, the control method automatically controls one of the electronic device and the wearable electronic device to output audio by the electronic device executing the processing instruction.

Optionally, in the control method according to the embodiment of the present application, the method for generating the processing instruction includes: and judging whether the communication equipment and the wearable electronic equipment meet preset conditions or not. The determining process is used for determining whether the communication device satisfies a preset condition and determining whether the wearable electronic device satisfies the preset condition.

And if one of the conditions meets the preset condition, generating a processing instruction for controlling the switch-on of the switch-on device.

And if both meet the preset condition, generating a processing instruction for controlling the communication equipment to be switched on. When the two meet the preset condition at the same time, the user preferably answers through the communication equipment so as to ensure the conversation quality and the conversation comfort.

In the control method according to the embodiment of the present application, the determining whether the two electronic devices satisfy the preset condition includes: and judging whether the space state parameters of the communication equipment and the wearable electronic equipment meet preset conditions or not.

And when the space state parameter of the communication equipment meets a preset condition, the communication equipment meets the preset condition. When the space state parameter of the wearable electronic equipment meets a preset condition, the wearable electronic equipment meets the preset condition.

The space state parameters of the communication equipment can be collected through a sensor arranged on the communication equipment, whether the space state parameters meet preset conditions or not is judged by judging whether the space state parameters meet set thresholds or not, if the space state parameters meet the set thresholds, the preset conditions are met, and if the space state parameters do not meet the set thresholds, the preset conditions are not met. The space state parameters of the wearable electronic equipment can be collected through a sensor arranged on the wearable electronic equipment, whether the space state parameters meet preset conditions or not is judged by judging whether the space state parameters meet set thresholds or not, if the space state parameters meet the set thresholds, the preset conditions are met, and if the space state parameters do not meet the set thresholds, the preset conditions are not met. Specifically, the wearable electronic device may be configured to collect the spatial state parameters of the wearable electronic device only by the sensor of the wearable electronic device, and send the spatial state parameters of the wearable electronic device to the communication device. The controller of the communication equipment judges whether the communication equipment meets the preset conditions or not according to the space state parameters of the communication equipment, and judges whether the wearable electronic equipment meets the preset conditions or not according to the space state parameters of the wearable electronic equipment.

The spatial state parameter may be a height parameter or an acceleration parameter. When the set space state parameter is the acceleration parameter, the user wears the wearable electronic equipment by the left hand and holds the communication equipment by the right hand. When there is an audio output request, the user needs to lift an arm to the ear to answer the audio output request, such as for connecting an incoming call request or playing a voice message. Therefore, the corresponding equipment has acceleration due to the action of lifting hands, and the acceleration of the two pieces of equipment is compared with the threshold acceleration by setting the threshold acceleration, so that whether the two pieces of equipment meet the preset condition can be judged, and a corresponding execution instruction can be generated conveniently. When the spatial state parameter is a height parameter, the control process is the same as the acceleration implementation mode, and details are not repeated here.

When a user answers the audio output, the user needs to raise his hand to put the communication device or the wearable electronic device to the ear for answering. Therefore, listening to audio output by detecting the communication device or the wearable electronic device may be determined by detecting a change in a spatial state parameter of the communication device or the wearable electronic device.

In the embodiment of the present application, the wearable electronic device is preferably a device worn on an arm (wrist or finger) of a user, such as a smart watch, a smart band, or a smart ring. The control method is used when the communication device is held by a user and/or worn by a user of the wearable electronic device. At this time, when a user is ready to listen to audio output through one of the communication device and the wearable electronic device, the user needs to lift the corresponding arm, which may cause a change in the spatial state parameter of the communication device and/or a change in the spatial state parameter of the wearable electronic device.

The corresponding processing instruction can be generated through the change of the space state parameters of the two devices, when the instruction is executed, the communication device or the wearable electronic device is automatically controlled to output audio according to the instruction, the prompt of the communication device or the wearable electronic device is closed, the communication device or the wearable electronic device can automatically connect the audio output request only through detecting the hand-lifting action of the user, incoming call or voice message playing is carried out, sliding or touch control on a screen of the device is not needed manually, and the operation is simple and rapid.

When the communication equipment or the wearable electronic equipment is positioned on the same arm of a user and the user lifts the hand to answer the audio output, the spatial state parameters of the communication equipment and the wearable electronic equipment both meet the preset condition, and a processing instruction for controlling the communication equipment to be connected is generated according to the description. When the two are positioned on different arms of the user, and when the user lifts his hand to answer the audio output, the spatial state parameters of one of the arms positioned on the hand-lifting action of the user meet the preset conditions, and a processing instruction for switching on the equipment corresponding to the arm is generated according to the description.

In the above description, when the communication device determines whether the wearable electronic device meets the preset condition, the communication device determines according to the acquired spatial parameter of the wearable electronic device.

In other embodiments, the determining whether the two electronic devices satisfy the preset condition includes: and performing data interaction with the wearable electronic equipment, judging whether a first processing request sent by the wearable electronic equipment is received or not, and judging whether a second processing request is generated by the communication equipment or not. If the first processing request is received, the wearable electronic device meets the preset condition, and if the second processing request is received, the communication device meets the preset condition.

The first processing request is generated when the wearable electronic device judges that the space state parameter of the wearable electronic device meets a preset condition. The second processing request is generated when the communication device judges that the self space state parameter meets the preset condition. At this time, the wearable electronic device generates a first processing request according to the spatial state parameter of the wearable electronic device and sends the first processing request to the communication device.

The wearable electronic device includes a controller. In the embodiment, after the wearable electronic device collects the self space state parameters through the self-arranged sensor, the controller of the wearable electronic device judges whether the wearable electronic device meets the preset conditions or not according to the self space state parameters, if so, a first processing request is generated, and the first processing request is sent to the communication device; otherwise, it is not generated. In this way, the controller of the communication device may directly determine whether the wearable electronic device satisfies the preset condition according to the first processing request, without processing and determining the spatial state parameter of the wearable electronic device.

By the control method, the audio output request can be answered by one of the communication equipment and the wearable electronic equipment.

In the embodiment of the application, the communication equipment is used as an execution main body of the control method, and whether automatic audio output answering is carried out through the wearable electronic equipment or whether automatic audio output is carried out by the wearable electronic equipment can be automatically judged. The control method can simultaneously prompt about the same audio request through the communication equipment and the wearable electronic equipment, and automatically control one of the two equipment to output audio according to the processing instruction. On one hand, the control method automatically controls one of the electronic equipment and the wearable electronic equipment to output audio through the electronic equipment executing the processing instruction; on the other hand, when the communication equipment can not normally output the audio, the wearable electronic equipment can output the audio.

Based on the control method, the embodiment of the application also provides communication equipment for realizing the control method. The structure of the communication device is shown in fig. 2, and fig. 2 is a schematic structural diagram of a communication device provided in an embodiment of the present application.

The communication device includes: a first communication module 21, where the first communication module 21 is configured to receive an audio output request or perform audio output; a second communication module 22, wherein the second communication module 22 is used for being in communication connection with a wearable electronic device; when the first communication module receives an audio output request, the first communication module is further used for sending the audio output request to the wearable electronic equipment so as to enable the wearable electronic equipment to prompt; a prompt module 23, where the prompt module 23 is configured to output a prompt of the audio output request; a generating module 24, wherein the generating module 24 is configured to generate a processing instruction, and the processing instruction is used to control one of the communication device and the wearable electronic device to perform audio output; an execution module 25, where the execution module 25 is configured to execute the processing instruction and close the prompts of the communication device and the wearable electronic device.

The structure of the generating module 241 may be as shown in fig. 3, where fig. 3 is a schematic structural diagram of a generating module provided in an embodiment of the present application, and the generating module 24 includes: a judging unit 241, where the judging unit 241 is configured to judge whether the communication device and the wearable electronic device satisfy a preset condition; a first generating unit 242, wherein the first generating unit 242 generates a processing instruction for controlling one of the communication device and the wearable electronic device to output audio when the preset condition is satisfied. The first generating unit 242 is connected to the first communication module 21 through the determining unit 241.

As shown in fig. 3, the generating module 24 further includes: a second generating unit 243, where the second generating unit 243 is configured to generate a processing instruction for controlling the communication device to output audio when both the communication device and the wearable electronic device satisfy the preset condition. The second generating unit 243 is connected to the first communication module 21 through the determining unit 241.

Optionally, the judging unit 241 includes: the first judgment subunit is used for judging whether the space state parameters of the communication equipment and the wearable electronic equipment meet preset conditions.

Optionally, the judging unit 241 includes: the second judging subunit is configured to, when performing data interaction with the wearable electronic device, judge whether a first processing request sent by the wearable electronic device is received and judge whether a second processing request is generated by a communication device, where the first processing request is generated by the wearable electronic device when judging that a spatial state parameter of the wearable electronic device satisfies a preset condition.

The communication equipment can be a smart phone. This communication equipment can pair through bluetooth module with wearable electronic equipment, carries out communication connection.

The working process of the electronic communication device in the embodiment when processing the audio output request is as follows:

the communication device is in communication connection with the wearable electronic device through the second communication module. The second communication module may be a bluetooth module. When the other device sends an audio output request to the communication device, the communication device receives the audio output request through the first communication module. When the first communication module receives the audio output request, outputting a prompt related to the audio output request through a prompt module, and sending the audio output request to the wearable electronic device through the second communication module, so that the wearable electronic device outputs the prompt related to the audio output request.

The generating module generates an execution instruction, the execution module executes a processing instruction, one of the communication device and the wearable electronic device is controlled to output audio, and the prompt of the communication device and the wearable electronic device is closed. The execution module judges whether the communication equipment and the wearable electronic equipment meet preset conditions or not, and generates a processing instruction according to a judgment result.

It should be noted that, the communication device according to the embodiment of the present application is based on the control method according to the above embodiment, and the same parts may be supplemented with each other.

When the communication equipment receives the audio output request, the communication equipment and the matched wearable electronic equipment can simultaneously perform audio output prompt, and one of the two equipment is automatically controlled to perform audio output according to the processing instruction. Executing the processing instruction through the electronic equipment, and automatically controlling one of the electronic equipment and the wearable electronic equipment to output audio; can carry out audio output through wearable electronic equipment when communication equipment can't normally carry out audio output.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A control method for a communication device, the control method comprising:

receiving an audio output request in a state of communication connection with a wearable electronic device, outputting a prompt, and sending the audio output request to the wearable electronic device so that the wearable electronic device outputs the prompt;

generating processing instructions for controlling one of the communication device and the wearable electronic device to perform audio output;

executing the processing instruction, and closing the prompt of the communication device and the wearable electronic device;

and determining that the wearable electronic equipment and the communication equipment are positioned on the same arm of the user or respectively positioned on different arms of the user, and selecting one of the communication equipment and the wearable electronic equipment for audio output based on the determination result.

2. The control method according to claim 1, wherein the method of generating a processing instruction includes:

and judging whether the communication equipment and the wearable electronic equipment meet preset conditions or not, and if one of the communication equipment and the wearable electronic equipment meets the preset conditions, generating a processing instruction for controlling the communication equipment and the wearable electronic equipment to output audio.

3. The control method according to claim 2, wherein the method of generating a processing instruction further comprises:

and if both the preset conditions are met, generating a processing instruction for controlling the communication equipment to output audio.

4. The control method according to claim 3, wherein the method of determining includes:

and judging whether the space state parameters of the communication equipment and the wearable electronic equipment meet preset conditions or not.

5. The control method according to claim 2, wherein the method of determining includes:

the method comprises the steps of performing data interaction with the wearable electronic equipment, judging whether a first processing request sent by the wearable electronic equipment is received or not and judging whether a communication device generates a second processing request or not, wherein the first processing request is generated when the wearable electronic equipment judges that a space state parameter of the wearable electronic equipment meets a preset condition.

6. A communication device, comprising:

the first communication module is used for receiving an audio output request or outputting audio;

the second communication module is used for being in communication connection with the wearable electronic equipment; when the first communication module receives an audio output request, the first communication module is further used for sending the audio output request to the wearable electronic equipment so as to enable the wearable electronic equipment to prompt;

the prompt module is used for outputting a prompt of the audio output request;

a generating module, configured to generate a processing instruction, where the processing instruction is used to control one of the communication device and the wearable electronic device to perform audio output;

an execution module to execute the processing instruction and turn off the prompts of the communication device and the wearable electronic device;

and determining that the wearable electronic equipment and the communication equipment are positioned on the same arm of the user or respectively positioned on different arms of the user, and selecting one of the communication equipment and the wearable electronic equipment for audio output based on the determination result.

7. The communications device of claim 6, wherein said generating module comprises:

a judging unit configured to judge whether the communication device and the wearable electronic device satisfy a preset condition;

a first generation unit that generates a processing instruction that controls one of the communication device and the wearable electronic device to output audio when the one satisfies the preset condition.

8. The communications device of claim 7, wherein the generating module further comprises: a second generating unit, configured to generate a processing instruction for controlling the communication device to output audio when both the communication device and the wearable electronic device satisfy the preset condition.

9. The apparatus according to claim 8, wherein said judging unit includes: the first judgment subunit is used for judging whether the space state parameters of the communication equipment and the wearable electronic equipment meet preset conditions.

10. The apparatus according to claim 7, wherein said judging unit includes: the second judging subunit is configured to, when performing data interaction with the wearable electronic device, judge whether a first processing request sent by the wearable electronic device is received and judge whether a second processing request is generated by a communication device, where the first processing request is generated by the wearable electronic device when judging that a spatial state parameter of the wearable electronic device satisfies a preset condition.